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THE 



AMERICAN EPHEMERIS 



&0^c^ 



AND 



NAUTICAL ALMANAC 



POR THB YSAS 



1899 



JFIRST EDITION 



FUBUSHED BY AUTHORITY OF CONGRESS 



WASHINGTON: 

BUREAU OF EQUIPMENT. 

1896. 



PREFACE. 



The arrangement of ^he American Ephemeris adopted in the volume for the 
year 1882, and explained in the Appendix to that volume, has been continued 
without radical change to the present time. 

The additions then made 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. The work is divided into three parts, as follows: — 

Part I, Ephemeris for the Meridian of Greenwich^ gives the geocentric and heli- 
ocentric positions of the major planets, the Ephemeris of the Sun, and other 
fundamental astronomical data for equi-distant intervals of Greenwich mean time. 

Part II, Ephemeris for the Meridian of Washington^ gives the ephemerides of 
the fixed stars, sun, moon, and major planets for transit over the meridian of 
the New Naval Observatory, Washington. The mean places of the fixed stars 
and the data for their reduction are also included in this part. The list of 
mean and apparent places of fixed stars was greatly enlarged in 1885 for the 
convenience of field-astronomers. 

Part III, Phenomena^ contains predictions of phenomena to be observed, with 
data for their computation. Washington mean time of the New Naval Observa- 
tory is used in this part except in a few cases, notably that of eclipses, where 
Greenwich mean time was judged more convenient. 

SIMON NEWCOMB, 

Professor U, S, Navy^ 

Director Nautical Almanac. . 
Washington, August^ 1896. 



EPH 99 III 



CONTENTS. 



Corrections •.••.....•• 

Chronological Eras and Cycles ........ 

Symbols and Abbreviations ......... 

PART \—EPHEMERIS FOR THE MERIDIAN OF GREENWICH, 

Ephemeris of the Sun ......... 

Ephemeris of the Moon ......... 

Phases of the Moon .......... 

Lunar Distances .......... 



Page 
vi 

• ■ 

vu 

• • • 

Vlll 

Pages of 
■ Each Month 

. I— III 

IV— XII 

XII 

XIII— XVIII 

Page 



Geocentric Ephemerides of the Planets Mercury, Venus. Mars, Jupiter, Saturn, Uranus, Neptune 
Heliocentric Ephemerides of the Planets Mercury, Venus, Mars, Jupiter, Saturn, Uranus, Neptune 
Sun's Co-ordinates ........... 

Moon's Longitude and Latitude ......... 

Moon's Equator and Libration ......... 

Obliquity of the Ecliptic, Equation of Equinoxes, Precession, etc. .... 

PART ll-^EPHEMERIS FOR THE MERIDIAN OF WASHINGTON 

Bessel's Formulae for Star-Reductions 

Besselian Star-Numbers, A, B, C, D . 

Independent Star-Numbers,./, g, h, etc. 

Mean Places of Standard Stars for 1899.0 . 

Apparent Places of Four Circumpolar Stars 

Apparent Places of Other Standard Stars . 

Apparent Right Ascensions of Additional Stars 

Solar Ephemeris .... 

Moon-Culminations .... 

Transit-Ephemerides of the Planets Mercury, Venus, Mars, Jupiter, Saturn, Uranus, Neptune 

PART lll^PHENOMENA. 

Moon's Phases, Apogee, Perigee, and Greatest Libration 

Mean Places of Stars Occulted by the Moon 

Elements for the Prediction of Occultations 

Occultations Visible at Washington . 

DowNEs's Table for Facilitating the Prediction of 

Disk of Mercury 

Disk of Venus . 

Disk of Mars 

Satellites of Jupiter 

Satellites of Saturn 

Rings of Saturn 

Satellites of Uranus . 

Satellite of Neptune 

Phenomena, Planetary Constellations 

Positions of Observatories 

On the Arrangement and Use of The American Ephemeris and Nautical Almanac 

APPENDIX. 
On the Construction of The American Ephemeris and Nautical Almanac for 1899 

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 Solar to Sidereal Time ..... 
Table IV. — Latitude by Observation of the Altitude of Polaris .... 
EPH 99 ^V 



Occultations 



218 
250 
264 
272 
276 
278 

280 
281 
285 

293 
302 

314 
365 
377 
385 
393 

411 

417 
418 

422 

456 

458 
460 
461 
462 

463 
488 

491 

49a 

493 

494 
49€ 
501 

527 

531 
533 
53! 
53« 



CORRECTIONS. 



Ephemeris^ i8g7. (First Edition only.) 

Page. 

V, igth line, for 1896.0 read 1897.0 

V, 6th line from bottom, for 1896 read 1897 

VII, Byzantine era, the year 7406 begins September ist 

3151 for 12 Cassiopeiae read 21 Cassiopeiae 

331, for 6 Ursae Majoris read $ Ursae Majoris 

417, Moon's Greatest Libration, Aug. 25, for 25'* 16^' 17™ reaa 2$^ 2X** 27™ 

420, for ^ Leonis read /> Leonis 

Ephemeris^ i8g8. 

Page. 

V, 19th line, for 1896.0 read 1898.0 

57, Foot note, for south read north 

75, Foot note, for decreasing read increasing 

297, Declination of dVirginis. for 5® 59' 40". 36 read. 4® 59' 4o".36 

365, 2nd line from bottom of upper ^ page, Mean Solar date, for 34.2 read 2\A 

421, Declination of 0* Cancri, for 16® 58' 22". 30 read 15® 58' 22^.30 
4231 for 6 Sagittarii read Sagittarii 

463, 6th line, for 462 — 482 read 466^486 

508, 5th line, for " o ' " read s h m s 

521, 27th line from bottom, for log x read log x* 

524. 2xst line from top insert y' before the symbol ^ 



EPH 



CHRONOLOGICAL ERAS AND CYCLES. 



CHRONOLOGICAL ERAS, 

THE YEAR 1899, WHICH COMPRISES THE LATTER PART OP THE xaaRD AND THE BEGINNING OP THE ZS4TH 
YEAR OP THE INDEPENDENCE OP THE UNITED STATES OP AMERICA, CORRESPONDS 



The year 6612 of the Julian Period; 

" 7407-7408 of the Byzantine era, the year 7408 commencing on September ist; 
" 5659-5660 of the Jewish era, the year 5660 commencing on September 5th, 

or, more exactly, at sunset on September 4th; 
'' 2652 since the foundation of Rome, according to Varro; 

^ 2646 since the beginning of the era of Nabonassar, which has been assigned 
to Wednesday, the 26th of February of the 3967th year of the Julian 
Period; corresponding, in the notation of chronologists, to the 747th; 
and, in the notation of astronomers, to the 746th year before the birth of 
Christ; 
•• 2675 of the Olympiads, or the third year of the 669th Olympiad commencing 
in July, 1899, if we fix the era of the Olympiads at 775)^ years before 
Christ, or near the beginning of July of the year 3938 of the Julian 
Period ; 
« 22 1 1 of the Grecian era, or the era of the SELEUCiDiE; 
" 16 1 5 of the era of Diocletian; 

" 2559 of the Japanese era and to the 32d year of the period entitled "Meiji." 
The year 131 7 of the Mohammedan era, or the era of the Hegira, begins on the 12th day 
of May, 1899. 

The first day of January of tne year 1899 is the 2,414,656th day since the commencement 
of the Julian Period. 

CHRONOLOGICAL CYCLES. 

• • • • 4 

12 

• • • • 6612 



Dominical Letter • 


A 


Solar Cycle 


Epact 


18 


Roman Indiction 


Lunar Cycle or Golden Number . 


19 


Julian Period . 



EPH 99 ^VII 



SYMBOLS AND ABBREVIATIONS. 



SIGNS OF THE PLANETS, ETC, 



The Sun. 

C The Moon, 

g Mercury. 

9 Venus, 

e The Earth. 



$ 


Mars. 


% 


Jupiter. 


\ 


Saturn. 


s 


Uranus. 


V 


Neptune 



SIGNS OF THE ZODIAC. 



Spring 
Signs. 

Summer 
Signs. 



I. 


T 


Aries. 


2. 


» 


Taurus. 


3- 


n 


Gemini. 


4- 


Z5 


Cancer. 


5- 


a 


Leo. 


6. 


nK 


Virgo. 



Autumn 
Signs. 

Winter 
Signs. 



7. 


^A 


Libra. 


8. 


m. 


Scorpius. 


9- 


/ 


Sagittarius. 


lO. 


VT 


Capricornus 


II. 




Aquarius. 


12. 


X 


Pisces. 



ASPECTS 



6 Conjunction, or having the same Longitude or Right Ascension. 
D Quadrature, or differing 90° in Longitude or Right Ascension. 
<p Opposition, or differing 180° in Longitude or Right Ascension. 



ABB RE VIA TIONS. 



Q. 


Ascending Node. 


?S 


Descending Noae. 


N. 


North. 


S . 


South. 


E. 


East. 


W. 


West. 



o 

/ 

It 

h 

m 



Degrees. 
Minutes of Arc. 
Seconds of Arc. 
Hours. 

Minutes of Time. 
Seconds of Time. 



EPH 99 VIII 



PARTI 



ASTRONOMICAL EPHEMERIS 



FOR THB 



MERIDIAN OF GREENWICH 



EPH 99 



2 



JANUARY, 1899. 



AT GREENWICH APPARENT NOON. 



• 



9 

6 






SUN. 

Mon. 

Tues. 

Wed. 
Thar. 
Frid. 

Sat. 

SUN. 

Mon. 

Tues. 
Wed. 
Thur. 

Frid. 

Sat. 

SUN, 

Mod. 
Tues. 
Wed. 

Thur. 

Frid. 

Sat. 

SUN. 

Mon. 

Tues. 

Wed. 
Thur. 
Frid. 

Sat. 
SUN. 
Mon. 
Tues. 

Wed. 









I 
2 

3 

4 

5 
6 

7 
8 



lO 

II 

12 

13 
14 
15 

16 

17 

18 

20 
21 

22 

23 
24 

25 
26 

27 

28 
29 

30 

31 

32 



THE SUN'S 



Apparent 
Right Ascension. 



m 



8 47 28.68 

8 51 53-43 
8 56 17.85 



9 
9 
9 



o 41.89 

5 S'5S 
9 28.77 



9 13 5154 
9 18 13.82 

9 22 35.59 

9 26 56.82 

9 31 17-47 
9 35 37-53 

9 39 56.96 

9 44 15-75 
9 48 33.86 

9 52 51-27 

9 S7 7-98 

20 I 23.95 

20 5 39.16 
20 9 53.62 
20 14 7.29 

20 18 20.18 
20 22 32.28 
20 26 43.58 

20 30 54.07 

20 35 3-75 
20 39 12.62 

20 43 20.68 
20 47 27.93 

20 51 34-37 
20 55 40.00 

20 59 44.82 



Diff. for 
I Hour. 



■ 

I-037 
1.024 

Z.OIO 

0.994 
0.977 
0.959 

0.939 

0.918 
0.896 

0.873 

0.848 
0.822 

0.796 
0.769 
0.740 

0.7II 
a.68i 
0.650 

0.618 
0.586 

0-553 

0.520 
0.487 
0.454 

0.420 
0.387 

0.353 

0.3x9 
0.285 
0.251 
o.2z8 

0.184 



Apparent 
Declination. 



S. 23 o 14.0 

22 54 59-9 
22 49 18.3 

22 43 9-5 
22 36 33.6 

22 29 30.7 

22 22 1.2 
22 14 5.1 
22 5 42.9 

21 56 54.6 
21 47 40.6 
21 38 1.2 

21 27 56.7 
21 17 27.4 
21 6 33.5 

20 55 15-5 
20 43 33-5 
20 31 28.1 

20 18 59.5 
20 6 8.1 

19 52 54-2 

19 39 18.1 
19 25 20.3 

19 II i.o 

18 56 20.7 
18 41 19.7 
18 25 58.3 

18 10 16.9 

17 54 15-9 

17 37 55-7 
17 21 16.6 



Diff. for 
I Hour. 



+12.52 
13.66 
14.80 

+15-93 
17.06 

18.17 

+19.28 
20.38 
21.47 

+22.54 
23.61 
24.66 

+25.70 
26.73 
27.74 

+28.74 

29-73 
30.70 

+31.66 
32.61 

33-54 

+34-45 

35.35 
36.24 

+37-" 
37.96 
38.80 

+39.63 

40.44 
41.23 

42.OX 



S. 17 4 19,1 I +42.77 



Semi- 
diameter. 



16 
16 
16 

16 
16 
16 

16 
16 
16 

16 
16 
16 

16 
16 
16 

16 
16 
16 

16 
16 
16 

16 
16 
16 

16 
16 
16 

16 
16 
16 
16 



8.40 

8.39 
8.38 

8.36 

8.34 
8.31 

8.28 
8.24 
8.20 

8.16 

8.II 
8.06 

8.00 

7-94 
7.88 

7.81 

7.74 
7.67 

7.59 

7.50 
7.41 

7.32 
7.22 

7.1 1 

7.00 
6.88 

6.75 

6.62 
6.49 

6.35 
6.20 



Sidereal 
Time of 
Semi- 
diameter 
Passing 
Meridian 



16 16.05 



■ 
71.04 

71.00 
70.95 

70.90 
70.84 
70.78 

70.72 
70.65 
70.58 

70.50 
70.42 

70-34 

70.25 
70.16 
70.07 

69.98 
69.88 
69.78 

69.68 

69.58 
69.48 

69.38 
69.27 
69.16 

69.05 
68.94 
68.83 

68.71 
68.60 
68.49 
68.38 



Bqaatloa of 

Time, 

to be 

Added to 

Apparent 

Tima^ 



m ■ 

3 47.32 

4 15.43 

4 43-21 

5 10.63 

5 37.65 

6 4.24 

6 30.38 

6 56.04 

7 21.18 

7 45-78 

8 9.81 

8 33.25 

8 56.06 

9 18.23 
9 39-72 

o 0.52 

o 20.61 

o 39-97 



o 

I 
I 

I 

2 
2 



58.58 
16.43 

33-50 

49-79 

5-29 
19.99 



2 33-89 

2 46.98 

2 59.26 

3 10.72 

3 21.39 

3 31-25 

3 40.30 



DiilLfor 
I Hoar. 



68.26) 13 48.54 



■ 
X.178 

1.165 
1. 150 

I.X34 
X.IX7 
X.099 

X.079 
1.058 
1.036 

X.OX3 
0.989 
0.964 

0.937 
0.909 

o.88x 

0.852 
0.822 
0.791 

a76o 
0.728 
0.695 

0.662 
0.629 
0.596 

0.562 
0.528 
0.495 

0.46X 
0.428 
0.394 
0.360 

0.327 



Non.— The mean time of semidiameter paaaing may be found by aabtracting a^.19 flrom tbe tldareal time. 
The sign 4- prefixed to the hourly change of declination indicates that aoath decUnatioiit an 



n. 



JANUARY, 1899. 



3 



AT GREENWICH MEAN NOON. 



I 



SUN. 

Mon. 

Tues. 

Wed. 
Thur. 
Frid. 

Sat 

SUN. 

Mod. 

Tues. 
Wed. 
Thur. 

Frid. 

Sat. 

SUN 

Mon. 
Tues. 
Wed. 

Thur. 

Frid. 

Sat. 

SUN 

Mon. 

Tues. 

Wed. 
Thur. 
Frid. 

Sat. 
SUN 
Mon. 
Tues. 

Wed. 



§ 

o 
rS 

o 

ca 
Q 



I 
2 

3 

4 

5 
6 

7 
8 



lO 

II 

12 

13 
H 
15 

i6 

17 
i8 

20 
21 

22 

23 
24 

25 
26 

27 

28 
29 

30 
31 

32 



THE SUN'S 



Apparent 
Right Ascensioa 



DifF. for 
X Hour. 



Apparent 
Declination. 



tarns 8 

8 47 27.98 11.034 

8 51 52*65 ZI.021 

8 56 16.98 ZZ.006 

9 o 40.94 10.990 
9 5 4.52 10.973 
9 9 27.66 10.955 

9 13 50-35 xo-935 
9 18 12.56 10.914 

9 22 34.26 10.893 

9 26 55.41 10.870 

9 31 16.00 10.845 

9 35 35-99 »o-82o 

9 39 5536 10.794 

9 44 14.08 10.767 

9 48 32.13 10.738 

9 52 49.49 10.708 

9 57 6.13 10.678 

20 I 22.05 10.647 

20 5 37.22 10.616 

20 9 51.63 10.584 

20 14 5*26 10-552 

20 18 18. 1 1 10.519 

20 22 30.17 10.486 

20 26 41.43 10.453 

20 30 51.89 10.419 

20 35 1.54 10.386 

20 39 10.38 10.352 

20 43 18.41 10.318 

20 47 25.64 10.284 

20 51 32.06 10.250 

20 55 37.67 10.217 

20 59 42.481 Z0.184 



S. 23 o 

22 55 
22 49 



14.9 
0.9 1 

19-5 



22 43 10.9 

22 36 35.2 

22 29 32.6 

22 22 3.3 

22 14 7.5 

22 5 45-5 

21 56 57.6 

21 47 43.9 

21 38 4.8 

21 28 0.6 

21 17 31.6 

21 6 38.0 

20 55 20.3 

20 43 38.7 

20 31 33.6 

20 19 5.4 

20 6 14.2 

19 53 0-7 



19 
19 
19 



39 24.9 
25 27.4 
II 8.5 



18 56 28.5 

18 41 27.8 

18 26 6.7 

18 10 25.7 

17 54 25.0 

17 38 5.1 

17 21 26.3 

S. 17 4 29.0 



Diff. for 
z Hoar. 



+12.51 

13-65 
M-79 

+15.92 
17.05 
18.16 

+19.27 
20.37 
21.46 

+22.53 
23.60 
24.65 

+25.69 
26.72 

27-73 

+28.73 
29.72 
30.69 

+31-65 
32.60 

33-53 

+34-44 

35-34 
36.23 

+37.10 

37-95 
38.79 

+39-62 
40.43 
41.22 
42.00 

+42.76 



Eqnadon of 
Time, 
to be 

Subtracted 
from 

Mean Time. 



m ■ 

3 47-24 

4 15-34 

4 43-12 

5 IO-53 

5 37.54 

6 4.13 

6 30.26 

6 55.91 

7 21.05 

7 45.65 

8 9.67 

8 33.11 

8 55-92 

9 18.09 

9 39-58 



o 
o 
o 



0.38 

20.47 

39-83 



58.44 

1 16.29 

I 33.37 

I 49.66 

2 5.16 

2 19.86 

2 33.77 

2 46.86 

2 59.15 

3 10.62 

3 21.29 

3 31.16 

3 40.21 



13 48.46 



Dlff.for 
I Hoar. 



8 
X.I78 

1. 164 

X.I5O 

X.I34 
X.II7 

1.099 

1.079 
1.058 
X.O36 

X.OI3 
0.989 
0.964 

0.937 
0.909 
0.881 

0.852 
0.822 
0.791 

a76o 
0.728 
0.695 

0.662 
0.629 
0.596 

0.562 
0.529 
0.495 

0.46X 
0.428 

0.394 
0.360 

0.327 



NoTS. — ^The semidiameter for mean noon may be assumed the same as that for apparent noon. 

The sign + prefixed to the hourly chanjje of declination indicates that south declinatioaa are 
tlKcreasiQK. 



l!=i 



Sidereal 

Time, 

or 

Right AscensioQ 

of 

Mean Son. 



h m B 

8 43 40.74 

8 47 3730 

8 51 33.86 

8 SS 30.42 

8 59 26.97 

9 3 23.53 

9 7 20.09 

9 II 16.65 

9 15 13.21 



9 19 
9 23 
9 27 



9.76 
6.32 

2.88 



9 30 59.44 
9 34 55.99 
9 38 52.55 

9 42 49.11 
9 46 45.66 
9 50 42.22 

9 54 38.78 

9 58 35.34 
20 2 31.89 

20 6 28.45 
20 10 25.01 
20 14 21.56 

20 18 18.12 
20 22 14.68 
20 26 11.23 

20 30 7.79 

20 34 4.34 
20 38 0.90 

20 41 57.46 
20 45 54.01 



Difll for X Hoar, 
+ 9^.8565. 
(Table HI.) 



JANUARY, 1899. 



III. 







AT GREENWICH MEAN NOON. 












THE SUN'S 








1 

s 

1 

o 

1 

I 
3 


J 

• 

1 










Lofrarilhni 

of the 

Radios Vector 

of the 

Berth. 


IMILCor 
I Hour. 


IfeaaTInie 

of 

Sidereal Noon. 


TRUB LONCITUDB. 


Diff. for 
1 Hour. 


LATITUDE. 


X 


V 


I 

2 

3 


280 54 59.7 

281 56 8.6 

282 57 17.9 


» m 

54 42.0 

55 508 

56 59-8 


• 
X52.87 
152.88 
152.89 


• 
— 0.31 
0.36 

0-39 


9.9926600 
9.9926629 
9.9926684 


+ 0.7 
1.8 
S.8 


h m a 

5 15 27.44 
5 " 31.52 
5 7 35-6i 


4 

5 
6 


4 
5 

6 


283 58 27.4 

284 59 37.0 
286 46.7 


58 9.2 

59 18.5 
28.1 


152.90 
152.90 
152.91 


-0.39 

0-37 
0.31 


9.9926763 
9.9926864 
9.9926989 


-¥ 3-8 

4-7 
5.6 


5 3 39.70 
4 59 43.79 
4 55 47-88 


7 
8 

9 


7 
8 

9 


287 I 56.6 

288 3 6.5 

289 4 16.3 


1 37-9 

2 47-6 

3 57-2 


152.91 
152.91 
152.90 


— 0.23 

— 0.12 
0.00 


9.992713I 
9.9927294 
9.9927473 


-I- 6.4 
7.2 

7-9 


4 51 51.96 
4 47 56-05 
4 44 0.14 


lO 

II 

12 


10 
II 
12 


290 5 25.9 

291 6 35.4 

292 7 44-5 


5 6.6 

6 15.9 

7 24.9 


152.90 
152.89 
152.87 


-f- 0.12 
0.26 

0-39 


9.9927670 
9.9927884 
9.99281 14 


-1-8.6 

9-3 
9-9 


4 40 4-23 
4 36 8.32 
4 32 12.40 


13 
14 
15 


13 
H 
15 


293 8 53.1 

294 10 1.2 

295 II 8.6 


8 33.3 

9 412 
10 48.5 


152.85 

152.83 
152.80 


+ 0.50 

0.59 
0.67 


9-9928359 
9.9928621 

9.9928901 


•fia6 

11.3 
ia.o 


4 28 16.49 
4 24 20.58 
4 20 24.67 


i6 

17 
i8 


16 

17 
18 


296 12 15.4 

297 13 21.4 

298 14 26.5 


" 551 

13 0.9 

14 5-9 


152.77 
152.7? 
152.69 


+ 0.72 

0.75 
0-73 


9.9929197 
9.9929512 
9.9929846 


+12.7 

13.5 

«4-3 


4 16 28.76 
4 12 32.85 
4 8 36.94 


19 

20 
21 


19 
20 

21 


299 15 30.6 

300 16 33.8 

301 17 36.0 


15 9-8 

16 12.9 

17 14.9 


152.65 
152.61 

152.57 


+ 0.70 
0.63 

0.53 


9.9930200 

99930576 
9-9930975 


-I-X5.2 
16.x 
17.1 


4 4 41-03 
4 45.11 

3 56 49.20 


22 

23 
24 


22 
23 
24 


302 18 37.2 

303 19 37.4 

304 20 36.6 


18 15.9 

19 16.0 

20 15.0 


152-53 
152.49 

152.45 


+ 0.42 
0.30 
0.17 


9-993X398 
9.9931846 

9.9932318 


•fi8.i 

19.1 
ao.a 


3 52 53.29 
3 48 57-38 
3 45 1-47 


25 
26 

27 


25 
26 

27 


305 21 350 

306 22 32.2 

307 23 28.5 


21 13.3 

22 10.3 

23 6-5 


152.41 

152.37 
15233 


+ 0.03 

— O.IO 

0.21 


9-9932818 

9-9933343 
9.9933895 


-I-21.3 

22.4 
23.5 


3 41 5.56 
3 37 9.65 
3 33 13-74 


28 
29 
30 
31 


28 

29 
30 

31 


308 24 23.9 

309 25 18.5 

310 26 12.3 

311 27 3.2 


24 1-7 

24 56.2 

25 49-8 

26 42.6 


152.30 
152.26 
152.23 
152.19 


— a3o 

0.37 
0.40 

0.42 


9-9934473 
99935076 

9-9935703 

9-9936355 


-H^.6 
25.6 
26.6 
27.6 


3 29 17.83 
3 25 21.92 

3 21 26.01 

3 17 30.10 


32 


32 


312 27 57.3 


27 34-5 


152.15 


-0.40 


9-9937031 


-H18.5 


3 13 34-19 


Non 


•4B 


nimb«n in eolomn \ t 
Inox of Jannary t^x>. 


Mti'o^ond lo t 


be tnie oqni 


BOi off iIm dato; la oolamn r to 


tibemaaa 


Diff. for 1 Hoar, 
-9'.8296. 
(Table IL) 1 



IV. 



JANUARY, 1890. 



5 









GREENWICH 


MEAN TIME. 








a 

1 
1 

1 








THE 


MOON'S 










SBUIDUMBTBR. 


HOMZOHVAL PARALLAX. 


UPPER TRANSIT. 


AGE. 


MOOQ. 


Hidnlfht 


NOOQ. 


DiS. tor 
I Hoar. 


Midnight 


IMS for 
I Hoar. 


Meridian of 
Greenwiclk 


Diff. for 
I Hoar. 


Noon. 


I 

2 

3 


14 50-6 
14 56.8 

»5 5-3 


* • 
14 53.4 

»5 0-7 
15 ia4 


* IV 

54 21.9 

54 44-5 

55 157 


• 

40.77 

X.X2 
X.48 


* • 

54 32.1 

54 59-0 

55 34-5 


m 

40.94 
X.3O 

X.66 


h m 

15 44- 1 

16 25.4 

17 7.7 


m 
1.72 

1-73 
X.80 


d 
19.0 

20.0 

21.0 


4 

5 
6 


15 i6.i 
15 29.1 

15 43-9 


15 22.4 

15 363 
15 517 


55 55-5 

56 43-3 

57 37-6 


+X.83 

S.X4 
••35 


56 18.5 

57 9.8 

58 6.3 


+X.99 
2.26 

2.4X 


17 52.2 

18 39-9 

19 32.1 


X.91 
2.08 
2.28 


22.0 
23.0 
24.0 


7 
8 

9 


15 59-7 

16 15.2 

16 29.1 


i6 7-5 
16 22.4 

16 34.9 


58 35-4 

59 32.5 

60 23.4 


-l>a.42 
a.28 
X.90 


59 4-3 

59 59- 1 

60 44.7 


42.38 
2.X2 
X.62 


20 29.2 

21 30.9 

22 35.2 


2.48 
2.64 
2.70 


25.0 
26.0 
27.0 


lO 

II 

12 


16 39.7 
16 45.6 
16 45.9 


16 43.2 
16 46.5 
16 44.0 


61 2.3 
61 24.0 
61 25.4 


+X.28 
+0.49 
-0.37 


61 15.S 
61 27.3 
61 18.3 


40.90 
40.06 
-0.79 


23 39.6 

6 
41.4 


2.64 
2.50 


28.0 
29.0 

0.5 


13 
15 


16 40.8 
16 30.8 
i6 17.5 


i6 36.3 
16 24.5 
16 10.0 


61 6.4 
60 29.9 

59 409 


-i.x8 
x.8x 

2,2X 


60 50.0 
60 6.6 

59 135 


-X.52 
2.04 
2.32 


1 39-3 

2 33-3 

3 24a 


2.33 

2.18 

2.07 


1.5 
2.5 

3-5 


i6 

17 
i8 


16 2.3 
15 468 

15 33-2 


15 54-6 
15 39.3 
15 254 


58 45.3 
57 48.3 
56 54-4 


-a. 37 
a-33 
a.x3 


58 16.7 
57 20.8 
56 29.5 


-2-37 
2.25 

2.00 


4 131 

5 1-2 

S 49-2 


2.0X 
2.00 
2.0X 


4-5 

5-5 
6.S 


19 

20 
21 


15 19.1 
15 8.0 
14 59a 


15 133 
15 3-3 
14 55-6 


56 6.3 
55 25.7 
54 53-3 


-X.85 
X.52 
x.x8 


55 450 

55 8.5 

54 40- 1 


— X.69 

1-35 
x.oa 


6 38.0 

7 27.7 

8 18.1 


2.05 
2.09 
2.XX 


7.5 
8.5 
9-5 


32 
23 

24 


14 52.5 
14 47.9 

14 45-1 


14 50.0 
14 46-3 
14 44-4 


54 28.8 
54 11-9 
54 1-7 


-a85 
0.56 
a 30 


54 195 
54 60 
53 58.9 


-0.70 

0.42 

-o*x7 


9 8.8 

9 58.7 
10 47.3 


2.10 
2.06 
X.99 


10.5 

"5 
12.5 


35 
26 

27 


14 44.0 

14 44-3 
14 46.0 


14 44-0 
14 45.0 

14 47.4 


53 57-6 

53 58.8 

54 50 


-ao6 

40.15 
a 36 


53 57-6 

54 1-3 
54 10.0 


40.05 
0.26 
0.46 


11 34.0 

12 18.7 

13 1-7 


X.90 
1.82 
X.76 


135 
145 
15-5 


28 
29 
30 
31 


14 49.1 

14 53-5 

H 59-4 

15 7.0 


14 51-1 

14 56.3 

15 3-0 
15 11-4 


54 16.2 

54 32.4 

54 54-2 

55 21.9 


40.57 

0-79 
X.02 

X.28 


54 23.6 

54 42.6 

55 7-3 
55 38.1 


40.68 
0.90 
X.X5 
x.4a 


13 43.4 

14 24.8 

15 6.5 
15 49.6 


X.73 
X.72 
X.76 
X.84 


16.5 

17.5 
18.5 

19-5 


32 


15 16.3 


15 21.5 


55 56.0 


+1.55 


56 15.4 


4X.68 


16 35-1 


X.96 


20.5 



JANUARY, 189t. 









GREENWICH 


MEAN TIMK 












THE MOON'S RIGHT 


ASCENSION AND DECLINATION. 






Hour. 


Right 


Diff. for 


Declinatioa 


Diff. for 


Hour. 


Right 


Diff. for 


DeclinatioiL 


Diff. for 




Ascension. 


I Minute. 




X Minute. 




Ascension. 


X Minute. 






X Minute. 




£ 


>UNDA^ 


V I. 






TUESDAY 3. 


• w 


• 




h m ■ 


8 


• t « 


• 




h m ■ 


8 


• 


t m 


m 


O 


lO I 29.90 


1.8405 


N. 7 42 0.1 


11.962 





II 29 47.40 


1.8637 


S. a 


19 10.3 


12.829 


I 


10 3 20.30 


1.8395 


7 30 1.4 


11.996 


I 


II 31 39.28 


1.8658 


2 


32 0.1 


12.830 


a 


10 5 10.64 


X.8385 


7 18 0.6 


12.029 


2 


II 33 31.30 


X.868X 


2 


44 49.9 


IS. 830 


3 


10 7 0.92 


X.8376 


7 5 57.9 


X2.06X 


3 


• II 35 23.45 


X.8703 


2 


57 39.7 


IS. 830 


4 


10 8 51.15 


X.8368 


6 53 53.3 


12.092 


4 


II 37 15.74 


1.8727 


3 


10 29.5 


I2.8a8 


5 


10 10 41.34 


X.8361 


6 41 46.8 


12.124 


5 


II 39 8.17 


1.8752 


3 


23 19. I 


IS. 827 


6 


10 12 31.48 


X.8353 


6 2.9 38.4 


12.155 


6 


II 41 0.76 


X.8778 


3 


36 8.7 


X2.8a5 


7 


10 14 21.58 


X.8348 


6 17 28.2 


X2.X84 


7 


II 42 53.50 


I.88Q3 


3 


48 58.1 


X2.822 


8 


10 16 11.65 


1.834a 


6 5 16.3 


X2.2I2 


8 


II 44 46.40 


X.8830 


4 


I 47.3 


XS.817 


9 


10 i^ 1.68 


X.8336 


5 53 2.7 


X2.24X 


9 


II 46 39.46 


X.8858 


4 


14 36.2 


IS. 812 


lO 


10 19 51.68 


I. 8331 


5 40 47.4 


X2.269 


10 


II 48 32.69 


1.8886 


4 


27 24.8 


12.807 


II 


10 21 41.65 


X.8337 


5 28 30.4 


12.297 


II 


II 50 26.09 


1.8914 


4 


40 13.0 


12.799 


12 


10 23 31.60 


1.8323 


5 16 11.8 


X2.3t2 


12 


II 52 19.66 


1.8944 


4 


53 0.7 


12.792 


13 


10 25 21.53 


x.83ax 


5 3 51.7 


12.348 


13 


II 54 13.42 


1.8975 


5 


5 48.0 


12.784 


14 


10 27 11.45 


X.8318 


4 51 30.0 


12.374 


14 


II 56 7.36 


X.9006 


5 


18 34.8 


12.776 


15 


10 29 1.35 


X.8317 


4 39 6.8 


X2.398 


15 


II 58 1.49 


I.9C>36 ' 


5 


31 21. 1 


12.766 


i6 


10 30 51.25 


X.8316 


4 26 42.2 


X2.422 


16 


II 59 55.82 


X.907X 


5 


44 6.7 


12.755 


17 


10 32 41.14 


X.8315 


4 14 16.2 


12.445 


17 


12 I 50.34 


X.9X04 


5 


56 51.7 


12.744 


i8 


10 34 31-03 


X.8316 


4 I 48.8 


12.467 


18 


12 3 45.07 


1.9139 


6 


9 36.0 


12.732 


19 


10 36 20.93 


1.83x7 


3 49 20.1 


12.489 


19 


12 5 40.01 


1.9174 


6 


22 19.5 


12.718 


20 


10 38 10.83 


X.83X8 


3 36 50.1 


12.5X1 


20 


12 7 35.16 


1.92x0 


6 


35 2.2 


12.704 


21 


10 40 0.74 


x.83«> 


3 24 18.8 


12.532 


21 


12 9 30.53 


1.9247 


6 


47 44.0 


IS. 689 


22 


10 41 50.67 


1.8323 


3 II 46.3 


12.551 


22 


12 II 26.12 


X.9283 


7 


24.9 


IS. 674 


23 


ID 43 40.62 


x.83a7 


N. 2 59 12.7 


12.569 


23 


12 13 21.93 


1.9322 


S. 7 


13 4-9 


IS. 657 




I 


lONDA 


Y 2. 






WE 


;DNEsi 


)AY 


4- 




O 


10 45 30.59 


1.8331 


N. 2 46 38.0 


X2.587 





12 15 17.98 


1.9361 


S. 7 


25 43.8 


IS. 639 


I 


10 47 20.59 


1.8336 


2 34 2.2 


X2.606 


I 


12 17 14.26 


1.9400 


7 


38 21.6 


IS. 621 


2 


10 49 10.62 


x.834a 


2 21 25.3 


. X2.623 


z 


12 19 10.78 


1.9441 


7 


50 58.3 


12. 60a 


3 


10 51 0.69 


X.8348 


2 8 47.4 


X2.64P 


3 


.12 21 7.55 


1.9483 


8 


3 33.8 


IS. 582 


4 


10 52 50.79 


1.8354 


I 56 8.5 


X2.657 


4 


12 23 4.57 


1.9524 


8 


16 8.1 


IS. 561 


5 


10 54 40.94 


1.836a 


I 43 28.6 


X2.67« 


5 


la 25 1.84 


1.9567 


8 


28 41. z 


12.538 


6 


10 56 31.13 


1.8370 


I 30 47.9 


X2.685 


6 


12 26 59.37 


X.96X0 


8 


41 12.7 


12.515 


7 


10 58 21.38 


1.8379 


z 18 6.4 


12.699 


7 


12 28 57.16 


1.9654 


8 


53 42.9 


12.492 


8 


II 11.68 


I.838B 


1 5 24.0 


12.713 


8 


12 30 55.22 


19699 


9 


6 II. 7 


12.467 


9 


II a 2.04 


1.8398 


52 40.8 


12.726 


9 


12 32 53.55 


1.9745 


9 


18 38.9 


12.440 


zo 


II 3 52.46 


1.8409 


39 56.9 ' 


12.737 


10 


12 34 52.16 


1.9792 


9 


31 4.5 


12.4x3 


II 


II 5 42.95 


1.8421 


27 12.4 


lt.749 


IX 


12 36 51.05 


1.9839 


9 


43 28.5 


12.386 


12 


II 7 33.51 


1.8433 


14 27.2 


12.758 


12 


12 38 50.23 


X.9888 


9 


55 50.8 


12.357 


13 


II 9 24.15 


1.8447 


N. I 41.4 


12.767 


13 


12 40 49.70 


1.9936 


10 


8 11.3 


12.327 


14 


II II 14.87 


X.8460 


S. II 4.9 


12.777 


14 


12 42 49.46 


1.9985 


10 


20 30.0 


12.296 


15 


II 13 567 


1.8474 


23 51.8 


X2.786 


15 


12 44 49.52 


2.0036 


10 


32.46.8 


12.263 


i6 


II 14 56.56 


t.8490 


36 39.2 


12.793 


i5 


12 46 49.89 


2.00S8 


10 


45 1.6 


12. 231 


17 


II 16 47.55 


1.8506 


49 27.0 


X2.806 


17 


12 48 50.57 


2.0139 


10 


57 14.5 


12.197 


i8 


II 18 38.63 


t.8522 


r' a 15.2 


12.806 


18 


•12 50 51.56 


2.019X 


II 


9 25.2 


X2. x6x 


19 


II 20 29.81 


1.8539 


I 15 3.7 


12.8x2 


19 


12 52 52.86 


2.0244 


11 


21 33.8 


12. 125 


20 


II 22 21.10 


X.8S58 


I 27 52.6 


12.817 


20 


12 54 54.49 


2.0299 


II 


33 40.2 


18.087 


21 


II 24 12.50 


1.8576 


I 40 41.7 


12.831 


21 


12 56 56.45 


a. 0353 


11 


45 44.3 


IS. 049 


22 


II 26 4.01 


1.8595 


I 53 31. 1 


12.824 


22 


12 58 58.73 


2.0408 


11 


57 46.1 


IS. 0x0 


23 


II 27 55.64 


1.8616 


2 6 20.6 


12.827 


23 


13 I 1.35 


2.0464 


12 


9 45.5 


11.969 


24 


II 29 47.40 


1.8637 


S. a 19 10.3 


X2.829 


24 


13 3 430 


2.0521 


S.12 


21 42.4 


11.927 



VL 



JANUARY, 1899. 



iBMaaiMa 










GREENWICH 


MEAN TIME. 








THE MOON'S RIGHT ASCENSION AND DECLINATION. 


Hour. 




Right 


DiiLfor 


Declinatioa 


Diftfor 


Hoar. 


Right 


DiilLfbr 


DacUxiatio& 


Diff. for 




Aacenaioa 


I If inuM. 




xlfinote. 




Aacenaioa 


X If iaote. 




X Minute. 








Tl 


lURSD 


AY 5. 






SATURDAY 7. 




• 


h 


m 


■ 


■ 


• • 


■ 




h n a 


a 


• » « 


• 


O 


13 


3 


4-30 


s.05tz 


S.12 21 42.4 


li.9«7 





14 49 18.54 


a. 3920 


S.20 41 13.2 


8.329 


I 


13 


5 


7.60 


a.0579 


12 33 36.7 


XI. 883 


I 


14 51 42.30 


a. 3999 


20 49 29.6 


8.2X7 


2 


13 


7 


11.25 


a. 0638 


12 45 28.4 


ZZ.840 


2 


14 54 6.53 


2.4078 


20 57 39.3 


8.103 


3 


13 


9 


15-26 


8.0698 


12 57 17.5 


XX.79S 


3 


14 56 31.23 


2.4156 


21 5 42.0 


7.987 


4 


13 


II 


19.62 


1.0757 


13 9 3.8 


XI.747 


4 


14 58 56.40 


2.4234 


21 13 37.8 


7.870 


5 


13 


13 


24-34 


9.0818 


13 20 47.2 


ZZ.699 


5 


15 I 22.04 


a.43xa 


21 21 26.4 


7.750 


6 


13 


15 


29.43 


a. 0878 


13 32 27.7 


ZX.65X 


6 


15 3 48.14 


t.4389 


21 29 7.8 


7.630 


7 


13 


17 


34-88 


2.0940 


13 44 5.3 


IX.60X 


7 


15 6 14.71 


2.4468 


21 36 42.0 


7.507 


8 


13 


19 40.71 


S.I003 


13 55 39.8 


ZZ.549 


8 


15 8 41.75 


a.4545 


21 44 8.7 


7.383 


9 


13 


21 


46.92 


a. 1066 


14 7 II. 2 


11.497 


9 


15 IX 9.25 


2.4622 


21 51 27.9 


7.357 


lO 


13 


23 


53.50 


a.zi99 


14 18 39.4 


XX.443 


10 


15 13 37.21 


2.4698 


21 58 39.6 


7-130 


II 


13 


26 


0.47 


a.xi94 


14 30 4.3 


XX.387 


II 


15 16 5.63 


a. 4774 


22 5 43.5 


7.00X 


12 


13 


28 


7.83 


a.ias9 


14 41 25.8 


XI. 330 


12 


15 18 34.50 


2.4850 


22 12 39.7 


6.87X 


13 


13 


30 


15.58 


a.x3a5 


14 52 43.9 


zx.27a 


13 


15 21 3.83 


2.49*7 


22 19 28.0 


6.737 


H 


13 


32 


23-73 


3«x39a 


15 3 58.5 


xi.axs 


14 


15 23 33.62 


a. 5003 


22 26 8.2 


6.603 


15 


13 


34 


32.28 


«.i459 


15 15 9.5 


xz.isa 


15 


15 26 3.86 


a.5077 


22 .32 40.4 


6.467 


i6 


13 


36 


41.24 


a. 1537 


15 26 16.8 


XZ.09X 


16 


15 28 34.54 


a.5X5x 


22 39 4-3 


6.330 


17 


13 


38 


50.60 


S.I5M 


15 37 20.4 


ZZ.Q87 


17 


15 31 5.67 


3.5225 


22 45 20.0 


6.X9X 


i8 


13 41 


0.37 


a.x6^ 


15 48 20.1 


ZO.96S 


z8 


15 33 37.24 


a. 5298 


22 51 27.2 


6.050 


19 


13 


43 


10.56 


a.x733 


15 59 16.0 


XO.897 


19 


15 36 9.24 


a. 5370 


22 57 26.0 


5.908 


20 


13 


45 


21. 16 


a.x8oa 


16 10 7.8 


xo.8a9 


20 


15 38 41.68 


3.5443 


23 3 16.2 


5.764 


21 


13 


47 


32.18 


a. 1873 


16 20 55.5 


X0.76Z 


21 


15 41 14.55 


«.55X3 


23 8 57.7 


5.6x8 


22 


13 49 


43-63 


«.X944 


16 31 39.1 


10. 691 


22 


15 43 47.84 


3.5583 


23 14 30.4 


5.472 


23 


13 


51 


55.51 
1 


a«aox6 

^RIDAl 


S.i6 42 18.4 

r 6. 


10.6x8 


23 


15 46 21.55. 
S 


3.5653 

UNDAl 


te.23' 19 54.3 

r 8. 


5.323 


O 


X3 


54 


7.82 


a.aoB8 


S.16 52 53:3 


XO.545 





15 48 55.68 


2.5733 


S.23 25 9.2 


5.X73 


I 


13 


56 


20,56 


a.axfio 


17 3 23.8 


I0.47X 


I 


15 51 30.22 


2.579X 


23 30 15. 1 


5.022 


2 


13 


58 


33.74 


a.aas3 


17 13 49.8 


10. 395 


2 


15 54 5.17 


a. 5858 


23 35 11.8 


4.868 


3 


14 





47-35 


a. 3306 


17 24 II. 2 


XO.317 


3 


15 56 40.52 


2.5924 


23 39 59-3 


4.714 


4 


14 


3 


1.41 


a.a38o 


17 34 27.9 


10.338 


4 


15 59 16.26 


2.5989 


23 44 37.5 


4-557 


5 


14 


5 


15.91 


•.8454 


17 44 39.8 


XO.157 


5 


16 I 52.39 


2.6054 


23 49 6.2 


4.400 


6 


H 


7 


30.86 


a. 2539 


17 54 46.8 


X0.076 


6 


16 4 28.91 


2.6xx8 


23 53 25.5 


4.343 


7 


H 


9 


46.26 


a.a6a4 


18 4 48.9 


9.9d3 


7 


16 7 5.81 


2.6180 


23 57 35.2 


4.o8t 


8 


14 


12 


2. 1 1 


a.a6;9 


18 14 45.9 


9.907 


8 


16 9 43.07 


3.6341 


24 1 35.2 


3.9x9 


9 


14 


14 


18.41 


a.«755 


18 24 37.7 


9.8az 


9 


16 12 20.70 


3.6303 


24 5 25.5 


S.757 


lO 


14 


16 


35.17 


a.a63a 


18 34 24.4 


9.733 


10 


16 14 58.69 


2.636X 


24 9 6.0 


3.593 


II 


14 


18 


52.39 


a. 3908 


18 44 5.7 


9.643 


XI 


16 17 37.03 


2.6418 


24 -12 36.5 


3.436 


12 


14 


21 


10.07 


a. 2985 


18 53 41.6 


9.55a 


12 


i6 20 15.71 


«.6475 


24 15 57.1 


3.359 


13 


14 


23 


28.21 


a. 306a 


19 3 11,9 


9.458 


13 


16 22 54.73 


2.6530 


24 19 7.6 


3.09X 


14 


H 


25 


46.81 


3-3X39 


19.12 36.6 


9-364 


14 


16 25 34.07 


3.6584 


24 22 8.0 


2.92X 


15 


14 


28 


5.88 


a. 32x7 


19 21 55.6 


9.a68 


15 


16 28 13.74 


2.6637 


24 24 58.1 


2.750 


i6 


14 


30 


25.41 


a.3a94 


19 31 8,8 


9.X71 


16 


16 30 53.72 


2.6688 


24 27 38.0 


3.577 


17 


14 


32 


45.41 


t.3373 


19 40 16. 1 


9.07X 


17 


16 33 34.00 


2.6738 


24 30 7.5 


3.405 


i8 


H 


35 


5.88 


a.S4So 


19 49 17^3 


8.970 


z8 


16 36 14.58 


2.6788 


24 32 26.6 


2.232 


19 


14 


37 


26.81 


a.3Sa8 


19 58. 12.5 


8.867 


19 


16 38 55.45 


t.6834 


24 34 35.3 


3.057 


20 


14 


39 


48.22 


a. 3607 


20 7 1.4 


8.763 


20 


16 41 36.59 


a. 6879 


24 36 33.4 


X.880 


21 


14 


42 


10.10 


•.3683 


20 15 44.1 


8.657 


21 


16 44 18.00 


t.6924 


24 38 20.9 


x.70^ 


22 


14 


44 


32.44 


a.37^ 


20 24 20.3 


8.550 


22 


16 46 59.68 


3.6967 


24 39 57.8 


X.525 


^3 


14 


46 


55.26 


••3843 


20 32 50.1 


8.44X 


23 


16 49 41.61 


3.7008 


24 41 23-9 


X.348 


24 


. 14 49 


.18.54. 


••aoao 


S.20. 41 J3.2 


8.329 


24 


16 52 23.78 


a. 7048 


S.24 42 39.3 


I.I69 



8 



JANUARY, 1899. 



VIL 



• 








GREENWICH 


MEAN TIMB. 
















THE MOON'S RIGHT 


ASCENSION AND DECLINATION. 








Hour. 




Right 


Diff. tor 


Decllnatioa 


Diff. for 


Hoar. 




RiRht 


Diff. for 


Declination. 


DiiLtor 


• •^'••av 


Ascenftioa 


X Minute. 




I If inote. 




Ascension. 


X If inate. 








xMinnte. 






li 


lONDA 


Y9. 








WEDNESDAY iz. 








h 


m ■ 


8 


• » • 


m 




h 


m 8 


8 


• 


» 


m 


• 


o 


i6 


52 23.78 


a. 7048 


S.24 42 39.3 


1. 166 





19 


3 31.83 


8.6934 


S.22 


5 


8.6 


7.684 


I 


i6 


55 6.19 


8.7087 


24 43 43.8 


0.984 


Z 


19 


6 13.31 


8.6893 


21 


57 


26.1 


7.791 


2 


i6 


57 48.82 


9.7in 


24 44 37.4 


0.80a 


2 


19 


8 54.54 


8.6850 


21 


49 33.7 


7.956 


3 




31.66 


•.7158 


24 45 20.1 


o.6ax 


3 


19 


" 35-51 


3.6806 


21 


41 


31.4 


8.180 


4 




3 14-71 


«.7i9t 


24 45 51.9 


0.438 


4 


19 


Z4 16.21 


a. 6760 


21 


33 


19.3 


8.88a 


5 




5 57.95 


a.7«3 


24 46 12.6 


o.a53 


5 


19 


16 56.63 


8.6714 


21 


24 


57.6 


8.44a 


6 




8 41.38 


8.7*53 


24 46 22.3 


—0.069 


6 


19 


Z9 36.78 


8.r6S8 


21 


16 


26.2 


8.60a 


7 




II 24.98 


a. 7180 


24 46 20.9 


+0.1x7 


7 


19 


22 16.65 


3.6620 


21 


7 


45.3 


8.76X 


8 




14 8.74 


t.7307 


24 46 8.3 


0.30a 


8 


19 


24 56.22 


a. 6570 


20 


58 


54.9 


8.9x7 


9 




16 52.66 


«.73Sa 


24 45 44.6 


0.487 


9 


19 27 35-49 


a.6sao 


20 


49 


55.3 


9.071 


lO 




19 36.72 


«-7354 


24 45 9-8 


0.874 


zo 


19 


30 14.46 


8.6469 


20 


40 


46.4 


9.884 


II 




22 20.91 


a. 7375 


24 44 23.7 


0.868 


II 


19 


32 53.12 


a. 6417 


20 


31 


28.4 


9.375 


12 




25 5.22 


S.7994 


24 43 26.4 


X.049 


Z2 


19 


35 31.46 


8.6963 


20 


22 


1.4 


9.5a4 


13 




27 49.64 


a. 74" 


24 42 17.8 


I.S37 


13 


19 


38 9.48 


8.63x0 


20 


12 


25.5 


9.67a 


M 




30 34.17 


a. 7438 


24 40 58.0 


i.4«4 


14 


19 40 47.18 


8.6255 


20 


2 


40.8 


9.818 


15 




33 18.78 


a. 744a 


24 39 26.9 


X.6X8 


15 


19 


43 24.54 


8.6x99 


19 


52 


47.3 


9.96a 


i6 




36 3.47 


«.7454 


24 37 44.5 


X.80X 


16 


19 


46 1.57 


a. 6143 


19 


42 


45-3 


X0.104 


I? 




38 48.23 


a.7465 


24 35 50.8 


X.989 


17 


19 


48 38.26 


8.6087 


19 


32 


34.8 


xo.a45 


i8 




41 33.05 


a.7473 


24 33 45.8 


a. 177 


z8 


19 


51 Z4.61 


a.6oa9 


X9 


22 


15-9 


10.383 


19 




44 17-91 


a. 7480 


24 31 29.5 


8.s«7 


19 


19 


53 50.61 


8.5971 


19 


II 


48.8 


xo.5ao 


20 




47 2.81 


a.7485 


24 29 1.8 


a.5SS 


20 


19 


56 26.26 


a. 59" 


19 


I 


13.5 


10.655 


21 




49 47.73 


a.7488 


24 26 22.9 


a.743 


2Z 


19 


59 1.56 


8.5853 


18 


50 


30.2 


X0.787 


22 




52 32.67 


a. 7490 


24 23 32.7 


a.931 


22 


20 


I 36.50 


a. 5793 


18 


39 


39.0 


XO.919 


23 




55 17.61 
T! 


a. 7490 
[JESDA 


S.24 20 31.2 
Y 10. 


3.X80 


23 


20 


4 11.08 
TH 


t.5733 

[URSD/ 


S.18 
LY IS 


28 

1. 


39.9 


XX.048 


o 


17 


58 2.55 


«.74«7 


S.24 17 18.3 


3. 308 





20 


6 45.30 


8.567a 


S.18 


17 33.2 


XX.X74 


I 


i8 


47.46 


8.7483 


24 13 54.2 


3.496 


I 


20 


9 19.15 


8.56x1 


18 


6 


19.0 


11.89) 


2 


i8 

1 


3 32.34 


a.7478 


24 10 id.8 


3.683 


2 


20 


II 52.63 


a. 5549 


Z7 


54 


57.3 


XX. 483 


3 


i8 


6 17.19 


a.7471 


24 6 32.2 


3.869 


3 


20 


14 25.74 


8.5487 


Z7 


43 


28.3 


"•543 


4 


i8 


9 1.99 


a. 7461 


24 2 34.5 


4.056 


4 


20 


z6 58.48 


8.5436 


'7 


31 


52.1 


IX. 663 


5 


i8 


II 46.72 


a. 7449 


23 58 25.5 


4.a4a 


5 


20 


19 30.85 


a. 5363 


17 


20 


8.8 


XX.779 


6 


i8 


14 31.38 


a.7437 


23 54 5.4 


4 4a7 


6 


20 


22 2.84 


a.530X 


17 


8 


18.6 


1X.893 


7 


i8 


17 15.96 


a.74aa 


23 49 34.2 


4.6xa 


7 


20 


24 34.46 


a.5a37 


z6 


56 


21.6 


la.007 


8 


i8 


20 0.45 


a.7406 


23 44 51.9 


4.797 


8 


20 


27 5.69 


a. 5174 


16 


44 


17.8 


xa.xi7 


9 


i8 


22 44.83 


9.7388 


23 39 58.5 


4.981 


9 


20 


29 36.55 


8.5x18 


16 


32 


7.5 


X3.8a5 


lO 


i8 


25 29.11 


a.73fi9 


23 34 54.2 


5.1^ 


10 


20 


32 7.03 


a. 5048 


16 


19 


50.8 


13.33a 


11 


i8 


28 13.26 


a.7347 


23 29 38.9 


5*343 


II 


20 


34 37.13 


a. 4985 


16 


7 


27.7 


«a.437 


12 


i8 


30 57.27 


a. 73*4 


23 24 12.8 


5.937 


12 


20 


37 6.85 


a. 4928 


15 


54 


58.4 


X8.538 


13 


i8 


33 41.15 


8,7300 


23 18 35.7 


5.708 


13 


20 


39 36.19 


a. 4858 


15 


42 


23.1 


X8.638 


14 


i8 


36 24.87 


a. 7873 


23 12 47.8 


5.887 


H 


20 


42 5.14 


a. 4794 


15 


29 


41.8 


18. 737 


15 


i8 


39 8.43 


a. 7346 


23 6 49.2 


6.066 


15 


20 


44 33.72 


a.4731 


15 


16 


54-7 


18. 833 


i6 


i8 


41 51.82 


a.7ai7 


23 39.9 


6.843 


16 


20 


47 1.91 


a.4667 


»5 


4 


1.9 


X8.9a7 


17 


i8 


44 35.04 


a.7187 


22 54 20.0 


6.420 


17 


20 


49 29.73 


a.4604 


14 


51 


3.5 


X3.0X8 


i8 


i8 


47 18.07 


t.7155 


22 47 49.5 


6.596 


18 


20 


51 57.16 


a.4541 


14 


37 


59.7 


X3.108 


19 


i8 


50 0.90 


a.7iaa 


22 41 8.5 


6.770 


19 


20 


54 24.22 


a.4477 


M 


24 


50.5 


13.196 


20 


i8 


52 43.53 


a. 7087 


22 34 17. z 


6.943 


20 


20 


56 50.89 


a. 4414 


14 


II 


36.2 


X3.a8i ; 


21 


i8 


55 25.94 


8.7051 


22 27 15.3 


7.X16 


21 


20 


59 17.19 


8.435a 


13 


58 


16.8 


13.364 1 


22 


i8 


58 8.14 


a. 7013 


22 20 3.2 


7. 886 


22 


21 


I 43.11 


a.4a89 


13 


44 


52.5 


13.44s 


f 23 


19 


50.10 


a. 6974 


22 12 41.0 


7.455 


23 


21 


4 8.66 


8.49^ 


13 


31 


23.4 


13.534 


24 


19 


3 31.83 


t.69S4 


S.22 5 8.6 


7.684 


24 


21 


6 33.83 


t.4164 


S.13 


17 49.6 


x3.6oa 

1 



VIIL 



JANUARY, 1899. 



9 



GREENWICH MEAN TIME. 



THE MOON'S RIGHT ASCENSION AND DECLINATION. 



Hour. 



Right 
Ascension. 



Diff.for 
I Minute. 



Declination. 



Dift for 
I Minnte 



O 

I 
2 

3 

4 

5 
6 

7 

8 

9 

lO 

xz 

12 

13 

14 

15 
i6 

17 
i8 

19 

20 
21 
22 

23 



h 
21 

21 

21 



m 
6 
8 

XI 



2X X3 
21 l6 
21 x8 
21 20 
2X 23 
2X 25 
2X 28 
21 30 
21 32 

ai 35 
21 37 
2X 39 
2x 42 
21 44 

2X 46 
21 49 
21 51 

21 53 
21 55 

21 58 

22 o 



33.83 
58.63 

23-05 

47. XX 
10.81 

34-14 

57- 10 
X9.71 

41-96 
3-85 
25-39 
46.58 
7.42 
27.92 
48.07 

7-89 
27.37 
46.52 

5-34 
23.84 

42.02 

59.88 

17-42 

34.65 



FRIDAY X3, 

S. 



s 

a. 4x0a 
S.4040 
1.3980 
a.39T9 
2.3838 
a. 3798 
a. 3738 
2.3678 
a. 3619 
a. 3561 
a.sso3 
S.S44S 
a.3387 
3.3331 

a.3a75 
3.3219 
a. 3164 
3.31x0 

3.3057 
a. 3003 
a. 3950 
3.a897 
3.3846 



13 

13 
12 

12 

X2 

12 

II 

II 

II 

II 

10 

ID 

10 

10 

10 

9 
9 
9 
9 



17 

4 

50 

36 

22 

8 

54 
40 

26 

12 

58 

44 
29 

15 
o 

46 

31 

17 
2 



S. 



8 48 

8 33 
8 18 

8 3 
7 49 



SATURDAY 14. 






22 


2 


z 


22 


5 


2 


22 


7 


3 


22 


9 


4 


22 


II 


5 


22 


H 


6 


U2 


16 


7 


22 


18 


8 


22 


20 


9 


22 


23 


10 


22 


25 


XI 


22 


27 


12 


22 


29 


13 


22 


32 


14 


22 


34 


15 


22 


36 


16 


22 


38 


17 


22 


40 


18 


22 


43 


19 


22 


45 


20 


22 


47 


21 


22 


49 


22 


22 


51 


23 


22 


54 


24 


22 


56 



51-57 


3.3795 


8.19 


3.3745 


24.51 


3.3695 


40.53 


3.3646 


56.26 


3.8598 


II. 71 


3.355X 


26.87 


3.3503 


41.75 


3.2457 


56.35 


3.34XX 


10.68 


3.33^ 


24.74 


3.3331 


38.53 


3.3377 


52.07 


3.3335 


5.35 


3.3x93 


18.39 


3.3x5a 


31.17 


3. 31 10 


43.71 


3.3071 


56.02 


3.3033 


8.09 


3.1993 


19.93 


3.1955 


31.55 


3.19x7 


42.94 


3.x88x 


54-12 


3.Z846 


5.09 


3.1810 


15.84 


3.1775 



s. 



s. 



7 

7 

7 
6 

6 

6 

6 

5 
5 
5 
5 

4 

4 

4 

4 

3 

3 

3 

3 
2 

2 

2 

2 

I 

I 



34 
19 

4 
49 
34 
19 

4 
49 
34 
19 

4 
49 
34 
19 

4 
49 
34 
19 

4 
49 
34 
19 

3 
48 

33 



49-6 
II. 2 
28.5 
41.4 
50.1 
54-8 
55.5 
52.4 
45.7 

35.4 
21.6 

4.5 
44.2 
20.8 

54-5 
25.3 

53.4 
18.9 

41.9 

2.5 
20.8 

37.0 
51.1 

3.4 



13.8 
22.5 
29.7 

35.3 
39.6 
42.6 

44.5 

45 

45 

44 

42 

39 

36.9 

33.5 
29.8 

25.8 

21.7 

17.5 

13.3 

9.3 

5-5 

2.x 

59-0 
56.5 

54-6 



3 

I 

I 

3 
9 



X3.603 
13.676 

13.748 
13.830 
13.888 

13.955 
14.030 

14.082 
14.143 
X4.aoi 

14.357 
Z4.313 
14.364 

X4.414 
14.463 

Z4.509 

14.553 
14.596 

14.^ 

I4.7>3 

14.747 
14.780 
X4.8XX 



14.841 
14. 868 
14.893 
14.917 
14.939 
Z4-959 
M.977 
X4.995 
X5.OXO 

15.033 
15.035 
15.045 
15.053 
15.059 
15.064 
15.067 
15.069 
X5.070 
15.068 
15.065 
15. 060 
15.054 
15.047 
15.037 
15.026 



Hoar. 



iUght 
Ascension. 



Diff.for 
X Minate. 



I>ecHnsrion. 



DMLfbr 
I Minnte. 



O 
I 

2 

3 

4 

5 
6 

7 

8 

9 
10 

II 

12 

13 

M 

15 
16 

17 
18 

19 
20 

21 

22 

23 



o 

X 
2 

3 

4 

5 
6 

7 
8 

9 
o 

X 
2 

3 

4 

5 
6 

7 
8 

9 
20 

21 

22 

23 
24 



SUNDAY 15. 



h m 
22 56 

22 58 

23 O 



23 
23 
23 
23 
23 



2 

4 
7 
9 

XI 



23 13 

23 15 

23 17 
23 20 

23 22 

23 24 

23 26 

23 28 

23 30 

23 32 

23 34 
23 37 
23 39 
23 41 
23 43 
23 45 



23 47 
23 49 
23 51 
23 54 
23 56 
23 58 
o o 



15*84 
26.39 

36.75 
46.92 
56.89 
6.68 
16.29 
25.72 
34-98 

44.07 
53.00 

1.77 

10.38 

18.84 

27.16 

35.34 
43-38 
51.29 
59.07 
6.72 
14.25 
21.67 
28.98 
36.18 



s 
3.X775 

3.X748 
3.17x1 

a.x678 

3.1647 
a. 16x7 

3.1587 
3.1557 
3.X539 
3.150a 

3.X475 
3.1448 
3.X433 
3.X398 
3.X375 
3.X353 
3.X339 
3.X307 
a.xa86 
3.1265 
8.1246 
a.x327 

3.1309 
8.XI9X 



s. 



s. 

N. 



N. 



X 
X 
X 

o 
o 
o 
o 
o 
o 
o 
o 

X 
X 

z 
I 

2 
2 
2 
2 

3 
3 
3 

3 

4 



o 
o 
o 
o 
o 
o 
o 
o 
o 
o 
o 
o 
o 
o 
o 
o 
o 
o 



2 

4 
6 

8 

10 

13 
15 
17 
19 

21 
23 
25 
27 
29 
31 

34 
36 
38 



MONDAY 16. 

N. 4 
4 
4 
5 
5 
5 
5 

5 
6 

6 

6 

6 

7 

7 

7 

7 
8 

8 

8 

8 

8 

9 

9 

9 
N. 9 



43.27 


3.XX74 


50.27 


3.1158 


57.17 


3. xx4a 


3.98 


3.1X37 


10.70 


3.XXX3 


17.34 


a.xxoo 


23.90 


3.X0B7 


30.39 


3.1075 


36.80 


3.X063 


43.15 


a. 1053 


49.43 


3.X043 


55.66 


a.xo33 


1.83 


3.XOS4 


7-95 


3.X016 


14.02 


3.X00B 


20.05 


3.1002 


26.04 


3.0995 


31.99 


3.0989 


37-91 


3.0984 


43.80 


3.0980 


49.67 


3.0976 


55.51 


3.0973 


1.33 


3.0969 


7.14 


3.0967 


12.93 


3.0964 



33 

x8 

3 

48 

33 

x8 

4 
xo 

25 

40 

55 
10 

25 
39 
54 

9 

24 

38 

53 

7 
22 

36 

51 

5 



20 

34 

48 

3 

17 

31 

45 

59 

13 
27 

41 

55 

9 
22 

36 

50 

3 

17 
30 

44 

57 
10 

24 
37 
50 



54-6 
53.4 
52.9 
53.3 
54.6 
57.0 
0.5 

54-8 

48-9 
41.6 

32.8 

22.5 

10.6 

57.0 

41.7 
24.6 

5-5 

44-5 
21.4 

56.2 

28.8 

59-1 
27.0 

52.6 



15-7 
36.2 

54-1 

9.4 
21.9 

31.5 

38.3 
42.x 

42.9 

40.7 

35.3 
26.7 

14.8 

59-6 
41. 1 
19. 1 

53-6 
24.6 
52.0 

15.7 

35.7 

51-9 
4.2 

12.7 

X7.2 



m 
5.006 

5.0x4 
5.00X 
4.986 
4.9^ 
14.951 
4.932 
4.9x3 
4.890 
4.866 
4.841 
4.8x5 
4.788 

4.759 
X4.730 
4.698 
4.666 
4.632 

4.597 
4.563 

4.534 
4.485 

4.446 
14.406 



14. 3ft 
14.320 
14.277 
14.332 
14. 184 

14.137 
14.068 

X4.038 
13.988 

13.937 
13.883 
X3.829 

13.774 
13.719 
X3.662 
13.604 
13.546 

13.487 
13.436 

13.364 
13.302 
13.238 

13.173 
13.X08 

13.043 



10 



JANUARY, 1899. 



IX. 



GREENWICH MEAN TIME. 



THE MOON'S RIGHT ASCENSION AND DECLINATION* 



Hour. 



Right 
Aacenaion. 



Diff.for 
I Minote. 



Declination. 



Diff. for 
I Minute. 



O 

X 

2 

3 

4 

5 
6 

7 

8 

9 

lO 

II 

12 

13 

14 

15 
i6 

17 
i8 

19 

20 
21 
22 
23 



O 

I 
2 

3 

4 

5 
6 

7 
8 

9 

lO 

II 

12 

13 

14 

15 
i6 

17 

i8 

19 

20 
21 
22 

23 
24 



TUESDAY 17. 



h 
O 

O 

o 

o 

o 

o 

o 

o 

o 

o 

o 



2 
2 
2 

2 
2 
2 
2 

2 
2 

2 



38 
40 

42 

44 
46 

48 

50 

52 

54 

57 

59 
I 

3 

5 

7 

9 
II 

13 

15 
18 

20 

22 

24 

26 



28 
30 
32 
34 
37 
39 
41 
43 
45 
47 
49 
51 
53 
56 
58 
o 

2 

4 
6 

8 

10 

13 
15 
17 
19 



■ 

^2-93 
18.71 

24.49 

30.27 

36.05 

41.83 

47.62 

53.42 

59.24 

5.07 
10.92 
16.79 
22.69 
28.61 

34.57 
40.56 

46.58 
52.64 
58.74 
4.89 
11.08 

17.32 
23.61 

29.96 



■ 
8.0964 

8.0963 

S.0963 

a.0963 
8.0963 
8.0964 
8.0966 
3.0968 
8.0971 
3.0973 
8.0977 
8.098Z 
3.0985 
3.0990 
8.0996 
8.X00X 
8.X007 

8. I0Z3 
8.I02I 
8.ZO38 
8. ZO36 
3.1044 
8.XO53 

3.xo6a 



N. 



N. 



50 

3 
16 

29 

41 

54 

7 

19 
32 

44 

57 

9 
21 

33 

45 

2 57 

9 
21 

33 
45 
56 

8 

19 
30 



3 
3 
3 
3 
3 
4 
4 
4 



WEDNESDAY 18. 



36.36 


8.X078 


N.I 


42.82 


8.X08X 




49.33 


8.X09I 




55.91 


8.XX08 




2.55 


8.ZXX3 




9.25 


8.1X38 




16.02 


8.XI34 




22.86 


3.XX46 




29.77 


8. XX58 




36.76 


8.1X7X 




43.82 


8.x 183 




50.95 


a.xi95 


▼ 


58.16 


8.Z807 




5.44 


3.X88Z 




12.81 


8.1834 




20.25 


8.xa47 




27.78 


8.X861 




35.38 


t.X874 




43.07 


8.1389 




50.85 


8.1304 




58.72 


8.X318 




6.67 


8.IS38 




14.70 


t.1347 




22.83 


8.1368 




31.04 


«.1377 


N.I 



42 

53 

4 

15 
26 

37 
47 

58 

9 
19 
29 
40 
50 

o 

10 
20 
30 
39 
49 

59 

8 8 

8 17 
8 26 
8 36 

8 45 



4 

4 

5 

5 

5 

5 

5 

5 
6 

6 

6 

6 

6 

7 
7 
7 
7 
7 
7 
7 



17.2 

17.7 

14.2 

6.6 

54.9 

38.9 
18.7 

54.2 

25.4 
52.1 
14.4 
32.2 

45.5 
54.2 
58.2 

57.5 
52.1 
42.0 
27.0 

7.1 

42.3 
12.6 

37.9 
58.1 



13.2 
23.2 
28.0 
27.6 

22.0 
II. I 
54.8 
33.2 
6.2 

33.7 
55.7 

I2.I 
23.0 
28.3 
28.0 
21.9 
10.2 

52.7 
29.4 
0.3 
25.3 
44.4 
57.6 

4.7 
5.9 



X3.043 

18.975 

X8.907 
X8.839 

X3.769 
Z8.698 
X8.687 

X3.556 
X3.483 

13. 408 

18. 334 
X8.859 
Z8. 183 
I8.XO6 
X8.087 
ZZ.949 
XX.87X 
XX.79X 
XX.709 

XZ.687 
ZX.346 
IX. 463 
11.379 

2X.394 



XZ.809 

XX.X83 

IX. 037 
10.930 
10.868 
X0.773 
X0.684 

10.595 
10.504 

X0.4X8 
10.330 
X0.887 
IO.X35 
XO.048 

9-947 
9.858 

9.757 
9.660 

9*5^ 
9.466 
9.367 
9.369 
9.169 
9.069 
8.969 



Hoot. 



RiRht 
Ascensioa 



Diff. for 
I Bfinnte. 






DecUnatioa 






Diff. for 
I Minote. 



O 
I 

2 

3 

4 

5 
6 

7 
8 

9 
o 

I 

2 

3 

4 

5 
6 

7 
8 

9 
20 

21 

22 

23 



o 

X 
2 

3 

4 

5 
6 

7 

8 

9 
10 

II 

12 

13 

14 

15 

16 

17 
18 

19 
20 

21 

22 

23 

24 



THURSDAY 19. 



h 

2 
2 
2 
2 
2 
2 
2 
2 
2 
2 
2 
2 
2 
2 
2 
2 
2 
2 



m 

19 
21 

23 

25 
28 

30 

32 

34 
36 
38 
40 

43 
45 
47 
49 
51 
53 
56 



2 58 

3 o 
3 2 
3 4 
3 6 

3 9 



3 
3 
3 
3 
3 
3 
3 
3 
3 
3 
3 
3 
3 
3 
3 
3 
3 
3 
3 
3 
3 
3 
3 
4 
4 



■ 


■ 





9 


IT, 


m 


31.04 


8.1377 


N.I8 


45 


5.9 


8.969 


39.35 


8.1398 


x8 


54 


I.O 


8.868 


47.74 


8.X407 


19 


2 


50.1 


8.767 


56.23 


8.1488 


19 


II 


33.1 


8.665 


4.£o 


8.1437 


19 


20 


9.9 


8.563 


13-47 


3.1453 


19 


28 


40.6 


8.460 


22.23 


8.1467 


19 


37 


5.1 


8.356 


31.08 


8.1483 


19 


45 


23.3 


8.353 


40.03 


3.1498 


19 


53 


35.3 


8.147 


49.06 


8.15x3 


20 


X 


40.9 


8.04s 


58.19 


8.1589 


20 


9 


40.3 


7.937 


7.41 


a. 1544 


20 


17 


33.3 


7.889 


16.72 


8.1559 


20 


25 


19.8 


7.783 


26.12 


8.1575 


20 


33 


0.0 


7.616 


35.62 


8.X590 


20 


40 33.7 


7.508 


45.20 


8.1605 


20 


48 


1.0 


7.400 


54.88 


3.x6ao 


20 


55 


21. 7 


7.393 


4.64 


8.1635 


21 


2 


36.0 


7.183 


14.50 


8. 1650 


21 


9 


43.7 


7.07s 


24.44 


8.1664 


21 


16 


44.8 


6.963 


34.47 


3.X678 


21 


23 


39.3 


6.858 


44.58 


8. 1693 


21 


30 


27.1 


6.743 


54.78 


8.X707 


21 


37 


8.3 


6.<^8 


5.07 


8. 1783 


N.2I 


43 


42.9 


6.580 



FRIDAY 20. 



II 15.44 


8.1736 


13 25.90 


8.X749 


15 36.43 


8.1763 


17 47.05 


t.»777 


19 57.75 


8.1789 


22 8.52 


8.x803 


24 19.37 


8.1815 


26 30.30 


3.X838 


28 41.31 


8.X840 


30 52.38 


8.I85I 


33 3.52 


8.1863 


35 14.74 


8.1875 


37 26.02 


8.1886 


39 37.37 


8.1897 


41 48.78 


8.1907 


44 0.25 


8.X917 


46 XI. 78 


8.X937 


48 23.37 


8.X936 


50 35.01 


«.1945 


52 46.71 


8. 1953 


54 58.45 


8.1963 


57 10.25 


8.1970 


59 22.09 


8.1977 


I 33.97 


8.1983 


3 45.89 


8.1991 



N.2I 


50 


10.7 


6.407 


21 


56 


31.8 


6.396 


22 


2 


46.2 


6.183 


22 


8 


53.7 


6.069 


22 


14 


54.5 


5.956 


22 


20 


48.4 


5.842 


22 


26 


35.5 


5.788 


22 


32 


15.8 


5-6I3 


22 


37 


49.1 


5.498 


22 


43 


15.6 


5.383 


22 


48 


35.1 


5.867 


22 


53 


47.7 


5.158 


22 


58 


53.3 


5.035 


23 


3 


51.9 


4.919 


23 


8 


43.6 


4.803 


23 


13 


28.2 


4.685 


23 


18 


5.8 


4.567 


23 


22 


36.3 


4.450 


23 


26 


59.8 


4.33fl 


23 


31 


16.2 


4.814 


23 


35 


25.5 


4.096 


23 


39 


27.7 


3.977 


23 


43 


22.8 


S.858 


23 


47 


10.7 


S.79 


N.23 


50 51-5 


S.68X 



X. 



JANUARY, 1899. 



11 



GREENWICH MEAN TIME. 



THE MOON»S RIGHT ASCENSION AND DECLINATION. 



Hour. 



Right 
Ascension. 



Diff. for 
X Minute. 



Declination. 



Diff. for 
X Minute. 



SATURDAY 2X. 



o 

I 

2 

3 

4 

5 
6 

7 
8 

9 

lO 

II 

12 

13 

14 

15 
i6 

17 

i8 

19 

20 
21 
22 

23 



O 
I 

2 

3 

4 

5 
6 

7 
8 

9 

lO 

II 

12 

13 

14 

15 
i6 

17 
i8 

19 

20 
21 
22 

23 
24 



h 
4 
4 
4 
4 
4 
4 
4 
4 
4 
4 
4 
4 
4 
4 
4 
4 
4 
4 
4 
4 
4 
4 
4 
4 



4 
4 
5 
5 
5 
5 
5 
5 
5 
5 
5 
5 
5 
5 
5 
5 
5 
5 
5 
5 
5 
5 
5 
5 
5 



m 
3 

5 

8 

lO 
12 

14 
i6 

19 

21 

23 
25 
27 
30 
32 

34 
36 
39 
41 
43 
45 
47 
50 
52 
54 



56 

58 
I 

3 

5 

7 

9 
12 

14 
16 

18 

20 

22 

25 
27 
29 
31 
33 
36 
38 
40 

42 
44 
47 
49 



t 

45.89 
57.86 

9.86 

21.89 

33.96 
46.05 
58.17 
10.32 
22.49 

34-67 
46.86 

59.07 
11.29 

23.51 

35.74 

47.97 
0.19 

12.40 

24.61 

36.81 

48.^9 

1.15 
13.29 

25.40 



■ 
a.x99x 

a.x997 

2.9003 

2.fl008 

2.3013 
3.2017 

2.2022 
2.2027 
2.2029 
2.203X 
2.2033 
3.2036 
2.2037 
2.2037 
2.2038 

3. 2037 
2.3036 
3.2035 
3.8O34 
3.3032 
3.2028 
8.3025 
3.302X 
3.30Z7 



N.23 

23 

23 

24 

24 

24 

24 

24 

24 

24 

24 

24 

24 

24 

24 

24 

24 

24 
24 

24 

24 

24 

24 
N.24 



50 51.5 

54 25.2 

57 51.7 

I II. o 



4 

7 
10 

13 

15 

18 

21 

23 

25 
27 
29 
31 
33 
35 
36 

37 

39 
40 

41 
42 



23.1 
28.0 
25.8 
16.3 
59.6 
35-7 
4.5 

26.1 

40.5 
47.6 

47.5 
40.1 

25.5 
3.6 

34-5 
58.1 

14-5 

23.7 
25.6 

20. 2 



SUNDAY 22. 

N.24. 

24 

24 

24 
24 

24 

24 

24 

24 
24 

24 

24 
24 

24 

24 

24 
24 

- 24 
24 

- 24 
24 

- 24 
. 24 

24 
N.24 



37.49 


2.20X2 


49.55 


2.2007 


1.57 


3.3000 


13.55 


«.i993 


2549 


2.X987 


37.39 


2.X979 


49.24 


2.X971 


1.04 


3.1963 


12.78 


2. 1952 


24.47 


2.1943 


36.10 


2.1933 


47.67 


2.X922 


59.17 


3.X9XX 


10.60 


3.X899 


21.96 


3.1887 


33.24 


2.1873 


44.44 


2.1860 


55.56 


3.1847 


6.60 


3.1832 


17.54 


3.1817 


28.40 


3, 1802 


39.16 


2.1785 


49.82 


2.1768 


0.38 


2.1752 


10. 84 


3.1734 



43 
43 
44 
44 
45 
45 



7.7 

47-9 
20.8 

46.5 
5.0 

16.3 
45 20.4 
45 17-2 
45 6.9 
44 49.4 
44 24.7 
43 52.9 

13.9 
27.7 

34.4 
34.0 

26.5 

12.0 

50-4 
21.7 

46.0 

3.2 

13.5 
16.7 

13.0 



43 

42 

41 
40 

39 
38 
36 
35 
33 
32 
30 
28 
26 



m 
3.621 
3.502 
3.382 
3.362 

3.14a 
3.022 
8.902 
3.782 
2.662 

2.541 
3.430 
8.300 

2.179 
3. 058 

1.937 

x.8x7 
X.696 

1.575 
X.4S4 
1. 333 

X.8X3 

1.092 
0.971 
O.85X 



0.731 
0.609 
0.488 
0.368 
0.248 
0.128 
+0.007 
— 0.112 
0.232 

0.352 
0.471 

0.590 
0.710 
0.829 

0.947 
1.066 
X.183 
1. 301 
1.419 
1.537 
1.654 

1.771 
X.887 
2.0C4 
2. 1 19 



Hour. 



Right 
Ascension. 



Diff. for 
X Minute. 



Declinatioa 



Diff. for 
I Minute. 



MONDAY 23. 



o 
I 

2 

3 

4 

5 
6 

7 

8 

9 
10 

II 

12 

13 

14 

15 
16 

17 
18 

19 
20 

21 

22 

23 



o 
I 

2 

3 

4 

5 
6 

7 

8 

9 
10 

II 

12 

13 

M 

15 
16 

17 
18 

19 
20 

21 

22 

23 

24 



h 

5 

5 

5 

5 

5 
6 

6 

6 

6 

6 

6 

6 

6 

6 

6 

6 

6 

6 

6 

6 

6 

6 

6 

6 



6 
6 
6 
6 
6 
6 
6 
6 
6 
6 

7 
7 
7 
7 
7 
7 
7 
7 
7 
7 
7 
7 
7 
7 
7 



m 
49 
51 
53 

55 

57 
o 

2 

4 
6 

8 

10 

12 

15 

17 

19 
21 

23 

25 

27 
30 

32 

34 
36 

38 



40 
42 
44 
47 
49 
51 
53 
55 
57 

59 

I 

3 

5 
8 

10 

12 

14 
16 

18 

20 

22 

24 
26 

28 
30 



10.84 
21.19 

31.44 

41.57 

51.59 
1.48 

11.26 

20.92 

30.45 
39.85 
49.12 

58.25 

7.25 
16. 1 1 

24.83 

33.41 
41.84 

50.12 

58.26 

6.24 

14.06 

21.73 
29^24 

36.59 



■ 

t.i7S4 
8.X717 
3.1698 
3.1679 
3.X659 

3.1639 
3.1620 
3.X599 
8.1577 
S.X556 

3.1533 
3.X51Z 
3.1488 

3. 1465 

3.144a 
3. 14 17 

3.1392 
8.1368 

3.X343 
3.1317 
8.129X 

8.X265 
3.1238 
8. 1212 



N.24 

24 
24 

24 

24 
24 

24 
24 
24 
24 
23 

23 
23 
23 
23 
23 
23 
23 
23 
23 
23 
23 
23 

N.23 



26 
24 

21 

19 
16 

14 
II 

8 

5 
2 

59 
55 
52 
49 
45, 
41. 
37 

33 
29 

25 
21 

16 

12 

7 



TUESDAY 24. 



43.78 


3.1x84 


50.80 


8.1157 


57.66 


8.X139 


4.35 


3. XXOX 


10.87 


8.1073 


17.22 


3.1044 


23.40 


3.1015 


29.40 


t.0985 


35.22 


3.0956 


40.87 


3.0927 


46.34 


3.0897 


51.63 


3.0867 


56.75 


8.0837 


1.68 


3.0807 


6.43 


8.0776 


10.99 


3.0745 


15.37 


3.0714 


19.56 


2.0682 


23.56 


2.0652 


27.38 


3.0631 


31.01 


2.0589 


34.45 


3.0557 


37.70 


8.0526 


40.76 


S.0494 


43.63 


3.0462 



N. 



2 

58 
53 



37 
32 
26 



23 
22 

22 

22 48 

22 42 

22 

22 

22 

22 21 

22 15 

22 

22 

21 

21 

21 

21 

21 

21 

21 

21 

21 

21 

20 



N 



9 
4 
58 
52 
45 
39 

33 
26 

20 

13 

7 
o 

53 
20 46 

.20 39. 



13.0 
2.4 
44.8 
20.4 
49.1 
10.9 
25.9 
34.0 

35.4 
30.0 

17.9 
59.0 
33-5 

1.3 
22.5 

37.1 
45.0 

46.4 
41.4 

29.8 

11.7 

47.2 

16.3 

39.0 



55.4 

5.5 

9.3 
6.9 

58.3 

43.5 
22.6 

55-5 
22.4 

43.2 

58.1 

7.0 

lO.O 

7.1 

58.4 
43.8 

23.5 

57.5 

25.7 

48.3 

5.3 
16.7 

22.5 

22.8 

17.7 



8.ZX9 

8.3BS 
3.350 
3.464 
3.579 
3.693 
8.807 
8.931 

3'Q33 
S.X46 
3.258 

3.370 
3.48X 
3.599 
3.70a 
3*813 
3.933 
4.030 
4.138 
4.a47 
4.355 
4.463 
4.568 
4.674 



4.779 
4.884 
4.988 
5.092 
5.X95 

5.«97 
5.400 

5.502 

5.602 
5.702 
5.803 

5.901 

3.999 

6.097 

6.194 
6.291 
6.386 
6.482 

6.577 
6.670 

6.763 
6.857 
6.949 
7.040 
7.«3Q 



I 



12 



JANUARY, 1899. 



XL 









GREENWICH 


MEAN TIME. 










THE MOON'S RIGHT 


' ASCENSION AND DECLINATION^ 




Hour. 


Right 


Diftfor 


Declination. 


Diir.for 


Hour. 


Right 


DiflLfor 


n«M*Ilns*lrtn 


DiS.for 






xlfinnta. 




ilfinnte. 




Atcensioa 


X Minute. 




xlfinnte. 




we; 


DNESD 


AY as. 


• 




FRIDAY 


27. 






h m ■ 


t 


• $ m 


• 




h m a 


a 


1 • • • 


• 


O 


7 30 43.63 


•.046a 


N.20 39 X7.7 


y.xso 





9 5 22.87 


1.9037 


N.I3 26 4.3 


X0.64X 


I 


7 3* 46.31 


a.<H3i 


20 32 7.2 


7.330 


X 


9 7 17.02 


X.9013 


13 15 24.2 


10.696 


a 


7 34 48.80 


SU0399 


20 24 51.3 


7.309 


2 


9 9 X1.03 


1.8990 


13 4 40.8 


10.751 


3 


7 36 51.10 


S.Q367 


20 17 30.1 


7.397 


3 


9 II 4.90 


1.8967 


12 53 54.1 


10.804 


4 


7 38 53.20 


a.0334 


20 10 3.6 


7.486 


4 


9 12 58.63 


1.8943 


X2 43 4.3 


10.857 


5 


7 40 55." 


tnoyn 


20 2 31.8 


7.573 


5 


9 14 52.22 


1.8931 


12 32 11.3 


10.909 


6 


7 42 56.83 


3.oa7i 


19 54 54.8 


7.660 


6 


9 16 45.68 


1.8898 


12 21 15.2 


XO.960 


7 


7 44 58.36 


a.oa39 


19 47 12.6 


7.746 


7 


9 18 39.00 


1.8876 


12 10 16. 1 


ll.OIX 


8 


7 46 59.70 


S.0907 


19 39 25.3 


7.830 


8 


9 20 32.19 


1.8855 


" 59 13.9 


XX.06X 


9 


7 49 0.85 


«.oi75 


19 31 33.0 


7.9x4 


9 


9 22 25.26 


1.8834 


XX 48 8.8 


ll.XXO 


lO 


7 51 1.80 


9.0x41 


19 23 35.6 


7.999 


10 


9 24 18.20 


1.88x3 


XI 37 0.7 


1X.X59 


II 


7 53 a. 56 


3.0XXX 


19 15 33.1 


8.083 


II 


9 26 1 1. 01 


1.8793 


XI 25 49.7 


11.307 


12 


7 55 3.13 


«.oo79 


19 7 25.8 


8.X63 


12 


9 28 3,71 


X.8773 


XI 14 35.9 


XX. 353 


13 


7 57 3.51 


3.0047 


18 59 13.5 


8.346 


13 


9 29 56.29 


X.8753 


" 3 19.3 


X1.300 


H 


7 59 3.70 


a. 00x5 


18 50 56.3 


8.337 


14 


9 31 48.75 


1.8733 


xo 51 59.9 


XI. 346 


15 


8 I 3.69 


X.9983 


18 42 34.3 


8.407 


15 


9 33 4109 


1.87x4 


10 40 37.8 


XX.390 


i6 


8 3 3.50 


I.99SS 


18 34 7.5 


8.487 


16 


9 35 33.32 


X.8696 


10 29 13. 1 


XX.434 


»7 


8 5 3.12 


x.99ax 


18 25 35.9 


8.565 


17 


9 37 25.44 


X.8678 


10 17 45.7 


XX.477 


i8 


8 7 a-55 


X.9890 


18 16 59.7 


8.643 


18 


9 39 17.46 


1.8663 


10 6 15.8 


IX. 530 


19 


8 9 1.80 


X.9858 


18 8 18.8 


8.731 


19 


9 41 9.38 


X.8644 


9 54 43.3 


11.56a 


20 


8 II 0.85 


x.98a7 


17 59 33.2 


8.797 


20 


9 43 1. 19 


1.8637 


9 43 8.3 


11. 603 


21 


8 12 59.72 


1.9797 


17 50 43.1 


8.873 


21 


9 44 52.91 


i.86ia 


9 31 30.9 


XX.643 


22 


8 14 58.41 


X.9766 


17 41 48.5 


8.947 


22 


9 46 44.54 


1.8597 


9 19 51.1 


11.683 


23 


8 16 56.91 
TH 


X.9735 

[URSDi 


N.17 32 49.4 
VY 26. 


9*083 


23 


9 48 36.07 
SA 


1. 8581 
TURDi^ 


^.98 8.9 
lY 28. 


11.733 


O 


8 18 55.23 


1.9705 


N.17 23 45.9 


9.09s 





9 50 27.51 


1.8566 


N. 8 56 24.4 


11.761 


I 


8 20 53.37 


X.9674 


17 14 38.0 


9.X68 


I 


9 52 18.86 


1.8553 


8 44 37.6 


11.798 


2 


8 22 51.32 


1.9643 


17 5 25.7 


9.241 


2 


9 54 10.14 


X.8539 


8 32 48.6 


11.835 


3 


8 24 49.09 


1.9613 


16 56 9.1 


9*3X3 


3 


9 56 1.33 


1.8535 


8 20 57.4 


11.871 


4 


8 26 46.68 


1.9583 


16 46 48.2 


9.383 


4 


9 57 52.44 


1.851a 


8 9 4.x 


1X.906 


5 


8 28 44.09 


1*9554 


16 37 23.2 


9*4SS 


5 


9 59 43.47 


1.8500 


7 57 8.7 


IX.94X 


6 


8 30 41.33 


1.9525 


16 27 54.0 


9.533 


6 


10 X 34.44 


1.8488 


7 45 ".2 


11.975 


7 


8 32 38.39 


1.^495 


16 18 20.6 


9.591 


7 


10 3 25.33 


X.8477 


7 33 ".7 


X3.0Q6 


8 


8 34 35.27 


1.9467 


16 8 43.1 


9.658 


8 


10 5 16.16 


1.84C6 


7 21 10.2 


13.041 


9 


8 36 31.99 


1*9438 


15 59 1.6 


9.735 


9 


10 7 6.92 


1.8456 


7 9 6.8 


13.079 


lO 


8 38 28.53 


1.9408 


15 49 16. 1 


9.799 


10 


10 8 57.63 


X.8447 


6 57 1.5 


ia.xo3 


ZI 


8 40 24.89 


X.9380 


15 39 26.6 


9.857 


IX 


10 10 48.28 


1.8437 


6 44 54.4 


13.133 


12 


8 42 21.09 


x.935a 


X5 29 33.3 


9.9>x 


12 


10 12 38.87 


1.8438 


6 32 45.5 


13.163 


13 


8 44 17.12 


x.93«5 


15 19 36.1 


9.986 


13 


10 14 29.41 


1.8430 


6 20 34.9 


13.193 


14 


8 46 12.99 


x.9a97 


15 9 35.0 


10.049 


14 


10 16 19.91 


1.84x3 


6 8 22.5 


13.330 


15 


8 48 8.69 


1.9069 


14 59 30.2 


xo.iia 


X5 


10 18 10.36 


X.8404 


5 56 8.5 


X9.347 


i6 


8 50 4.22 


1.9343 


14 49 21.6 


10.17s 


16 


xo 20 0.76 


1.8397 


5 43 52.9 


13.374 


17 


8 51 59.60 


1.9317 


H 39 9.4 


10.934 


17 


10 21 51.13 


1.8393 


5 31 35.6 


IS. 300 


i8 


8 53 54.82 


X.9190 


14 28 53.5 


10.39s 


18 


10 23 41.47 


1.6387 


5 19 16.9 


13.334 


19 


8 55 49.88 


1.91^ 


14 18 34.0 


10.SS4 


19 


10 25 31.77 


1.8381 


5 6 56.7 


13.349 


20 


8 57 44,78 


1.9137 


14 8 ii.o 


10. 419 


20 


10 27 22.04 


1.8377 


4 54 35.0 


13.373 


21 


8 59 39.53 


1.9119 


13 57 44.5 


10.471 


21 


10 29 12.29 


1.8373 


4 42 1 1.9 


13.397 


22 


9 X 34.13 


1.9087 


13 47 14.5 


10.338 


22 


10 31 2.52 


1.8369 


4 29 47.4 


ia.418 


«3 


9 3 28.57 


1.9063 


13 36 41. 1 


XO.58S 


23 


10 32 52.72 


1.8366 


4 X7 21.7 


ia.440 


«4 


9 5 22.87 


1.9037 


N.13 26 4.3 


10.641 


24 


10 34 42.91 


1.8364 


N. 4 4 54.6 


I9.46t 



XII. 



JANUARY, 1899. 



13 



GREENWICH MEAN TIME. 



Hoar. 



O 

I 
2 

3 

4 

5 
6 

7 
8 

9 

lO 

II 

12 

13 

15 
i6 

17 
i8 

19 

20 
21 
22 

23 



o 

I 

2 

3 

4 

5 
6 

7 
8 

9 

lO 

zi 

12 

13 
14 

15 

i6 

17 
i8 

19 

20 
21 
22 

23 
24 



THE MOON'S RIGHT ASCENSION AND DECLINATION. 



Rigbl 
Ascension. 



Diff.for 
X Minute. 



Declinatiaa 



Diff.for 
I Minute. 



SUNDAY 29. 



b 
[O 
[O 
[O 
[O 
[O 
[O 
[O 
[O 
[O 
[O 

:o 
:o 

[O 
[O 



m 
34 
36 
38 
40 

42 

43 
45 
47 
49 
51 
53 
54 
56 
58 
o 

2 

4 

5 

7 

9 
II 

13 
15 
17 



18 
20 
22 

24 

26 

28 
29 

31 

33 

35 

37 

39 

41 

43 

44 
46 

48 
50 
52 
54 
56 
58 

59 

I 

2 3 



■ 
42.91 

33-09 
23.26 

13.43 

3.59 

53.76 

43.93 

34-11 
24.30 

14.51 

4-73 

54.98 

45-25 

35.55 
25.89 

16.26 

6.67 

57.13 

47.63 
38.18 

28.79 

19.46 

10.19 

0.98 



■ 

X.8364 

X.6363 

z.836a 

1.8361 

1. 8361 

1.8369 

1.836a 

X.8364 
1.8367 

1.9316Q 
l.837t 

x-8377 
Z.8381 

X.8387 
1.8399 
Z.8398 
X.8406 
1.84x3 
I.84SZ 
1.8430 
1.8440 
1.8430 
X.8460 
1.847a 



N. 



N. 
S. 



S. 



4 
3 
3 
3 
3 

3 

2 

2 
2 

9 

Z 
I 

z 
I 
z 
o 
o 
o 
o 
o 
o 
o 
o 
o 



54.6 

26.3 

56.8 

26.2 

54.5 

21.8 

48.0 

13.3 
37.6 

I.Z 

23.7 
45.5 

6.6 
27.0 
46.7 

5.8 
24.3 

42.3 
59.8 
Z6.9 
26.4 
10. z 

32 54.1 

45 38.3 



4 
52 

39 
27 

14 

2 

49 
37 
24 

Z2 

59 
46 

34 

2Z 

8 

56 

43 
30 

17 

5 

7 
20 



MONDAY 30. 



51-85 


X.8484 


42.79 


1.8497 


33.8Z 


1.85x0 


24.91 


1.8533 


16.09 


X.8537 


7-36 


1.8553 


58.73 


1.8569 


50.19 


x.8585 


41.75 


1.8608 


33.42 


X.8690 


25-19 


1.8638 


17.08 


1.8657 


9.08 


1.8677 


1.20 


1.8697 


53.45 


X.8718 


45.82 


1.8739 


38.32 


1.8769 


30.96 


1.8785 


23-74 


1.8808 


16.66 


1.8839 


9-73 


1.8857 


2.95 


1.8883 


56.33 


X.8909 


49.86 


X.8935 


43-55 


X.8963 



S. o 
I 



z 

2 
2 
2 
2 
2 

3 

3 

3 

3 

3 

4 

4 

4 

4 

5 

5 

5 

5 

5 
S. 6 



58 22.7 

ZI 7.3 

23 52.1 

36 36.9 

49 21.8 

6.7 

51-5 
36.2 

20.7 

5.1 
49.2 
33-0 
16.5 

59.6 
42.2 

24-4 
6.0 



2 

14 
27 

40 

53 

5 

18 

31 
43 
56 

9 
22 



34 

47 
o 

12 

25 

38 

50 

3 



47- X 
27.5 

7.3 
46.3 
24.6 

2.0 
38.6 

14-3 






19.469 
xa.489 
X9.50X 
X9.519 
xa.537 
xa.554 

X9.57X 
X9.587 

X9.609 
19.616 

19.Q30 

19. 649 

19.654 

19.666 

19.677 
19.687 
19.696 

19.704 

19.719 

X9.718 
19.795 
19.731 

X9.735 
19.738 



X9.749 

x«-745 
19.747 

xa.747 
19.748 

19.747 
X9.746 
X9.74S 
19.74X 
19.737 

19.739 

19.787 
i9.7ai 
19.7x4 

19.707 
19.698 
19.689 
19.679 
19.668 

X9.6S7 
IS. 644 
x««^i 
19.617 

X9.609 

19.587 



Hoar. 



Right 
Aacenaioa 



Diff.for 
1 Minute. 



Declinatioa 



ZMftfor 
1 Minute. 



O 

z 

2 

3 

4 

5 
6 

7 

8 

9 
zo 

zz 

Z2 

13 

14 
15 

z6 

17 
z8 

19 
20 

21 

22 

23 



I 



C 
O 



h 
Z2 
Z2 
Z2 
Z2 

za 

Z2 
Z2 
Z2 
Z2 

za 

Z2 
Z2 
Z2 
Z2 
Z2 
12 
12 
12 
Z2 
Z2 
12 
12 
12 
12 



m 

3 

5 

7 

9 
II 

13 

15 

17 
z8 

20 

22 

24 

26 

28 
30 
32 

34 
36 
38 
40 
42 

44 
46 

48 



a 

43.55 

37.41 

31-45 
25.66 

20.04 

Z4.6Z 

9.37 
4.32 

59.47 
54.8Z 

50.35 
46. ZO 

42.06 

38.24 

34.63 
31.25 

28.10 
25.18 
22.49 
20.04 

17.83 

15.87 

14.16 
12.70 



TUESDAY 31. 
S. 



■ 

x.8963 

1.8999 

I.9MX 

X.9049 
1.9079 

I.9IXX 

1.9x4a 

1.9x75 
1.9907 

x.9a40 
X.9974 
1.9309 

X.934S 
X.9381 

1.94x8 
X.9456 
x.949i 
x.953a 
x.957a 
1.961a 
1.965a 
X.9694 

X.9736 
X.9778 



6 

6 
6 
6 
6 

7 

7 

7 

7 

7 
8 

8 

8 

8 

8 

9 

9 

9 

9 

9 
10 

10 

10 

S.io 



3 

15 

28 

40 
53 

5 
18 

30 

43 

55 
8 

20 

32 

45 

57 

9 
21 

34 
46 
58 
10 

22 

34 
46 



H-3 
49.0 
22.7 

55.3 
26.8 

57.1 
26.2 

54.0 
20.4 

45.5 
9.2 

31.3 

51.9 
10.9 

28.3 

43-9 
57.8 

9.9 
20.1 

28.3 

34.6 
38.8 
41.0 
40,9 



WEDNESDAY. FEBRUARY i. 
12 50 11.50 I x.989a I S.IO 58 38.7 



19.5B7 

19. 570 

xa.55a 

xa.534 
xa.515 
xa.495 
xa.474 
ia.459 

ia.499 
xa.407 
19.389 

19.356 
19.330 

X9.3H9 
19.975 

19.946 

19.9x7 

19.X86 
19.153 

19.191 

19. 087 
Xa.053 
19. 0x7 

IX. 981 



XI.944 



PHASES OF THE MOON. 



Last Quarter 
New Moon . 
First Quarter 
Full Moon . 



• Jan. 



d h m 

4 15 21.5 

II 10 49.6 
18 4 36.2 

26 7 34.1 



d h 

C Perigee Jan. zz Z3.6 

C Apogee 25 6. z 



14 



JANUARY, 1899. 



XIII. 









GREENWICH MEAN TIME. 




• 




LUNAR DISTANCRS. 


of the 
»nth. 






- 


P.L. 




P.L. 




P.L. 




P.L. 


Name and Direction 


Noon. 


of 


Illb- 


of 


Vlh. 


of 


IX^ 


of 


Q 


of Object 






Diff. 


* • • 


Diff. 




Diff. 




Diff 








• » m 




e f » 




e f m 




m t m 




I 


Aldebaran 


W. 


8i o 33 


3073 


82 29 16 


3067 


83 58 6 


3061 


85 27 3 


3056 




Pollux 


W, 


39 20 50 


3138 


40 48 26 


3x18 


42 16 14 


3106 


43 44 16 


3096 




Spica 


E. 


52 39 33 


.3039 


51 10 8 


3034 


49 40 37 


3028 


48 10 59 


3023 




Jupiter 


E. 


66 29 26 


3x09 


65 I 27 


3x04 


63 33 22 


3099 


62 5 II 


3093 




Venus 


E. 


94 31 34 


3206 


93 5 32 


3203 


91 39 26 


3x98 


90 13 14 


S193 


2 


Aldebaran 


W. 


92 53 48 


3030 


94 23 36 


301 X 


95 53 35 


3003 


97 23 44 


2995 




Pollux 


W. 


51 7 39 


3043 


52 36 59 


303X 


54 6 33 


3C3I 


55 36 20 


S009 




Mars 


W. 


37 52 " 


a93i 


39 23 50 


29x9 


40 55 45 


2906 


42 27 56 


2894 




Spica 


E. 


40 41 3 


2993 


39 10 40 


2984 


37 40 7 


2977 


36 9 25 


2969 




Jupiter 


E. 


54 42 29 


306a 


53 13 33 


3056' 


51 44 29 


3048 


50 15 16 


3040 




Venus 


E. 


83 44 


3165 


81 33 53 


3x58 


80 6 53 


SI5X 


78 39 45 


3x43 




Sun 


E. 


120 3 15 


3357 


118 40 9 


5347 


117 16 52 


3338 


"5 53 25 


3328 


3 


Pollux 


W. 


63 8 50 


9950 


64 40 5 


2938 


66 II 36 


2925 


67 43 23 


29x2 




Mars 


W. 


50 12 54 


2830 


51 46 43 


28x6 


53 20 50 


S803 


54 55 14 


2789 




Regulus 


W. 


26 7 27 


2967 


27 38 21 


2948 


29 9 39 


293X 


30 41 19 


•9x4 




Jupiter 


E. 


42 46 46 


3001 


41 16 34 


2992 


39 46 II 


2984 


38 15 38 


2975 




Venus 


E. 


71 21 39 


Sxox 


69 53 30 


3091 


68 25 9 


3081 


66 56 36 


3070 




Antares 


E. 


74 3 34 


2902 


72 31 18 


289X 


70 58 47 


2879 


69 26 I 


28G7 




Sun 


E. 


108 53 7 


3273 


107 28 24 


326X 


106 3 27 


3248 


104 38 15 


3235 


4 


Pollux 


W. 


75 26 36 


2842 


77 9 


2827 


78 34 2 


281a 


80 8 14 


2796 




Mars 


W. 


62 51 51 


2717 


64 28 8 


270X 


66 4 46 


2687 


67 41 44 


267X 




Regulus 


W. 


38 24 53 


2832 


39 58 39 


28 16 


41 32 46 


2799 


43 7 15 


2783 




Venus 


E. 


59 30 34 


3014 


58 39 


3003 


56 30 30 


299X 


55 6 


2978 




Antares ' 


E. 


61 38 12 


2801 


60 3 46 


278S 


58 29 2 


2772 


56 53 58 


2758 




Sun 


E. 


97 28 Z2 


-3163 


96 I 19 


3148 


94 34 7 


3x32 


93 6 36 


sns 


3 


PoUnx 


W. 


88 4 26 


3716 


89 40 45 


2699 


91 17 26 


2682 


92 54 30 


2664 




Mars 


W. 


75 51 59 


2588 


77 31 10 


2572 


79 10 44 


2554 


80 50 42 


2536 




Regulus 


W; 


51 5 12 


2696 


52 41 57 


2679 


54 19 5 


2660 


55 56 38 


2643 




Venus 


E. 


47 24 9 


2916 


45 52 10 


2901 


44 19 54 


2891 


42 47 23 


2878 




Antares 


E. 


48 53 37 


2679 


47 16 29 


2663 


45 38 59 


2646 


44 I 6 


2638 




Sun 


E. 


85 43 55 


3029 


84 14 18 


30x1 


82 44 19 


2993 


81 13 57 


2973 


6 


Mars 


W. 


89 16 44 


t446 


90 59 13 


2429 


92 42 7 


24x0 


94 25 27 


239X 




Regulus 


W. 


64 10 34 


2550 


65 50 38 


253X 


67 31 8 


S512 


69 12 5 


2493 




Antares 


E. 


35 45 45 


2540 


34 5 28 


2532 


32 24 46 


2504 


30 43 39 


2487 




Sun 


E. 


73 36 4 


2876 


72 3 14 


2856 


70 29 59 


2836 


68 56 18 


28x6 


7 


Regulus 


W. 


77 43 31 


2397 


79 27 10 


2378 


81 II 16 


2359 


82 55 49 


2340 




Spica 


W. 


23 42 57 


2420 


25 26 3 


2397 


27 9 42 


2374 


28 53 54 


2353 




Sun 


E. 


61 I 16 


27x4 


59 24 55 


2694 


57 48 7 


2674 


56 10 52 


2654 


8 


Regulus 


W. 


91 45 21 


2249 


93 32 35 


2233 


95 20 14 


2215 


97 8 19 


2198 




Spica 


W. 


37 42 27 


2253 


39 29 36 


2334 


41 17 13 


22X6 


43 5 17 


2x98 




Sun 


E. 


47 57 54 


2556 


46 17 59 


2538 


44 37 38 


2520 


42 56 52 


2302 


9 


Spica 


W. 


52 12 4 


9XX6 


54 2 38 


2102 


55 53 34 


to88 


57 44 51 


2075 




Jupiter 


W. 


37 40 17 


2204 


39 28 39 


2184 


41 17 30 


2x67 


43 6 48 


215X 


1 


Sun 


E. 


34 26 56 


2419 


32 43 48 


2404 


31 19 


2389 


29 16 29 


2376 





XIV. 



JANUARY, 1899. 



15 







GREENWICH MEAN TIME. 








LUNAR DISTANCES. 










P.L. 




P.L. 




P.L. 




P.L. 


o| 


Name and Directioii 1 


Midnight 


of 


xyy^ 


of 


XVIII»». 


of 


XXIli. 


of 


&a 


of Object 




*^ 


DifL 




Diff. 




DifL 




DiiE. 








• t t» 




• t • 




• f «* 




• t m 




I 


Aldebaran 


W. 


86 56 7 


3049 


88 25 19 


304a 


89 54 40 


3034 


91 24 XO 


3038 




Pollux 


w. 


45 12 30 


3086 


46 40 57 


3074 


48 9 38 


3064 


49 38 32 


3053 




Spica 


£. 


46 41 15 


3018 


45 II 24 


30XX 


43 41 25 


3005 


42 II 18 


9998 




Jupiter 


E. 


60 36 53 


3087 


59 8 28 


3083 


57 39 56 


3075 


56 IX 16 


3069 




Venus 


£. 


88 46 57 


S188 


87 20 34 


3x83 


85 54 4 


3*78 


84 27 28 


3X7X 


2 


Aldebaran 


W. 


98 54 3 


9985 


100 24 34 


9977 


xox 55 16 


9967 


103 26 10 


9957 




Pollux 


W. 


57 6 21 


9998 


58 36 36 


3986 


60 7 6 


9975 


61 37 50 


3969 




Mars 


W. 


44 23 


2881 


45 33 6 


3868 


47 6 6 


9855 


48 39 22 


S843 




Spica 


£. 


34 38 33 


996X 


33 7 31 


9954 


31 36 20 


9946 


30 .4 59 


9937 




Jupiter 


£. 


48 45 53 


3033 


47 16 21 


3025 


45 46 39 


30x8 


44 16 48 


3009 




Venus 


E. 


77 la 28 


3I3S 


75 45 I 


3X37 


74 17 24 


31x9 


72 49 37 


3XX0 




Sun 


£. 


114 29 46 


SS18 


113 5 55 


3307 


XII 41 52 


3996 


xxo 17 36 


3985 


3 


Pollux 


W. 


69 15 26 


s8gB 


70 47 47 


388s 


72 20 25 


387X 


73 53 21 


3856 




Mars 


W. 


56 29 56 


«775 


58 4 56 


3761 


59 40 15 


9747 


61 15 53 


373a 




Regulus 


W. 


32 X3 20 


9698 


33 45 42 


388z 


35 18 25 


3866 


36 51 28 


2848 




Jupiter 


£. 


36 44 54 


3967 


35 14 


3960 


33 42 57 


9959 


32 II 44 


2946 




Venus 


£. 


65 27 50 


3060 


63 58 52 


3049 


62 29 40 


3038 


61 14 


3oa6 




Antares 


£. 


67 53 


a855 


66 19 43 


3843 


64 46 xo 


3839 


63 12 20 


38x3 




Sun 


£. 


103 12 47 


3299 


xoi 47 4 


3908 


xoo 21 4 


3x93 


98 54 47 


3x78 


4 


PoUnx 


W. 


81 42 47 


3781 


83 X7 40 


3765 


84 52 54 


9749 


86 28 29 


9739 




Mars 


W. 


69 19 3 


2655 


70 56 44 


9^ 


72 34 46 


3633 


74 13 II 


2605 




Regulus 


W. 


44 42 5 


3766 


46 17 x8 


9749 


47 52 53 


3733 


49 28 5X 


27x4 




Venus 


£. 


53 29 26 


9965 


51 58 30 


99S4 


50 27 X9 


994X 


48 55 52 


3938 




Antares 


£. 


55 18 35 


«743 


53 42 52 


3737 


52 6 48 


37x1 


50 30 23 


3695 




Sun 


£. 


91 38 45 


3099 


90 10 34 


3083 


88 42 2 


3065 


87 13 9 


3047 


5 


PoUnx 


W. 


94 31 58 


a647 


96 9 49 


8630 


97 48 3 


S6X3 


99 26 42 


9S94 




Mars 


W. 


82 31 5 


95x9 


84 IX 52 


3301 


85 53 4 


3483 


87 34 41 


3465 




Regulus 


W. 


57 34 35 


^624 


59 12 57 


3606 


60 51 44 


3588 


62 30 56 


9569 




Venus 


E. 


41 14 36 


3866 


39 41 34 


9855 


38 8 17 


9844 


36 34 46 


9834 




Antares 


£. 


4a 22 49 


1611 


40 44 9 


9593 


39 5 5 


3576 


37 25 37 


95S9 




Sun 


£. 


79 43 II 


99S4 


78 X2 X 


9935 


76 40 27 


99x6 


75 8 28 


2896 


6 


Mars 


W. 


96 9 14 


«S7S 


97 53 28 


9355 


99 38 8 


8336 


lox 23 15 


93x7 




Regulus 


W. 


70 53 28 


«474 


72 35 18 


94SS 


74 17 35 


9436 


76 19 


84x6 




Antares 


E. 


29 2 8 


0470 


27 20 X2 


3453 


25 37 51 


9434 


23 55 5 


94x7 




Sun 


E. 


67 22 XI 


«795 


65 47 37 


9775 


64 12 37 


9755 


62 37 xo 


9735 


7 


Regulus 


W. 


84 40 50 


339a 


86 26 18 


9304 


88 X2 X2 


828s 


89 58 33 


3367 




Spica 


W. 


30 38 37 


S33X 


32 23 51 


33x1 


34 9 34 


339X 


35 55 46 


3373 




Sun 


£. 


54 33 10 


«634 


52 55 I 


3614 


5x x6 25 


9995 


49 37 23 


9575 


8 


Regulus 


W. 


98 56 49 


ti8s 


xoo 45 43 


3167 


X02 35 X 


8XSX 


104 24 42 


8136 




Spica 


W. 


44 53 48 


fli8o 


46 42 45 


3x64 


48 32 7 


8X47 


50 21 54 


8x3a 




Sun 


£. 


41 15 41 


9484 


39 34 5 


94fi7 


37 52 5 


9430 


36 9 42 


9434 


9 


Spica 


W. 


59 36 29 


•06s 


61 28 27 


3090 


63 20 43 


•039 


65 13 17 


aoaS 




Jupiter 


W. 


44 56 30 


9x35 


46 46 36 


«30 


48 37 5 


8x07 


50 27 54 


9095 




Sun 


£. 


27 32 20 


9364 


25 47 53 


935X 


24 3 8 


8340 


22 x8 7 


3339 



16 



JANUARY, 1899. 



XV. 







GREENWICH MEAN TIME. 








LUNAR DISTANCES. 


og 








P.Z« 




P.L. 




P.L. 




P.U 


Name and Direction | 


Noon. 


of 


Illh. 


of 


Vlh. 


of 


IXii. 


of 


1- 


of Object 






Diff. 




Diff. 




Diff. 




Diff. 






e f « 




• 9 » 




• f m 




• » «r 




13 


Sun 


W. 


23 XZ 44 


«3I9 


23 57 16 


•338 


25 42 34 


11339 


27 27 36 


•350 




a Arietis 


E. 


8o 43 45 


3099 


78 50 56 


MHO 


76 58 24 


•051 


75 6 9 


3063 


14 


Sun 


W, 


36 8 20 


S4I9 


37 51 28 


«439 


39 34 15 


•450 


41 16 39 


2466 




a Arietis 


E. 


65 49 37 


SIS9 


63 59 22 


•144 


62 9 30 


3t6o 


60 20 2 


3176 




Aldebaran 


E. 


98 37 52 


2x51 


96 48 xo 


flx6s 


94 58 50 


3180 


93 9 52 


3x95 


15 


Sun 


W. 


49 4a 4a 


S5S4 


5z 22 40 


•573 


53 2 X2 


3S9a 


54 41 18 


S6X3 




a Arietis 


E. 


51 19 5 


3«65 


49 32 Z4 


1285 


47 45 52 


3304 


45 59 58 


3334 




Aldebaran 


E. 


84 10 57 


tajB 


82 24 25 


••96 


80 38 19 


33x4 


78 52 40 


•333 


i6 


Sun 


W. 


62 50 12 


3710 


64 26 39 


•7*9 


66 2 40 


•750 


67 38 14 


3769 




a Arietis 


E. 


37 17 56 


S431 


35 35 6 


•434 


33 52 48 


•478 


32 XI 4 


3303 




Aldebaran 


£. 


70 ZZ Z2 


949B 


68 28 Z7 


•448 


66 45 50 


•467 


65 3 51 


•487 


17 


Sun 


W. 


75 29 35 


•868 


77 2 35 


■BB7 


78 35 xo 


3906 


80 7 2Z 


•936 




Fomalhaat 


W. 


47 26 29 


3397 


48 48 49 


3S7« 


50 XX 39 


3349 


51 34 54 


3339 




Aldebaran 


E. 


56 40 56 


S988 


55 I 45 


16x0 


53 23 3 


3639 


5x 44 48 


•65X 




Pollux 


E. 


98 27 59 


•S66 


96 48 z8 


•584 


95 9 I 


•608 


93 30 9 


1619 


i8 


Sun 


W. 


87 42 Z7 


30x8 


89 Z2 8 


yqs 


90 41 37 


903^ 


92 xo 45 


3069 




Fomalhaot 


W. 


58 35 12 


3a8s 


59 59 45 


3*77 


6x 24 23 


3376 


62 49 3 


3a75 




a Pegasi 


W, 


35 57 36 


3074 


37 26 17 


S058 


38 55 18 


3048 


40 24 31 


3043 




Aldebaran 


E. 


43 40 41 


2757 


42 5 17 


3780 


40 30 23 


3803 


38 55 59 


S836 




Pollux 


E. 


85 21 37 


a704 


83 45 2 


3730 


82 8 49 


•737 


80 32 58 


•753 




Mars 


E. 


92 35 I 


flSS6 


90 55 5 


«57« 


89 X5 31 


•587 


87 36 18 


•60X 


«9 


Sun 


W. 


99 3Z 22 


3x49 


xoo 58 32 


3164 


102 25 24 


3i7« 


103 51 59 


3x93 




Fomalhaut 


W. 


69 52 15 


3*85 


71 16 44 


3388 


72 41 9 


3394 


74 5 28 


3300 




a Pegasi 


W. 


47 51 52 


3P34 


49 2Z 22 


3036 


50 50 50 


3039 


52 20 15 


3043 




Pollux 


E. 


72 38 51 


>8S9 


71 5 I 


•843 


69 3X 29 


3838 


67 58 16 


3873 




Mars 


E. 


79 25 Z5 


«fi74 


77 48 


3687 


76 XI 3 


370X 


74 34 24 


27x3 


ao 


Sun 


W. 


zzz 49 


3«sa 


1X2 25 50 


3*70 


1x3 50 36 


S^Bl 


115 15 9 


S^9^ 




Fomalhaat 


W. 


81 5 z6 


333« 


82 28 50 


3940 


83 52 15 


3348 


85 15 31 


3356 




a Pegasi 


W. 


59 46 2 


3066 


61 14 53 


3071 


62 43 38 


3078 


64 12 15 


3083 




Pollux 


E. 


60 z6 32 


9939 


58 45 2 


2950 


57 13 47 


•983 


55 42 48 


•975 




Mars 


E. 


66 35 Z9 


«774 


65 17 


8785 


63 25 30 


•796 


61 50 57 


3808 




Regulus 


E. 


97 3 15 


3896 


95 30 51 


•907 


93 58 41 


•9x7 


92 26 44 


•9«7 


21 


Fomalhaut 


W. 


92 9 28 


3400 


93 31 45 


3409 


94 53 51 


34x8 


96 15 47 


34^9 




a Pegasi 


W. 


71 33 40 


3XXX 


73 I 36 


31x6 


74 29 26 


3XS8 


75 57 9 


9X«7 




a Arietis 


W. 


28 25 


3039 


29 29 49 


3041 


30 59 " 


3043 


32 28 31 


3044 




Pollux 


E. 


48 ZZ 40 


3035 


46 42 II 


3047 


45 12 56 


3059 


43 43 56 


3070 




Mars 


E. 


54 I 37 


•857 


52 28 23 


3866 


50 55 21 


3876 


49 22 31 


388s 




Regulus 


E. 


84 50 


1973 


83 X9 X2 


39V1 


8x 48 35 


•989 


80 x8 8 


•993 


22 


a Pegasi 


W. 


83 Z4 xo 


SZSS 


84 41 16 


S157 


86 8 X7 


3X63 


87 35 12 


9166 




a Arietis 


W. 


39 54 32 


3036 


41 23 35 


3060 


42 52 34 


306a 


44 21 30 


9063 




Pollux 


E. 


36 22 42 


3196 


34 55 16 


SX5X 


33 28 8 


3167 


32 I 19 


3x83 




Mars 


E. 


4Z 4Z X3 


a9*9 


40 9 31 


•938 


38 38 


•947 


37 6 41 


•957 




Regulus 


E. 


72 47 58 


3028 


71 x8 20 


3033 


69 48 48 


3039 


68 19 23 


9013 



XVL 



JANUARY, 1899. 



17 









GREENWICH MEAN TIME. 










LUNAR DISTANCEa 


Day of th« 

Month. 


Name and Direction 
of Object 


Midnight 


P.L. 

of • 
Diff. 


XVh. 


P.L. 

of 

Diff. 


XVIIIh- 


P.L. 

of 

Diff. 


xxi»>. 


P.L 

of 
Diff. 








• 


t m 




r w 




r u 







* m 




13 


Sun 


W. 


29 


12 22 


8363 


30 56 50 


a375 


32 41 


2389 


34 


24 50 


2403 




a Arietis 


E. 


73 


14 II 


ao74 


71 22 32 


2087 


69 31 13 


2100 


67 


40 14 


2XX5 


14 


Sum 


W. 


42 


58 40 


2483 


44 40 17 


2300 


46 21 30 


2517 


48 


2 19 


2536 




a Arietis 


E. 


58 


30 59 


S193 


56 42 21 


22ZO 


54 54 9 


2229 


53 


6 24 


2246 




Aldebaran 


E. 


91 


21 17 


23ZX 


89 33 6 


2227 


87 45 18 


2243 


85 


57' 55 


2260 


15 


Sun 


W. 


56 


19 57 


1030 


57 58 II 


2^ 


59 35 58 


2670 


61 


13 18 


2689 




a Arietis 


E. 


44 


14 33 


8344 


42 29 38 


2365 


40 45 13 


2387 


39 


I 19 


2408 




Aldebaran 


E. 


n 


7 28 


8351 


75 22 43 


2370 


73 38 25 


2389 


71 


54 35 


2408 


16 


Sun 


W. 


69 


13 23 


2789 


70 48 4 


2809 


72 22 20 


2829 


73 


56 10 


2848 




a Arietis 


E. 


30 


29 54 


2528 


28 49 20 


2556 


27 9 24 


8585 


25 


30 8 


26x6 




Aldebaran 


E. 


63 


22 20 


3507 


61 41 17 


«5a7 


60 42 


2348 


58 


20 35 


2568 


17 


Sun 


W. 


8t 


39 7 


994s 


83 10 29 


2963 


84 41 28 


298X 


86 


12 4 


3000 




Fomalhant 


w. 


52 


58 29 


3317 


54 22 21 


3304 


55 46 28 


3994 


57 


10 46 


3288 




Aldebaran 


E. 


50 


7 a 


3672 


48 29 44 


2693 


46 52 55 


2714 


45 


16 34 


9735 




Pollux 


E. 


91 


51 40 


2637 


90 13 35 


2654 


88 35 53 


2671 


86 


58 34 


2687 


z8 


Sun 


W. 


93 


39 32 


3086 


95 7 59 


3102 


96 36 6 


3x19 


98 


3 53 


3x33 




Fomalhaat 


W. 


64 


13 44 


3«75 


65 38 25 


3276 


67 3 4 


3278 


68 


27 41 


328X 




a Pegasi 


W. 


41 


53 52 


3037 


43 23 19 


3034 


44 52 49 


3034 


46 


22 20 


3033 




Aldebaran 


E. 


37 


22 5 


2850 


35 48 42 


2876 


34 15 52 


290X 


32 


43 35 


9999 




PoUox 


E. 


78 


57 28 


27«9 


77 22 19 


2784 


75 47 30 


9799 


74 


13 I 


28x4 




Mars 


E. 


85 


57 25 


26x7 


84 18 53 


0632 


82 40 41 


2646 


81 


2 48 


2660 


19 


Sun 


W. 


105 


18 17 


3206 


yo6 44 19 


3220 


108 10 4 


3933 


109 


35 34 


3246 




Fomalhaat 


W. 


75 


29 40 


3306 


76 53 45 


33" 


78 17 43 


3319 


79 


41 33 


3395 




a Pegasi 


W. 


53 


49 35 


3047 


55 18 50 


305X 


56 48 


3056 


58 


17 4 


3060 




Pollux 


E. 


66 


25 21 


2883 


64 52 43 


2899 


63 20 23 


29x2 


61 


48 19 


9995 




Mars 


£. 


72 


58 a 


9f7b 


71 21 57 


2738 


69 46 8 


2751 


68 


10 36 


2763 


20 


Sum 


W. 


116 


39 30 


3309 


118 3 38 


33x3 


119 27 34 


3394 


120 


51 18 


3339 




Fomalhaat 


W. 


86 


38 38 


3365 


88 I 35 


337a 


89 24 23 


3381 


90 47 I 


.339X 




a Pegasi 


W. 


65 


40 46 


3088 


67 9 10 


3094 


68 37 27 


3x00 


70 


5 37 


3x05 




Pollux 


E. 


54 


12 4 


9987 


52 41 35 


3000 


51 II 22 


3012 


49 


41 24 


S023 




Mars 


E. 


60 


16 39 


28x8 


58 42 34 


2828 


57 8 42 


2838 


55 


35 3 


2848 




Regulas 


E. 


90 


54 59 


•937 


89 23 27 


2946 


87 52 7 


9955 


86 


20 58 


9964 


31 


Fomalhaat 


W. 


97 


37 31 


3438 


98 59 4 


3449 


100 20 25 


S459 


lOI 


41 35 


347X 




a Pegasi 


W. 


77 


24 46 


3x33 


78 52 16 


3x38 


80 19 40 


3x43 


81 


46 58 


3x48 




a Arietis 


W. 


33 


57 49 


3047 


35 27 4 


3048 


36 56 17 


3052 


38 


25 26 


3054 




Pollux 


E. 


42 


15 10 


3083 


40 46 40 


3096 


39 18 25 


3x08 


37 


50 25 


3x22 




Mars 


E. 


47 


49 53 


S894 


46 17 26 


■903 


44 45 II 


291X 


43 


13 6 


2920 




Regulas 


E. 


78 


47 49 


3002 


77 17 39 


9009 


75 47 38 


3015 


74 


17 44 


3022 


22 


a Pegasi 


W. 


89 


2 2 


3170 


90 28 47 


3x74 


91 55 27 


3x78 


93 


22 2 


3x83 




a Arietis 


W. 


45 


50 22 


3068 


47 19 II 


3070 


48 47 57 


3073 


50 


16 40 


3074 




Pollux 


E. 


30 


34 50 


3202 


29 8 43 


3224 


27 43 2 


3947 


26 


17 49 


3973 




Mars 


E. 


35 


35 34 


2967 


34 4 40 


2976 


32 33 57 


9987 


31 


3 28 


2998 


* 


Regulus 


£. 


66 


50 4 


3048 


65 20 51 


3053 


63 51 44 


3057 


62 


22 42 


306X 



MM 



18 



JANUARY, 1899. 



XVII. 









GREENWICH MEAN TIMK 










LUNAR DISTANCEa 
















P.L. 




P.L. 






P.L 




P.L. 


Name and Direction { 


Noon. 1 


of 


IIIJ>. 


•of 


Vlh. 




of 


IXh. 


of 


of Object 








DifE. 




Diff. 






DifL 




DifE. 






• 


t m 




• t m 




• * 


m 




• 9m 




«3 


a Arietis 


W. 


51 


45 21 


3077 


53 13 59 


S079 


54 42 34 


308X 


56 II 7 


3083 




Aldebaran 


W. 


20 


II 39 


34x6 


21 33 37 


3373 


22 56 


24 


3339 


24 19 50 


3313 




Regal us 


E. 


60 


53 45 


3065 


59 24 53 


3069 


57 56 


5 


3073 


56 27 21 


3075 


>4 


a Arietis 


W. 


63 


33 26 


S088 


65 I 50 


3089 


66 30 


13 


S089 


67 58 36 


3090 




Aldebaran 


W. 


31 


23 41 


3233 


32 49 23 


32x2 


34 15 


18 


33P3 


35 41 24 


3x94 




Regulus 


E. 


49 


4 37 


3089 


47 36 14 


3091 


46 7 


54 


3094 


44 39 37 


3096 




Spica 


E. 


103 


3 58 


307a 


loi 35 14 


3073 


100 6 


31 


3074 


98 37 50 


S074 


25 


a Arietis 


W. 


75 


20 25 


3090 


76 48 47 


3089 


78 17 


10 


3088 


79 45 34 


3087 




Aldebaran 


W. 


4a 


54 9 


3x62 


44 21 4 


3x57 


45 48 


5 


3x53 


47 15 12 


3x48 




Regulus 


E. 


37 


18 50 


S107 


35 50 49 


3X10 


34 22 


51 


3x13 


32 54 56 


3XZ3 




Spica 


E. 


91 


14 31 


S076 


89 45 52 


3075 


88 17 


22 


3075 


86 48 32 


3074 


26 


a Arietis 


W. 


87 


7 51 


3082 


88 36 23 


3080 


90 4 


57 


3078 


91 33 33 


3076 




Aldebaran 


W. 


54 


32 2 


3x28 


55 59 38 


3134 


57 27 


19 


3119 


58 55 5 


3x16 




Spica 


E. 


79 


24 57 


3069 


77 56 10 


3068 


76 27 


21 


3066 


74 58 30 


3064 




Jupiter 


E. 


96 


2 42 


3zx6 


94 34 52 


3XX4 


93 7 





3x13 


91 39 6 


3XXO 


27 


Aldebaran 


W. 


66 


15 I 


3097 


67 43 14 


3093 


69 II 


32 


3090 


70 39 54 


3086 


• 


Pollux 


W. 


24 


55 59 


3276 


26 20 39 


3348 


27 45 


51 


3336 


29 II 29 


3208 




Spica 


E. 


67 


33 38 


3053 


66 4 31 


3051 


64 35 


21 


3048 


63 6 8 


3045 




Jupiter 


E. 


84 


18 55 


3099 


82 50 44 


3096 


81 22 


29 


3093 


79 54 II 


3090 


28 


Aldebaran 


W. 


78 


2 59 


3065 


79 31 52 


3060 


81 


50 


3056 


82 29 54 


305a 




Pollux 


W. 


36 


24 40 


3x34 


37 52 8 


3x34 


39 19 


49 


3x13 


40 47 44 


3X03 




Mars 


W. 


32 


42 39 


«97o 


34 13 29 


396X 


35 44 


31 


3953 


37 15 44 


0944 




Spica 


E. 


55 


39 6 


3029 


54 9 29 


3026 


52 39 


48 


3023 


51 10 2 


30z8 




Jupiter 


E. 


72 


31 42 


3073 


71 3 


3069 


69 34 


13 


3065 


68 5 21 


3063 




Antares 


E. 


lOI 


14 25 


3032 


99 44 40 


3019 


98 14 


51 


30x4 


96 44 56 


30x0 


29 


Pollux 


W. 


48 


10 15 


3056 


49 39 18 


3<H7 


51 8 


32 


3039 


52 37 57 


3030 




Mars 


W. 


44 


54 22 


2905 


46 26 35 


2898 


47 58 


57 


2891 


49 31 28 


3883 




Spica 


E. 


43 


39 56 


«997 


42 9 39 


399X 


40 39 


15 


3986 


39 8 45 


398X 




Jupiter 


E. 


60 


39 47 


3<HO 


59 10 24 


3035 


57 40 


55 


3030 


56 II 20 


3036 




Antares 


E. 


89 


13 56 


a985 


87 43 25 


2981 


86 12 


48 


3974 


84 42 3 


2969 




Saturn 


E. 


lOI 


54 37 


3022 


100 24 51 


3016 


98 54 


58 


30ZO 


97 24 58 


3005 


30 


Pollux 


W. 


60 


7 38 


2988 


61 38 6 


3979 


63 8 


45 


3970 


64 39 35 


t96z 




Mars 


W. 


57 


16 23 


2846 


58 49 51 


2838 


60 23 


29 


383 z 


61 57 17 


S833 




ReguluB 


W. 


23 


7 I 


3015 


24 36 55 


3999 


26 7 


9 


3985 


27 37 41 


3970 




Jupiter 


E. 


48 


41 51 


3999 


47 II 37 


3994 


45 41 


17 


2989 


44 10 50 


3983 




Antares 


E. 


77 


6 25 


2936 


75 34 52 


3939 


74 3 


10 


2922 


72 31 19 


39x4 




Saturn 


E. 


89 


53 I 


3971 


88 22 12 


2964 


86 51 


14 


3957 


85 20 7 


3949 




Venus 


E. 


93 


35 57 


3389 


92 II 33 


3282 


90 47 


I 


3374 


89 22 19 


3366 


31 


Pollux 


W. 


72 


16 39 


39x4 


73 48 40 


8904 


75 20 


54 


2894 


76 53 20 


3883 




Mars 


W. 


69 48 58 


3779 


71 23 53 


377 » 


72 58 


59 


2762 


74 34 17 


3753 




Regulus 


W. 


35 


14 34 


3908 


36 46 43 


3895 


38 19 


8 


288J 


39 51 48 


S873 




Antares 


E. 


64 


49 30 


3872 


63 16 35 


3863 


61 43 


29 


2854 


60 10 II 


3844 




Saturn 


E. 


77 


41 56 


3906 


76 9 45 


2897 


74 37 


22 


2887 


73 4 47 


3877 




Venus 


E. 


82 


16 23 


3333 


80 50 40 


3212 


79 24 45 


3303 


77 58 39 


3x93 



























— 



xvm. 



JANUARY, 1899. 



19 







GREENWICH MEAN TIME. 










LUNAR DISTANCED 


of the 


Name and Direction 


Midnight 


P.L. 

of 


XV^ 


P.L. 
of 


XVIIIh. 


P.L. 
of 


XXIli- 


P.L. 

of 




Of Object 






Diff. 




Diff. 




Diff. 






Diff. 






• » • 




• » • 




• » m 




• t 


m 




83 


a Arietis 


W. 


57 39 38 


3084 


59 8 7 


3085 


60 36 35 


3087 


62 5 


I 


3087 




Aldebaran 


W. 


as 43 48 


3288 


27 8 14 


3267 


28 33 4 


3250 


29 58 


14 


3236 




Regulus 


E. 


S4 S8 41 


3078 


53 30 5 


308X 


52 I 32 


3084 


50 33 


3 


3087 


24 


a Arietis 


W. 


69 26 58 


3090 


70 55 ao 


3091 


72 23 41 


3090 


73 Sa 


3 


3090 




Aldebaran 


W. 


37 7 40 


3x87 


38 34 5 


3x79 


40 39 


3x73 


41 a7 


20 


3167 




Regulus 


E. 


43 II 22 


3098 


41 43 10 


3XOZ 


40 15 I 


3x02 


38 46 


54 


3x05 




Spica 


E. 


97 9 9 


S075 


95 40 a9 


3076 


94 II 50 


3075 


92 43 


10 


3076 


as 


a Arietis 


W. 


81 13 59 


3087 


82 42 25 


3086 


84 10 52 


3084 


85 39 


21 


3083 




Aldebaran 


W. 


48 42 24 


3x43 


50 9 41 


3139 


51 37 3 


3135 


53 4 


30 


3x31 




Regulus 


E. 


31 27 5 


SX19 


29 59 18 


3x23 


28 31 36 


SI27 


27 3 


59 


3x32 




Spica 


E. 


85 19 51 


S074 


83 51 10 


3073 


82 22 27 


S072 


80 53 


43 


3070 


26 


a Arietis 


W. 


93 a 12 


3074 


94 30 53 


3073 


95 59 36 


3070 


97 28 


22 


3069 




Aldebaran 


W. 


60 22 55 


3X19 


61 50 50 


3109 


63 18 49 


3x05 


64 46 


53 


310X 




Spica 


E. 


73 29 36 


30G2 


72 40 


3060 


70 31 42 


3058 


69 2 


41 


3056 




Jupiter 


E. 


90 II 9 


3x09 


88 43 10 


3x06 


87 15 8 


3x04 


85 47 


3 


3XOX 


37 


Aldebaran 


W. 


72 8 21 


3083 


73 36 53 


3078 


75 5 30 


3073 


76 34 


12 


3969 




Pollux 


W. 


30 37 29 


3x90 


32 3 50 


3x74 


33 30 30 


3x60 


34 57 


27 


3x47 




Spica 


E. 


61 36 51 


304a 


60 7 30 


3Q39 


58 38 6 


3036 


57 8 


38 


3033 




Jupiter 


E. 


78 as 49 


3087 


76 57 23 


3084 


75 28 54 


3080 


74 


20 


3077 


28 


Aldebaran 


W. 


83 59 3 


3047 


85 28 18 


304X 


86 57 40 


3037 


88 27 


7 


S03X 




Pollux 


W. 


42 15 51 


309a 


43 44 10 


3082 


45 12 41 


3073 


46 41 


23 


3065 




Mars 


W. 


38 47 7 


3935 


40 18 41 


2927 


41 50 25 


2920 


43 22 


19 


3913 




Spica 


E. 


49 40 II 


3014 


48 10 15' 


3009 


46 40 14 


3005 


45 10 


8 


3001 




Jupiter 


E. 


66 36 25 


3058 


65 7 24 


3053 


63 38 17 


3049 


62 9 


5 


3044 




Antarea 


E. 


95 14 56 


S005 


93 44 SO 


3001 


9a 14 38 


2996 


90 44 


20 


399X 


29 


PoUux 


W. 


54 7 3a 


sosa 


55 37 18 


30x4 


57 7 14 


3005 


58 37 


21 


2997 




Mars 


W. 


51 4 8 


3876 


52 36 58 


2869 


54 9 57 


3863 


55 43 


5 


2854 




Spica 


E. 


37 38 9 


a977 


36 7 27 


3972 


34 36 39 


2966 


33 5 


44 


3963 




Jupiter 


E. 


54 41 39 


3oax 


53 II 52 


30x5 


51 41 58 


30Z0 


50 II 


58 


3005 




Antares 


E. 


83 II II 


2962 


81 40 II 


2957 


80 9 4 


2950 


78 37 


49 


2943 




Saturn 


E. 


95 54 51 


S998 


94 24 36 


2992 


9a 54 13 


2985 


91 23 


41 


3978 


30 


Pollux 


W. 


66 10 37 


2952 


67 41 50 


2943 


69 13 14 


2934 


70 44 


50 


3934 




Mars 


W. 


63 31 15 


28ZS 


65 5 24 


1806 


66 39 44 


2798 


68 14 


15 


8788 




Regulus 


W. 


29 8 31 


2957 


30 39 38 


2944 


3a II I 


293X 


33 42 


40 


2920 




Jupiter 


E. 


42 40 16 


2978 


41 9 36 


2973 


39 38 49 


2967 


38 7 


55 


2962 




Antares 


E. 


70 59 18 


39^ 


69 27 7 


2898 


67 54 45 


2890 


66 22 


13 


288X 




Saturn 


E. 


83 48 50 


a94x 


82 17 23 


2932 


80 45 45 


2924 


79 13 


56 


29x5 




Venus 


E. 


87 57 28 


3258 


86 32 27 


3249 


85 7 16 


334X 


83 41 


55 


323X 


31 


Pollux 


W. 


78 26 


a873 


79 58 53 


2862 


81 32 


3853 


83 5 


21 


3840 




Mars 


W. 


76 9 48 


•742 


77 45 32 


2732 


79 21 29 


2722 


80 57 40 


t7xx 




Regulua 


w. 


41 24 43 


3860 


42 57 53 


2848 


44 31 19 


2835 


46 5 


I 


3834 




Antares 


E. 


58 36 40 


2835 


57 a 57 


2824 


55 29 


2813 


53 54 


49 


3803 




Saturn 


E. 


71 31 59 


2868 


69 58 59 


2857 


68 25 45 


S847 


66 52 


18 


2835 




Venus 


£. 


76 32 21 


S183 


75 5 51 


3X7X 


73 39 7 


3x60 


72 12 


10 


3x48 



20 



FEBRUARY, 1899. 



AT GREENWICH APPARENT NOON. 



I 

C 



I 



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. 



u 

o 



o 



X 

2 

3 

4 

5 
6 

7 

8 

9 

lO 

iz 

12 

13 
H 
15 

i6 

17 
i8 

19 

20 
21 

22 

23 
24 

25 
26 

27 

28 

29 



THE SUN'S 



Apparent 


DifF.for 


Right Ascension. 


X Hoar. 


h 


m 


■ 


■ 


20 


59 44-82 


10.184 


21 


3 


48.84 


10.X50 


21 


7 5205 


xaii7 


21 


II 


54-46 


Z0.084 


21 


15 


56.08 


10.051 


21 


19 


56.89 


Z0.018 


21 


23 


56.92 


9.985 


21 


27 


56.16 


9.952 


21 


31 


54-59 


9.919 


21 


35 


52.25 


9.886 


21 


39 


49.13 


9.854 


21 


43 


45-24 


9.822 


21 


47 40-57 


9.790 


21 


51 


35-15 


9.758 


21 


55 


28.97 


9.727 


21 


59 


22.05 


9.696 


22 


3 


14.39 


9.666 


22 


7 


6.02 


9.636 


22 


10 


56.94 


9.607 


22 


14 47.17 


9.579 


22 


18 


36.72 


9.551 


22 


22 


25.62 


9.524 


22 


26 


13.88 


9.498 


22 


30 


1.52 


9.473 


22 


33 


48.56 


9.448 


22 


37 


35.02 


9.424 


22 


41 


20.92 


9.401 


22 


45 


6.28 


9.379 


22 


48 


51-13 


9.358 



Apparent 
Declination. 



S. 17 4 19.1 

1647 3.4 
16 29 30.2 

16 II 39.6 

15 53 32.2 
1535 8.4 

15 16 28.5 

14 S7 33-1 
14 38 22.6 

14 18 57.4 
13 59 18.0 
13 39 24.8 

13 19 18.2 
12 58 58.8 
12 38 26.8 

12 17 42.8 
II 56 47.2 

" 35 40-3 

II 14 22.6 

10 52 54-5 
10 31 16.4 

10 9 28.7 

9 47 31-8 
9 25 26.0 

9 3 11.8 
8 40 49.4 
8 18 19.3 

7 55 41-9 

s. 73257-5 



DifLfor 
X Hour. 



442.77 
43-52 

44-25 

+44.96 
45.65 

46.33 

+46.98 
47.62 

48.24 

+48.85 

49.43 
50-00 

+50.55 
51.07 
51.58 

+52.07 

52.55 
53.01 

+53.45 
53.88 

54.29 

+54.68 
55.06 

55.42 

+55.76 
56.09 
56.41 
56.71 

+56.99 



Senil- 



6 
6 
6 

6 
6 
6 

6 
6 
6 

6 
6 
6 

6 
6 
6 

6 
6 
6 

6 
6 
6 

6 
6 
6 

6 
6 
6 
6 



6.05 

5.89 
5.73 

5.57 
5-40 
5-23 

5.05 
4.87 

4.69 

4-51 

4-33 
4.14 

3-95 
376 
3.56 

3.36 
3.16 
2.96 

2.75 
2.54 
2-33 

2.11 
1.88 
1.66 

1.43 
1. 19 

0.95 
0.71 



16 10.46 



Sld«rMl 

Time of 
Semi- 
diameter 

Passing 
Meridian, 



68.26 
68.15 
68.03 

67.92 
67.80 
67.69 

67.57 
67.46 

67.34 

67.23 
67.12 
67.01 

66.91 
66.80 
66.69 

66.59 
66.49 
66.39 

66.29 
66.20 

66.11 

66.02 

65.93 
65.84 

65.76 
65.67 

65.59 
65-51 

65-43 



Bqaation off 

Time, 

to bo 
Added to 
Apparent 

TlmoL 



m ■ 

3 48.54 

3 55.98 

4 2.62 

4 8.46 

4 13.50 
4 17-75 

4 21.22 
4 23.88 
4 25.76 

4 26.87 

4 27.19 
4 26.74 

4 25.53 

4 23.55 
4 20.83 



17.36 

13.16 

4 8.25 



2.63 
56.32 

3 49.34 



3 41-71 

3 33.44 
3 24.55 



15.06 
4.99 

2 54-37 
2 43.21 



3 
3 



12 31.54 



DULflbr 
I Hou; 



0.327 
0.293 
0.260 

0.227 
0.194 
o.x6i 

0.128 
0.095 
0.062 

0.029 
0.003 
0.035 

0.066 
0.098 
0.129 

0.160 
0.190 
0.220 

0.249 
0.277 
0.304 

0.331 
0.358 
0.384 

0.408 
0.431 

0.454 
0.476 

0.497 



NoT&— The mean time of semidiameter passing maj be fonnd bj subtracting o".i8 from the sidereal time. 

The sign + prefixed to the hoarly change of decIinatioD indicates that south declinations are decreasing. 



n. 



FEBRUARY, 1899. 



21 



At GREENWICH MEAN NOON. 










THE 


SUN'S 








■■ ■ 


1 

C 

1 


4 
% 

• 
o 










Equation of 

Time, 

to be 

Subtracted 

from 
Mean Time. 


Diff. for 
X Hoar. 


Sidereal 

Time, 

or 

Rii^t Ascension 

of 

Mean Son. 


Apparent 
Right Ascension. 


DifE. tor 
z Hoar. 


Apparent 
Declination. 


Diftfor 
X Hoar. 


Wed. 
Thur. 
Frid. 


I 

2 
3 


h 
20 

21 

21 


59 42.48 
3 46.48 
7 49.68 


■ 
10.184 

10.150 

ZO.TZ7 


S. 17 4 29.0 
16 47 13.6 
16 29 40.6 


m 
+42.76 

43.51 
44.24 


m a 
13 48.46 

13 55-91 

14 2.56 


■ 
0.327 

0.293 

0.260 


h 
20 

20 

20 


m ■ 

45 54-01 

49 50.57 
53 47-12 


Sat. 

SUN. 

Mon. 


4 

5 
6 


21 
21 
21 


II 52-09 
15 53.69 
19 54-51 


10.083 
10.050 
XO.017 


16 II 50.2 

15 53 43-1 
15 35 19-5 


+44.95 
45.64 
46.32 


14 8.41 

14 13.46 
14 17.72 


a227 
O.I94 
o.x6z 


20 
21 
21 


57 43.68 
I 40.23 

5 36.79 


Tues. 
Wed. 
Thur. 


7 
8 

9 


21 
21 
21 


23 54-53 
27 53.77 
31 52.21 


9.984 
9.952 
9.919 


15 16 39.8 
14 57 44.6 

H 38 34-3 


+46.97 
47.61 
48.23 


14 21.19 
14 23.86 

14 25.75 


0.128 
0.095 
0.063 


21 
21 
21 


9 33.34 
13 29.90 

17 26.46 


Frid. 

Sat 

SUN. 


lO 

II 

12 


21 
21 
21 


35 49.87 
39 46.76 
43 42.87 


9.887 
9.854 
9.822 


14 19 9-3 
13 59 30.0 
13 39 36.9 


+48.84 
49.42 

49.99 


14 26.86 
14 27.20 

14 26.75 


0.030 
0.002 

0-034 


21 
21 
21 


21 23.01 

25 19.56 
29 16.12 


Mon. 
Tues. 
Wed. 


13 
14 
15 


21 
21 

21 


47 38.22 
51 32.81 
55 26.65 


9.790 

9-759 
9.728 


13 19 30.5 
12 59 II. I 

12 38 39.2 


+50-54 
51.07 
51.58 


14 25.55 
14 23.58 

14 20.86 


0.066 
0.098 
0.Z29 


21 
21 
21 


33 12.67 
37 923 
41 5.78 


Thur. 

Frid. 

Sat 


i6 

17 
i8 


21 
22 
22 


59 19.74 
3 12.10 

7 3.75 


9.697 
9.667 
9.637 


12 17 55-3 
II 56 59-7 
II 35 52.8 


+52.07 

52.55 
53.OX 


14 17.40 

14 13.21 

14 8.30 


0.160 
0.190 
0.219 


21 
21 
21 


45 2.34 
48 58.89 
52 55-45 


SUN 

Mon. 

Tues. 


19 

20 
21 


22 
22 
22 


10 54.69 
14 44.94 
18 34.52 


9.608 
9- 580 
9.552 


II 14 35.2 

10 53 7.1 
10 31 29.0 


+53.45 
53.88 

54-29 


14 2.69 

13 56.39 
13 49.42 


0.248 
0.276 
0.304 


21 
22 
22 


56 52.00 
48.56 

4 45." 


Wed. 
Thur. 
Frid. 


22 

23 
24 


22 
22 
22 


22 23.45 
26 11.73 
29 59.40 


9.525 
9.499 
9.474 


10 9 41.3 

9 47 44.3 
9 25 38.5 


+54.68 
55.06 

55.42 


13 41.78 

13 33.52 
13 24.63 


0.331 

0.357 
0.382 


22 
22 
22 


8 41.66 
12 38.22 
16 34.77 


Sat 
SUN. 
Mon. 
Tues. 


25 
26 

27 

28 


22 
22 
22 
22 


33 46.47 
37 32.96 
41 18.90 

45 4.30 


9.450 
9.426 

9.403 
9.381 


9 3 24.2 
8 41 1.7 
8 18 31.5 
7 55 54.0 


+55.76 
56.09 
56.41 
56.71 


13 ^S'-^S 
13 5.08 

12 54.47 
12 43.31 


0.407 

0.431 
0.454 

0-475 


22 

22 
22 
22 


20 31.32 
24 27.88 
28 24.43 
32 20.98 


Wed. 


29 


22 


48 49.18 


9,360 


S. 7 33 9-5 


+56-99 


12 31.64 


0.496 


22 


36 17-54 


Now.— Tl 
Tl 


lesao 
lesig 
decre 


aidiameter for meac 
D -|- prefixed to the 
asing. 


1 noon may 1 
hourly Chan 


tie assttmed the same as that tor 
tge of declination indicates that 


apparent nooa 
soath declinati 


ons are 


DiiE. for z Hoar, 

+ 9-8565. 
(Table UI.) 



22 



FEBRUARY, 1899. 



IIL 



Ir ■ 

AT GREENWICH MEAN NOON. 










THE SUN'S 








4 

S 

a 

1 


1 

• 

•s 

Q 










Logarithm 

of the 

Radius Vector 

of the 

Earth. 


Diff. for 
X Hour. 


Mean Time 

of 

Sidereal Noon. 


TRUE LONGITUDB. 


Diff. for 
X Hour. 


LATITUDR 


X 


X> 


I 
2 

3 


3a 
33 
34 


• t m 

312 27 57.3 

313 28 48.6 

314 29 39.0 


t m 

27 34-5 

28 25.7 

29 15.8 


m 
152.15 
X52.II 
152.08 


m 
— 0.40 

0.34 
0.27 


9-9937031 

9-9937725 
9.9938441 


+28.5 
29.4 
30.2 


h m B 

3 13 34.19 
3 9 38.28 

3 5 42-37 


4 

5 
6 


35 

36 

37 


315 30 28.6 

316 31 17.2 

317 32 4.8 


30 5-4 

30 53-9 

31 41-3 


152.04 
152.00 
151.96 


— 0.18 

— 0.06 
+ 0.06 


9-9939175 
9.9939926 

9.9940690 


+30.9 
3Z.6 

32.2 


3 I 46.46 

2 57 50.55 
2 53 5464 


7 

8 

9 


38 

39 
40 


318 32 51.5 

319 33 37.0 

320 34 21.3 


32 27.9 

33 13-3 
33 57-4 


151.92 
151.87 
151.82 


+ 0.20 
0.32 
0.44 


9.9941469 
9.9942261 
9.9943065 


+32.7 
33-2 

33.7 


2 49 58.73 
2 46 2.82 
2 42 6.91 


lO 

II 

12 


41 
42 

43 


321 35 4-3 

322 35 45-9 

323 36 26.1 


34 40-3 

35 21.8 

36 1.8 


151.76 
151.70 
151.64 


+ 0-55 
0.63 

0.68 


9.9943881 
9.9944707 

9-9945542 


+34-2 
34.6 

35-0 


2 38 11.00 
2 34 15.10 
2 30 19.19 


13 
15 


44 

45 
46 


324 37 4-8 

325 37 417 

326 38 16.9 


36 40.4 

37 17.2 
37 52.3 


151.57 
151.50 

151-43 


+ 0.71 
0.70 
0.67 


9.9946390 
9.9947248 
9.99481 19 


+35-5 
36.0 

36.5 


2 26 23.28 
2 22 27.37 
2 18 31.46 


i6 

17 

i8 


47 
48 

49 


327 38 50.4 

328 39 22.0 

329 39 51-8 


38 25.6 

38 57-1 

39 26.8 


151.36 
151-28 
151.20 


+ 0.60 
0.51 
0.40 


9.9949001 
9.9949897 
9.9950807 


+37-0 

37-6 
38.2 


2 14 35-55 
2 10 39.64 

2 6 43.74 


19 

20 
21 


50 
51 
52 


330 40 19.8 

331 40 45.8 

332 41 lO.I 


39 54-7 

40 20.6 

40 44.7 


151. 12 
151.05 
150-97 


+ 0.28 

0.14 

-f- 0.0 1 


9-9951733 
9.9952676 

9-9953635 


+38.9 
39.6 

40.3 


2 2 47.83 
I 58 51.9a 
I 54 56.01 


22 
23 
24 


53 

54 
55 


333 41 32.4 

334 41 52.9 

335 42 11.6 


41 6.9 
41 27.3 
41 45.9 


150.90 
150.82 
150.75 


— 0.12 
0.24 

0.34 


9.995461 1 
9-9955606 
9-9956621 


+41. X 
41,9 
42.7 


I 51 0.10 
I 47 4.20 
I 43 8.29 


25 
26 

27 

28 


56 
57 
58 

59 


336 42 28.5 

337 42 43-8 

338 42 57-3 

339 43 9-2 


42 2,7 
42 17.9 

42 31-3 
42 43-1 


150.67 
150.60 
150.53 

150-46 


— 0.42 
0.46 
0.48 
0.47 


9-9957652 
9.9958703 

9.9959772 

9.9960858 


+43 4 
44.2 

44-9 
45.6 


I 39 12.38 
I 35 16.47 
I 31 20.56 
I 27 24.66 


29 


60 


340 43 19.5 


42 53-3 


150.40 


-0.43 


9.9961959 


+46,2 


X 23 28.75 


NOT] 


L— The n 
•qn 


tumbars in column A c 
inox of January o^xx 


correspond to U 


le true eqnii 


aoz of the data; 


in column X' to 


the moan 


Diff. for X Hour, 
— 9«.8296. 
(Table ID 



IV. 



FEBRUARY, 1899. 



23 









GREENWICH 


MEAN TIME. 








i 








THE MOON'S 








- 


o 

1 


SBMIDIAMBTER. 


HORIZONTAL PARALLAX. 


UPPER TRANSIT. 


AGB. 


Noon. 


Midnight 


Noon. 


Diff. foi 
X Hour. 


Midnight 


Diflf.for 
z Hour. 


Meridian of 
Greenwich. 


Diif. for 
1 Hour. 


Moon. 


I 

3 

3 


9 m 
15 16.3 

15 27.3 

15 39-8 


» m 
15 21.5 

15 33-4 
15 46.5 


f m 

55 56.0 

56 36.4 

57 22.5 


• 

+1.55 
1.80 

2.02 


• 

56 15.4 
56 58.8 

57 47-2 


m 

+1.68 
X.92 
2.09 


h m 

16 35.1 

17 24.0 

18 17.I 


m 
X.96 

2.12 

2.30 


d 
20.5 

21.5 
22.5 


4 

5 
6 


15 535 

16 7-5 
16 20.8 


16 0.5 
16 14.4 
16 26.8 


58 12.7 

59 4-2 
59 53.2 


+2.13 
2.X2 
Z.90 


58 38.5 

59 29.4 

60 15.1 


+2.15 
2.04 

1-73 


19 14.4 

20 15.3 

21 17.8 


2.47 

2.58 
2.61 


235 
24-5 

25-5 


7 
8 

9 


16 32.1 
16 39.9 
16 43.0 


16 36.5 
16 42.1 
16 42.6 


60 34.6 

61 3.1 
61 14.5 


+X.48 

0.85 

+0.08 


60 S0.7 

61 1 1.2 
61 13.0 


+i.x8 
+0.48 

-0.33 


22 19.7 

23 19.3 
6 


2-54 
2.42 


26.5 

27-5 
28.5 


lO 

II 

12 


16 40.8 

16 33-5 
16 22.0 


16 37.8 
16 28.2 
16 15.1 


61 6.6 
60 39.8 

59 57-5 


-0.73 
X.46 
2.01 


60 55.4 
60 20.3 

59 32.1 


— X.XI 

X.76 

2.20 


15.8 

1 9.4 

2 0.8 


2.29 

2.18 
2.X1 


0.1 
I.I 
2.1 


13 
H 
15 


16 7.6 

15 51-9 
15 36.3 


15 59.8 

15 44-1 
15 29.0 


59 4-7 
58 7.0 

57 9.8 


2.42 
2.31 


58 36.1 

57 38.1 
56 42.7 


-2.40 
2.38 
2.19 


2 SI-O 

3 40-8 

4 31-0 


2.08 
2.08 
2.Z0 


3-1 
4.1 

5.1 


i6 

17 
i8 


15 22.0 

15 9-7 
14 59-7 


15 i5'5 
15 4-4 
14 55.8 


56 17-2 
55 31-8 
54 55-3 


-2.05 
I.7I 
1.32 


55 53-4 
55 12.4 

54 40-7 


-X.89 
X.52 
X.I2 


5 21.7 

6 12.8 

7 3-9 


2. 12 

2. 13 
2.X2 


6.1 

7.1 
8.1 


19 

20 
21 


14 52.4 

H 47-7 
H 45-4 


14 49.7 
14 46.2 

14 45-1 


54 28.5 

54 "•! 
54 2.6 


-0.92 

0.53 

-0.18 


54 18.6 
54 5.8 
54 1-4 


-0.72 

0-35 
—0.03 


7 54-3 

8 43-4 

9 30-7 


2.08 
2.01 
X.93 


9.1 
10.1 
ii.i 


22 

23 
24 


14 45-2 
14 46.9 
14 50.1 


14 45.8 
14 48.3 

14 52.3 


54 2.0 
54 8.2 
54 20.1 


+0.12 
0.38 
0.60 


54 4-3 
54 13-5 
54 27.9 


-fo.26 
0.50 
0.69 


10 16.0 

10 59.6 

11 42.0 


X.85 
X.79 

1-75 


12.1 
13.1 
14.1 


25 
26 

27 

28 


14 54-7 

15 0.2 

15 6.7 
15 H-o 


14 57.3 

15 3-3 
IS 10.3 

15 18.0 


54 36.7 

54 57-1 

55 20.9 

55 47.9 


+0.78 
0.92 
1.05 

x.z8 


54 46.5 

55 8.6 

55 34-0 

56 2.4 


+0.85 
0.99 

Z.X2 
1.25 


12 23.8 

13 5.8 

13 48.8 

14 33-8 


1-74 
x.76 

1.83 

Z.92 


151 
16.1 

17.1 

18.1 


29 


15 22.2 


IS 26.6 

• 


56 17.8 


+1.31 


56 33-9 


+X.37 


15 21.5 


2.o6 


ig.x 



24 



FEBRUARY, 1899. 



V. 



GREENWICH MEAN TIME. 



THE MOON'S RIGHT ASCENSION AND DECLINATION. 



HOVa 



O 

z 

2 

3 

4 

5 
6 

7 
8 

9 

lO 

II 

12 

13 

14 

15 
i6 

I? 
i8 

19 

20 
21 
22 

23 



O 

I 
2 

3 

4 

5 
6 

7 
8 

9 

lO 

II 

12 

13 

14 

15 
i6 

17 
i8 

19 

20 
21 
22 

«3 
24 



Right 
AmmosIoil 



DifLfor 
z Minute. 



DecUnmtloiL 



DiflE.for 
X Minute. 



Hour, 



WEDNESDAY i. 



h 

:z 

\z 

\2 



50 
52 

54 



:2 56 
:2 58 



3 
3 
3 
3 
3 
3 
3 
3 
3 
3 
3 
3 
3 
3 
3 
3 
3 
3 
3 



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 



o 

2 

4 
6 

8 

10 

12 

14 
16 

18 

20 

22 

24 
26 

28 

30 
32 
34 
37 



39 

41 
43 
45 
47 
49 
51 
54 
56 
58 
o 
2 

4 

7 

9 
II 

13 

15 

18 

20 

22 

24 
26 
29 

31 



■ 

11.50 


8 
1.9833 


S.io 


58 38.7 


10.57 


X.98^ 




10 34.2 


9.90 


1.99" 




22 27.3 


9.50 


1.9956 




34 18.0 


9.37 


2.0008 




46 6.3 


9.52 


2.0049 




57 52.1 


9.96 


2.0097 


12 


9 35.3 


10.68 


3.0X44 


12 


21 15.8 


11.69 


3.0x92 


12 


32 53.6 


12.99 


3.0243 


12 


44 28.7 


14.59 


3.039Z 


12 


56 0.9 


16.48 


a.Q34S 


13 


7 30.3 


18.69 


3.0399 


13 


18 56.7 


21.20 


3.0M4 


13 


30 20.1 


24.02 


2.0497 


13 


41 40.4 


27.16 


3.0549 


13 


52 57.5 


30.61 


3.0602 


14 


4 ".4 


34.39 


8.0657 


14 


15 22.0 


38.49 


8.07XX 


14 


26 29.3 


42.92 


3.0766 


14 


37 33.2 


47.68 


3.082s 


14 


48 33.6 


52.78 


8.0B77 


14 


59 30.4 


58.21 


a.0934 


15 


10 23.6 


3.99 


3.0992 


S.15 


21 13. 1 



THURSDAY 2. 

5 
5 



10. 12 


8.X05X 


S.I 


16.60 


3.XZ08 




23.42 


3.IXG7 




30.60 


3.1327 


T 


38.14 


3. 1286 




46.03 


2. 1346 




54.29 


3.X407 




2.92 


3.X469 




11.92 


8.I531 




21.29 


2. 1592 




31.03 


a. 1655 




41.15 


3.1718 




51.65 


8. 1782 




2.53 


3. 1846 




13.80 


3.1910 




25.45 


3. 1974 




37.49 


2. 2039 




49.92 


2.2X04 




2.74 


2. 2x70 




15.96 


2.2236 




29.57 


3.3303 




43.58 


3.3368 




57.99 


«.9436 




12.81 


8.3503 




28.02 


8.3569 


S.I 



31 

42 

53 
3 

14 
24 
35 
45 
55 

5 
15 
25 
35 
45 
55 

5 

14 
24 
33 

42 

52 

I 

10 

19 

28 



58.9 
40.8 

18.8 

52.8 

22.8 
48.6 
10.2 
27.6 
40.7 

49.3 

53.4 
530 
48.0 
38.2 
23.6 
4.1 

39.7 
10.2 

35-6 

55.9 
10.9 

20.5 

24.7 

23.4 
16.5 



XX.944 
IX.905 
11.865 
XZ.835 
XI.784 
IX.743 
ZI.698 
ZZ.658 
XZ.607 
ZZ.56X 
XI. 513 
XX.465 
IX.4X5 
XX. 364 
XX. 3x2 
XZ.258 

XX.304 

IX.X49 
11.093 
XI. 036 

10.977 
10. 917 

10.856 

10.794 



10.731 

10.666 
10.600 

XO.533 
10.465 

10.395 
10.325 
10.254 
xo. i8x 
XO.X06 
10.031 

9*955 
9.877 

9.797 
9.7x6 

9.634 

9.551 
9.466 

9.381 

9.294 
9.205 

9.1x5 

9.024 

8.932 

8.837 



Rli^t 



o 

I 
2 

3 

4 

5 
6 

7 
8 

9 
10 

zi 

12 

13 

14 

15 
16 

17 
18 

19 
20 

21 

22 
23 



O 
I 

2 

3 

4 

5 

6 

7 

8 

9 
10 

II 

12 

13 

14 

15 
16 

17 

18 

19 

20 
21 
22 

23 
24 



DifLfor 
X Minute. 



Declination. 



DiflLfor 
X Minute. 



h 

14 
14 
14 
14 
14 
14 
14 
14 
14 
14 
14 
14 
14 
15 
15 
15 
15 
15 
15 
15 
15 
15 
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 
16 
16 



m 
31 
33 
35 
38 
40 
42 

45 
47 
49 
52 

54 
56 

59 

I 

3 
6 

8 

10 

13 

15 

17 
20 

22 
25 



27 

30 
32 
34 
37 
39 
42 
44 
47 
49 
52 

54 
57 

59 

2 

4 

7 

9 
12 

14 
17 
19 

22 

24 
27 



■ 


■ 


28.02 


8.3569 


43.64 


«.a537 


59.67 


8.3705 


16.10 


a.877« 


32.94 


8.3840 


50.18 


8.3908 


7.84 


8.3977 


25.91 


8.9043 


44.38 


8.31x3 


3.27 


8.3183 


22.57 


8.3850 


42.27 


3.33x8 


2.39 


a. 3387 


22.92 


a. 3456 


43.86 


a. 3524 


5.21 


a. 359a 


26.97 


2.366X 


49.14 


a.37a9 


11.72 


a. 3797 


34.70 


8.3864 


58.09 


8.393a 


21.89 


3.3999 


46.08 


8.4066 


10.68 


a. 4133 



FRIDAY 3. 
• 

S.19 28 

19 37 
19 45 

19 54 

20 2 

20 II 
20 19 
20 27 

20 35 

20.43 
20 51 

20 59 

21 7 
21 14 
21 22 
21 29 
21 36 

21 43 
21 50 

21 57 

22 4 

22 10 

22 17 
S.22 23 

SATURDAY 4, 

S.22 30 

22 36 
22 42 
22 47 
22 53 

22 59 

23 4 
23 10 

23 15 
23 20 

23 25 
23 29 

23 34 
23 38 
23 43 
23 47 
23 51 
23 55 

23 59 

24 2 

24 6 

24 9 
24 12 

24 15 
S.24 18 



35.68 


8.4300 


1.08 


8.4266 


26.87 


a.4331 


53.05 


a. 4397 


19.63 


8.4462 


46.60 


2.4587 


13.95 


3.4590 


41.68 


3.4654 


9.80 


a.4717 


38.29 


a.4779 


7.15 


a. 484a 


36.39 


8.4903 


5.99 


a.4964 


35.96 


8.5024 


6.28 


t.5083 


36.96 


8.514a 


7-99 


3.5200 


39.36 


3.5857 


11.07 


8.53x3 


43.12 


3.5369' 


15.50 


3.5434 


48.21 


8.5477 


21.23 


a. 5530 


54.57 


a.5582 


28.22 


8.56H 



16.5 

3.9 
45.6 

21.5 

&I.4 
15.3 
33.2 

44.9 
50.4 
49.5 
42.3 
28.5 

8.1 
41. 1 

7.4 
26.8 

39.3 
44.8 

43-2 

34.5 

18.5 

55.2 
24.5 
46.3 



0.5 

7.0 

5.8 
56.8 

39.8 
14.9 
41.9 

0.7 
11.3 
13.5 

7.4 

52.8 

29.7 
58.0 

17.5 
28.3 

30.3 

23.3 
7.3 

42.3 
8.2 

24.8 

32.2 

30.2 

18.9 



8.837 

••743 
8.647 
8.548 
8.448 
8.348 
8.847 
8.X43 
8.038 

7.93a 
7.835 

7.7x5 
7.605 

7.494 
7.381 
7.866 
7.X50 
7.93a 
6.9x4 

6.794 
6.672 
6.550 
6.486 
6.900 



6.X7S 
6.044 

5.9x5 
5.783 
5.631 

5.5x7 
5.382 

5.845 

5.X07 

4.967 
4.887 
4.6B6 

4.54s 

4.398 

4*853 

4.X07 

5.958 
3.80B 

9.658 

S.507 
3.354 

3.800 

3.045 
■.889 

••738 



VL 



FEBRUARY, 1899. 



25 









GREENWICH 


MEAN 


TIME. 








TH£ MOON'S RIGHT ASCENSION AND DECLINATION. 


Honr. 


Right 


DifLfor 


DecUnadoxL 


Diff.for 


Hoar. 




Right 


Diff.for 


Declination. 


DifLfor 


AA^^wta ■ 


Atceasion. 


z Minata. 




x Minute. 




▲scensioa 


X Minute. 




z Minute. 




c 


JUNDA^ 


irs. 








TUESDAY 7. 






h m ■ 


B 


• f 


m 




h 


m ■ 


B 


• 9 w 


m 


O 


i6 27 28.22 


S.S634 


8.24 z8 18.9 


8.738 





18 


34 5.85 


8.6607 


s.23 14 17.7 


5.3a5 


z 


z6 30 2. 18 


8.5684 


24 20 58.1 


8.573 


z 


18 


36 45.45 


8.659a 


23 8 41.0 


3.697 


2 


16 32 36.43 


a. 5733 


24 23 27.7 


8.414 


a 


18 


39 24.96 


a. 6577 


23 2 54.1 


5.868 


3 


16 35 10-97 


a.578x 


24 25 47.8 


8.854 


3 


18 


42 4.38 


8.656a 


22 56 56.8 


6.040 


4 


16 37 45«8o 


a. 5827 


24 27 58.2 


8.098 


4 


18 


44 43.70 


8.6544 


22 50 49.3 


6.8x0 


5 


16 40 20.90 


a.5»73 


24 29 58.9 


X.930 


5 


18 


47 22.91 


8.6385 


22 44 31.6 


6.379 


6 


16 42 56.28 


a. 5918 


24 31 49.8 


1.767 


6 


x8 


50 2.00 


8.6505 


22 38 3.8 


6.548 


7 


16 45 31-93 


a. 596a 


24 33 30.9 


Z.608 


7 


18 


52 40.97 


a. 6484 


22 31 25.8 


6.7x7 


8 


16 48 7.82 


a. 6004 


24 35 2.1 


1.437 


8 


18 


55 19.81 


8.6468 


22 24 37.8 


6.883 


9 


16 50 43-97 


8.6046 


24 36 23.4 


1.278 


9 


18 


57 58.52 


8.6439 


22 17 39.8 


7.049 


lO 


16 53 20.37 


a. 6086 


24 37 34.7 


Z.I05 


10 


19 


37.08 


8.64x4 


22 10 31.9 


7.8x5 


II 


16 55 57.00 


a.6ia4 


24 38 36.0 


0.937 


II 


19 


3 15-49 


8.6388 


22 3 14.0 


7.380 


12 


16 58 33.86 


a.6z6a 


24 39 27.2 


0.769 


12 


19 


5 53.74 


8.6362 


21 55 46.3 


7.543 


13 


17 I 10.95 


a. 6x99 


24 40 8.3 


0.600 


13 


19 


8 31.83 


a. 6333 


21 48 8.9 


7.705 


14 


17 3 48.25 


a.6a53 


24 40 39.2 


0.430 


14 


19 


II 9.74 


8.6304 


21 40 21.7 


7.867 


15 


17 6 25.75 


a. 6267 


24 40 59.9 


0.259 


15 


19 


13 47.48 


8.6275 


21 32 24.9 


8.037 


i6 


17 9 3.46 


8.6301 


24 41 10.3 


-0.087 


16 


19 


16 25.04 


8.6244 


21 24 18.5 


8.X85 


17 


17 II 41.36 


8.6338 


24 41 10.4 


40.084 


17 


19 


19 2.41 


8.6212 


21 16 2.7 


8.348 


i8 


17 14 19.44 


8.6368 


24 41 0.2 


0.856 


18 


19 


21 39 58 


8.6x78 


21 7 37.4 


8.499 


19 


17 16 57.70 


8.6390 


24 40 39.7 


0.429 


19 


19 


24 16.55 


8.6x44 


20 59 2.8 


8.654 


20 


17 19 36.12 


8.64x7 


24 40 8.7 


0.603 


20 


19 


26 53.31 


8.6x09 


20 50 18.9 


8.808 


21 


17 22 14.71 


8.6444 


24 39 27.3 


0.777 


21 


19 


29 29.86 


8.6074 


20 41 25.8 


8.96X 


22 


17 24 53.45 


a. 6468 


24 38 35.5 


0.951 


22 


19 


32 6.20 


a. 6037 


20 32 23.6 


9.XI8 


23 


17 27 32.33 


8.6498 


S.24 37 33.2 


1. 196 


23 


19 34 42.31 1 


a. 5999 


S.20 23 12.4 


9.a6a 




]y 


lONDA 


y 6. 








WE 


DNESD 


>AY 8. 




O 


17 30 11.35 


8.65x4 


S.24 36 20.4 


t«9oz 





19 37 18.19 


8.5961 


S.20 13 52.2 


9.410 


z 


17 32 50.50 


8.6534 


24 34 57.1 


1.477 


I 


19 


39 53.84 


8.59aa 


20 4 23.2 


9.557 


2 


17 35 29.76 


8.6558 


24 33 23.2 


X.653 


a 


19 


42 29.26 


a. 5888 


19 54 45-3 


9.703 


3 


17 38 9.13 


8.6570 


24 31 38.7 


Z.830 


3 


19 45 4.43 


8.5848 


19 44 58.8 


9.847 


4 


17 40 48.60 


8.6586 


24 29 43.6 


8.006 


4 


19 


47 39.36 


8.580X 


19 35 3.7 


9.990 


5 


17 43 28,16 


8.6601 


24 27 38.0 


8.z8a 


5 


19 


50 14.04 


a. 5759 


19 25 0.0 


X0.Z3X 


6 


17 46 7.81 


8.66x4 


24 25 21.7 


8.359 


6 


19 


52 48.47 


8.5717 


19 14 48.0 


XO.870 


7 


17 48 47-53 


a. 6625 


24 22 54.9 


8.536 


7 


19 


55 22.64 


a. 5673 


Z9 4 27.6 


XO.408 


8 


17 51 27.31 


8.6^6 


24 20 17.4 


8.713 


8 


19 


57 56.55 


8.5639 


18 53 59.0 


10.545 


9 


17 54 7.16 


8. 6645 


24 17 29.3 


8.890 


9 


20 


30.19 


8.5585 


18 43 22.2 


10. 680 


lO 


17 56 47.05 


8.6658 


24 14 30.6 


3.067 


10 


20 


3 3.57 


8.5541 


18 32 37.4 


xo.8x2 


II 


17 59 26.99 


8.6659 


24 II 21.2 


3.844 


ZI 


20 


5 36.68 


a. 5495 


18 21 44.7 


10.943 


12 


18 2 6.96 


8.6663 


24 8 1.3 


S.4ax 


12 


20 


8 9.51 


a. 5449 


18 10 44.2 


xx.073 


13 


18 4 46.95 


3.6666 


24 4 30.7 


3.598 


13 


20 


10 42.07 


8.5403 


17 59 36.0 


zx.aox 


14 


18 7 26.95 


a. 6667 


24 49.5 


3.775 


14 


20 


13 14.35 


a. 5357 


17 48 20.1 


11.337 


15 


18 10 6.96 


8*6667 


23 56 57.7 


3.958 


15 


20 


15 46.35 


8.5310 


17 36 56.7 


11.45a 


i6 


18 12 46.96 


8.6666 


23 52 55.3 


4.187 


16 


20 


18 18.07 


8.5268 


17 25 25.9 


11.574 


17 


18 15 26.95 


8.66^ 


23 48 42.4 


4-303 


17 


20 


20 49.50 


a.5ai4 


17 13 47.8 


11.695 


i8 


18 18 6.92 


a.6659 


23 44 18.9 


4.479 


18 


20 


23 20.64 


•.5167 


17 2 2.5 


ZZ.8Z4 


19 


18 20 46.86 


8.6654 


23 39 44.9 


4.654 


19 


20 


25 51.50 


8.5119 


16 50 10. 1 


11.931 


20 


18 23 26.76 


«.6647 


23 35 0.4 


4.829 


20 


20 


28 22.07 


8.5070 


z6 38 10.8 


IS. 046 


21 


18 26 6.62 


8.6639 


23 30 5-4 


5.004 


21 


20 


30 52.34 


S.508Z 


16 26 4.6 


Z8«Z60 


22 


18 28 46.43 


8.6689 


23 24 59-9 


5.178 


22 


20 


33 22.32 


s.497a 


16 13 51.6 


18.878 


33 


18 31 26.17 


8.66x8 


23 19 44.0 


5.35a 


23 


20 


35 52.01 


8.4933 


16 I 31.9 


Z8.382 


1 24 


18 34 5.85 


8.6607 


S.23 14 17.7 


5.525 


24 


20 


38 21.40 


a. 4874 


S.15 49 5.8 


X8.488 



26 



FEBRUARY, 1899. 



VII. 











GREENWICH 


MEAN 


TIME. 








THE MOON'S RIGHT ASCENSION AND DECLINATION. 


Hoar. 




Right 


Diff.for 


Declinadon. 


DifF. for 


Hour. 




Risht 


Diff.for 


niM.|Sitaf«^ff|^ 


Diff.for 




Atcensioa. 


X Minate. 




X Minute. 




Anrenmon. 


X Minate. 




I Minute. 






Tl 


iURSD 


AY 9. 








SATURDAY 11. 






h 


m B 


B 


• • • 


m 




h 


m a 


8 


• • • 


» 


O 


20 


38 21.40 


•.4874 


S.I5 49 5.8 


13.488 





22 


32 18.06 


3.3735 


S. 4 23 4.4 


15.334 


I 


20 


40 50.50 


t.4825 


15 36 33.3 


xa.595 


I 


22 


34 34.31 


3.3693 


4 7 44-0 


15.345 


2 


20 


43 19-30 


a. 4776 


15 23 54-4 


Z8.700 


2 


22 


36 50.36 


a.a657 


3 52 23.0 


15.S54 


3 


20 


45 47-81 


a.47a7 


15 II 9-3 


Z3.8oa 


3 


22 


39 6.20 


a. 3634 


3 37 1.5 


15.363 


4 


20 


48 l6.02 


8.4677 


14 58 18.2 


13.901 


4 


22 


41 21.85 


8.3598 


3 21 39.6 


15.368 


5 


20 


50 43-93 


a.4627 


14 45 21.2 


13.999 


5 


22 


43 37-31 


a. 3560 


3 6 17-3 


15.37s 


6 


20 


53 11-54 


a. 4577 


14 32 18.3 


13.096 


6 


22 


45 52.57 


8.3598 


2 50 54.8 


15.376 


7 


20 


55 38.86 


a. 45*8 


14 19 9.7 


13.190 


7 


22 


48 7.65 


8.8497 


2 35 32.2 


15.377 


8 


20 


58 5-88 


«.4478 


14 5 55-5 


X3.383 


8 


22 


50 22.54 


3.3467 


2 20 9.6 


15.376 


9 


21 


32.60 


a.44«8 


13 52 35-9 


IS. 37a 


9 


22 


52 37.25 


8.3437 


2 4 47.1 


15.373 


10 


21 


2 59.02 


a. 4379 


13 39 10.9 


13.460 


10 


22 


54 51.79 


3. 3408 


I 49 24.8 


15.367 


II 


21 


5 25-15 


a. 4330 


13 25 40.7 


13.546 


II 


22 


57 6.15 


8.3379 


I 34 2.9 


15.36a 


12 


21 


7 50.98 


a.4a8i 


13 12 5-4 


13. 630 


12 


22 


59 20.34 


3,335a 


I 18 41.4 


15.354 


13 


21 


10 16.52 


3.4333 


12 58 25.1 


13.71a 


13 


23 


I 34-37 


a. 3335 


I 3 20.4 


15.344 


H 


21 


12 41.76 


a.4zS3 


12 44 39-9 


13.79a 


14 


23 


3 48.24 


3.3398 


48 0.1 


15.333 


15 


21 


15 6-70 


a,4X33 


12 30 50.0 


13.870 


15 


23 


6 1.95 


3.3373 


32 40.4 


i5.3ax 


i6 


21 


17 31-36 


3.4086 


12 16 55.5 


13.947 


16 


23 


8 15.50 


8.3347 


17 21.6 


15.306 


17 


21 


19 55-73 


a.4Q37 


12 2 56.4 


X4.033 


17 


23 


10 28.91 




S. 2 3.7 


15.390 


i8 


21 


22 19.80 


8.3988 


21 48 52.9 


14.093 


18 


23 


12 42.16 


3.3X97 


N. 13 13.2 


15.373 


19 


21 


24 43-59 


t.394Z 


II 34 45.2 


14.163 


19 


23 


14 55.28 


8.3174 


28 29.0 


19.353 


20 


21 


27 7.09 


a. 3893 


II 20 33.4 


14.331 


20 


23 


17 8.25 


a. 3151 


43 43-6 


15.333 


21 


21 


29 30.31 


a. 3847 


II 6 17.5 


14.397 


21 


23 


19 21.09 


3.3138 


58 56.9 


15.309 


22 


21 


31 53-25 


a.iJ799 


10 51 57.7 


14.361 


22 


23 


21 33.79 


3.3107 


I 14 8.7 


15.185 


23 


21 


34 15.90 
i 


a. 375a 

•RIDAT^ 


S.io 37 34.2 
' 10. 


14.433 


23 


23 


23 46.37 
S 


a.aoe6 

UNDA\ 


N. I 29 19. 1 
' 12. 


19.160 


O 


21 


36 38.28 


3.3707 


S.IO 23 6.9 


14.484 





23 25 58.82 


a.ao6s 


N. I 44 27.9 


19.138 


I 


21 


39 0.38 


3.s66x 


10 8 36.1 


14.54a 


I 


23 


28 11.15 


8.8046 


I 59 35-0 


13.103 


2 


21 


41 22.21 


3.3615 


9 54 1.9 


14.597 


2 


23 


30 23.37 


8,3087 


2 14 40.3 


13.073 


3 


21 


43 43-76 


a. 3569 


9 39 24.4 


14.653 


3 


23 


32 35-47 


8.3007 


2 29 43.8 


15.C48 


4 


21 


46 5.04 


3.3585 


9 24 43-7 


14.703 


4 


23 


34 47.46 


8.1989 


2 44 45-4 


19.009 


5 


21 


48 26.06 


a. 3481 


9 10 0.0 


X4.753 


5 


23 


36 59-34 


8.1978 


2 59 44-9 


14.974 


6 


21 


50 46.81 


a. 3436 


8 55 13.3 


14.80a 


6 


23 


39 II. 12 


8.1955 


3 14 42.3 


14.938 


7 


21 


53 7-29 


3.339a 


8 40 23.8 


14.848 


7 


23 41 22.80 


3.1938 


3 29 37.5 


14.900 


8 


21 


55 27.52 


8.3350 


8 25 31.6 


14.89a 


8 


23 


43 34-38 


8.1933 


3 44 30.3 


14.861 


9 


21 


57 47-49 


a.3307 


8 10 36.8 


Z4.93S 


9 


23 45 45-87 


a. 1907 


3 59 20.8 


14.833 


lO 


22 


7.20 


3.3364 


7 55 39.6 


«4.973 


10 


23 


47 57-27 


a. 1893 


4 14 8.9 


14.780 


II 


22 


2 26.66 


a. 3333 


7 40 40.0 


13. 018 


XI 


23 


50 8.58 


a. 1878 


4 28 54.4 


14.736 


12 


22 


4 45-87 


8.3x8a 


7 25 38.2 


15.048 


12 


23 


52 19.81 


a.1866 


4 43 37-2 


14.691 


X3 


22 


7 4-84 


3.3x41 


7 10 34.3 


15. 08a 


13 


23 


54 30.97 


a. 1853 


4 58 17.3 


14.646 


14 


22 


9 23.56 


3.3x00 


6 55 28.4 


1S.XX4 


14 


23 


56 42.05 


a. 1840 


5 12 54-7 


14.599 


15 


22 


II 42.04 

0^ 


a.3060 


6 40 20.6 


»5.I45 


15 


23 


58 53.05 


8.1838 


5 27 29.2 


14.550 


i6 


22 


14 0.28 


S.303Z 


6 25 II. 


15.173 


16 





I 3-99 


8.1817 


5 42 0.7 


14.500 


17 


22 


16 18.29 


3.8983 


6 9 59.8 


15.800 


17 





3 14.86 


8.1807 


5 56 29.2 


14.449 


i8 


22 


18 36.07 


8.3944 


5 54 47.0 


IS. 885 


18 





5 25.67 


8.1797 


6 10 54.6 


14*397 


19 


22 


20 53.62 


8.3907 


5 39 32.8 


SS.847 


19 





7 36.42 


8.1787 


6 25 16.8 


14.543 


20 


22 


23 10.95 


8.8860 


5 24 17.3 


XS.868 


20 





9 47.12 


8.1779 


6 39 35.7 


14.888 


21 


22 


25 28.05 


8.3833 


5 9 0.6 


19.397 


21 





II 57.77 


8.X770 


6 53 51.3 


M.838 


22 


22 


27 44-94 


8.9797 


4 53 42.8 


19.304 


22 





14 8.36 


8.176a 


7 8 3.5 


14.174 


23 


22 


30 1. 61 


3*3760 


4 38 24.1 


15.380 


23 





16 18.91 


8.1755 


7 22 12.2 


14.115 


24 


22 


32 18.06 


•.«7«5 


S. 4 23 4.4 


15.334 


24 





18 29.42 


8.1748 


N. 7 36 17.3 


14-099 



vm. 



FEBRUARY, 1899. 



27 



GREENWICH MEAN TIME. 



THE MOON'S RIGHT ASCENSION AND DECLINATION. 



Hour. 



I 



O 
I 
2 

3 

4 

5 
6 

7 
8 

9 

lO 

II 

12 

13 

15 
i6 

^7 
l8 

19 

20 
21 
22 
23 



O 
I 
2 

3 

4 

5 
6 

7 

8 

9 
lo 

IX 
12 

13 

14 

15 
i6 

17 
18 

19 
20 

21 

22 

23 

24 



Right 
Ascension. 



DiflCfor 
z Minnta. 



Declination. 



Diff.for 
X Minute. 



h 
O 

o 
o 
o 
o 
o 
o 
o 
o 
o 
o 
o 
o 
o 
o 
o 
o 
o 
o 
o 
I 
I 
z 
z 



m 
z8 
20 

22 

25 

27 

29 
31 

33 
35 
38 
40 
42 

44 
46 

48 
51 
53 
55 
57 

59 

I 

4 
6 

8 



B 
29.42 

39-89 

50- 3« 
0.72 

zz.09 

21.43 

31.74 
42.04 

52.31 
2.57 

Z2.8l 

23.05 
33.27 
43.49 
53.71 
3.93 
14.15 

24.38 

34.61 

44.86 

55.11 

5.38 

15.66 

25.97 



MONDAY Z3. 

N. 



B 
8.1748 

3.Z74S 
8.1736 

a.i73x 
8.1736 

8.Z78I 

8.27x7 
8.27x4 
8.X7ZZ 

8.1708 
a. 1707 
8.1705 

8.I7Q3 

a.i7<^ 
8.1703 
3.X703 

8. 1704 

8.1705 
8.X707 

8.X70B 
a. 17x0 
2. 1718 
8. 1716 

8. 17x9 



N. 



10 
12 

14 

17 

19 
21 

23 
25 
27 
30 
32 

34 
36 
38 
41 
43 
45 
47 
49 
51 
54 
56 
58 
2 o 
2 2 



TUESDAY 



N. 



36.29 


8.x78a 


46.64 


8.X787 


57.01 


8.1731 


7.41 


8.1736 


17.84 


8.1740 


28.29 


8. 1745 


38.78 


8.1751 


49.30 


8.1757 


59.86 


8.1763 


10.46 


8.1769 


21.09 


8.1775 


31.76 


8. 1783 


42.47 


a. 1789 


53.23 


3.1797 


4.03 


8.1803 


14.87 


8.181X 


25.76 


8.x8z9 


36.70 


8.1837 


47.69 


8.Z836 


58.73 


a.x844 


9.82 


8.1853 


20.96 


8.1863 


32.16 


a. 1871 


43.41 


8.1879 


54.71 


8.1888 



N, 



36 
50 

4 
z8 

8 32 

8 45 

8 59 

9 13 
26 

40 

53 
6 

20 

33 
46 
59 

12 

25 

38 
51 

3 
16 

28 
41 



9 

9 

9 
o 

o 

o 

o 

o 



2 

3 
3 
3 
3 

3 

4 

4 

4 

4 

4 

5 

5 

5 

5 

5 

5 
6 

6 

6 

6 

6 

7 
7 
7 



53 

5 

18 

30 
42 
54 
5 
17 
29 
40 

52 
3 

14 
25 
36 

47 

58 

9 
20 

30 

41 

51 

I 

12 

22 



17.3 

18,8 

16.6 

10.7 

0.9 

47.2 

29.5 

7.8 

42.0 

12.0 

37.7 

59.1 
l6.2 

28.9 

37.0 

40.6 

39.5 
33.8 

23.4 

8.2 

48.1 
23.1 

53.1 

l8.2 



38.1 
52.9 

2.6 

7.1 

6.3 

O.I 

48.6 

31.6 

9.1 

41. 1 

7.6 

28.4 

43.5 

52.9 
56.6 

54.5 
46.5 
32.7 

12.9 

47.1 

15.3 

37.4 

53.5 

3.4 

7.1 



X4.055 

K3.994 
13.933 

13.869 
13.804 

X3.738 
13.673 

13.604 
13.535 
13.464 

13.39a 
X3.33X 
X3.348 
X3.I73 
13.097 

X3.03X 

13.943 
X3.866 

X3.787 
X3.7o6 
13.634 
xa.543 
13.459 
W.S75 



13.889 

X3.304 
13.118 
Z8.031 

11.943 
11.853 
11.763 
11.671 

11.579 
11.487 

ZX.394 
11.299 
XX.3O4 
11.109 
11.013 
10.916 

10.8x8 
10.720 
io.6ao 
10.530 
X0.4X9 
zo.3i8 
10.317 
10.113 

10. 010 



Hour, 



O 

Z 
2 

3 

4 

5 
6 

7 
8 

9 

10 

II 
12 

13 

14 

15 
16 

17 

18 

19 
20 

21 

22 

23 



o 
I 
2 

3 

4 

5 
6 

7 

8 

9 
10 

II 

12 

13 
14 

15 

16 

17 
18 

19 
20 

21 

22 

23 
24 



Right 
Ascension. 



Diff.for 
1 Minute. 



Declination. 



WEDNESDAY zs. 



h 

2 
2 

a 
2 

2 
2 
2 

2 
2 
2 
2 
2 
2 
2 
2 
2 
2 



2 

5 

7 

9 
zi 

13 
16 

18 

20 

22 

24 
27 
29 
31 
33 
35 
38 



2 40 
2 42 

44 

46 

49 
51 
53 



2 

2 
2 

2 

2 



2 55 

2 57 

3 o 



3 
3 
3 
3 
3 
3 
3 
3 
3 
3 
3 
3 
3 
3 
3 
3 
3 
3 
3 
3 
3 
3 



2 

4 
6 

8 

zi 

13 

15 

17 
20 

22 

24 
26 

28 

31 

33 

35 

37 
40 

42 
44 
46 
48 



B 


B 


• * 


54.71 


a.x888 


N.I7 22 


6.07 


«-x897 


Z7 32 


17.48 


8.1907 


17 41 


28.95 


8. 1916 


17 51 


40.47 


8.1935 


18 Z 


52.05 


3.X935 


z8 10 


3.69 


8.Z944 


18 20 


15.38 


8.1953 


18 29 


27.13 


8.1963 


18 38 


38.94 


a. 1973 


z8 47 


50.81 


3.1983 


18 56 


2.73 


8.1993 


19 5 


14.71 


8.8003 


19 14 


26.75 


3.2018 


19 23 


38.85 


3.3031 


19 31 


51.00 


8.9030 


19 40 


3.21 


8.3039 


19 48 


15.47 


8.2048 


19 56 


27.79 


8.8058 


20 4 


40.17 


8.3067 


20 12 


52.60 


a. 2077 


20 20 


5.09 


a.ao86 


20 28 


17.63 


8.3095 


20 36 


30.23 


a.8103 


N.20 43 


TH 


URSD/ 


lY z6. 


42.87 


8.3112 


N.20 51 


55.57 


8.8180 


20 58 


8.31 


8.3138 


21 5 


21.10 


8.8X37 


21 12 


33.95 


8.8I45 


21 19 


46.84 


3.3158 


21 26 


59.77 


8.3159 


21 33 


12.75 


3.8167 


21 39 


25.78 


3.3174 


21 46 


38.84 


3.3181 


21 52 


51.95 


3.8I88 


21 59 


5.10 


3.3194 


22 5 


18.28 


3.8300 


22 II 


31.50 


3.2206 


22 17 


44.75 


8.3313 


22 22 


58.04 


3.2317 


22 28 


11.36 


8.3323 


22 34 


24.71 


8.3837 


22 39 


38.08 


8.833X 


22 44 


51.48 


8.2236 


22 49 


4.91 


8.3339 


22 55 


18.35 


8.8343 


22 59 


31.82 


8.8347 


23 4 


45-31 


8.8349 


23 9 


58.8Z 


8.3853 


N.23 13 



7.1 

4.6 

55.9 
40.9 

19.6 

51.9 

17.8 

37.3 

50.3 
56.8 

56.8 

50.2 

37.0 

17.2 
50.8 

17.7 

37.9 
51.4 

58. z 

57.9 

51.0 

37.2 

16.5 

49.0 



14.5 
33.1 

44.7 

49.4 
47.0 

37.6 

21. 1 

57.6 
27.0 

49.2 

4.3 
12.3 

13. 1 

6.8 
53.2 
32.5 

4.5 
29.3 

46.8 

57.1 
o.z 

55.9 

44.3 
25.4 

59.3 



Dlitfor 

I Minute. 



10.010 
9.907 
9.803 
9.697 
9*593 
9.485 
9.378 
9.371 
9.168 
9.QS4 
8.945 
8.835 
8,7a5 
8.6z5 

8.504 
8.393 
8.381 
8.Z68 
8.054 
7.94X 
7.837 
7*7X3 
7.598 
7*483 



7*367 
7.353 
7.136 
7.019 
6.903 

6.784 
6.667 
6.549 
6.430 
6.31 X 
6.193 

6.073 
5.954 
5.834 
5.714 
5.594 
5.473 
5.353 

5.838 

5. XXX 

4.990 
4.868 

4.746 
4.625 

4.503 



28 



FEBRUARY, 1899. 



IX 









GREENWICH 


MEAN TIME. 










THE MOON'S RIGHT 


ASCENSION AND DECLINATION.. 




Hour. 


Right 


DifLfor 


Declination. 


Diff. for 


Hoar. 


Rieht 


DifF. for 


Declination. 


Dlff.for 




Ascension. 


X Minnte. 




X Minute. 




Ascensioa 


X Minnte. 




I Minnte. 




I 


•RIDAY 


17. 






SUNDAY 19. 






h m B 


B 


• » 


• 




h m B 


a 


• f m 


m 





3 48 58.81 


S.2S53 


N.23 13 59.3 


4.5<q 





5 35 17.02 


a. 1878 


N.24 29 9.0 


i.SSa 


I 


3 51 ia.33 


2.2353 


23 18 25.8 


4.38X 


I 


5 37 28.20 


a.x853 


24 27 45-5 


1-449 


2 


3 53 25.85 


2.2255 


23 22 45.0 


4.258 


2 


5 39 39.26 


8.X834 


24 26 15. 1 


X.S66 


3 


3 55 39.39 


2.22S7 


23 26 56.8 


4.X36 


3 


5 41 50.21 


3.18x4 


24 24 37.6 


X.6B3 


4 


3 57 52.93 


2.2257 


23 31 1.3 


4.0x3 


4 


5 44 1.03 


3.X794 


24 22 53.2 


l'7S» 


5 


4 6.48 


2.2257 


23 34 58.4 


3.891 


5 


5 46 11.74 


8.X774 


24 21 1.8 


x.gxs 


6 


4 2 20.02 


2.2257 


23 38 48.2 


3.768 


6 


5 48 22.32 


8.X753 


24 19 3.4 


8.030 


7 


4 4 33.57 


2.2258 


23 42 30.6 


3.645 


7 


5 50 32.78 


a. 173a 


24 16 58.2 


a.x44 


8 


4 6 47.12 


2.2258 


23 46 5.6 


S.saa 


8 


5 52 43." 


8. X7XX 


24 14 46.1 


8.859 


9 


4 9 0.66 


2.2256 


23 49 33.3 


3.400 


9 


5 54 53.31 


8.X689 


24 12 27.1 


8.S73 


lO 


4 II 14.19 


2.2254 


23 52 53.6 


3.a77 


10 


5 57 3.38 


3.X667 


24 10 1.3 


8.497 


II 


4 13 27.71 


2.2252 


23 56 6.5 


3.153 


II 


5 59 13.31 


a. 1643 


24 7 28.6 


a.6oz 


12 


4 15 41.22 


8.2251 


23 59 12.0 


3.Q31 


12 


6 I 23.10 


8.X621 


24 4 49.2 


a.7X3 


13 


4 17 54.72 


2.2248 


24 2 10.2 


2.908 


13 


6 3 32.76 


3.X598 


24 2 3.0 


8.827 


14 


4 20 8.20 


2.2245 


24 5 i.o 


a. 785 


14 


6 5 42.28 


a. 1574 


23 59 lo.o 


8.939 


15 


4 22 21.66 


8.2242 


24 7 44.4 


2.662 


15 


6 7 51.65 


8.1550 


23 56 10.3 


3.050 


i6 


4 24 35.10 


2.2237 


24 10 20.4 


8.538 


16 


6 10 0.88 


8.XS26 


23 53 40 


S.x6z 


17 


4 26 48.51 


8.2232 


24 12 49.0 


8.4x6 


17 


6 12 9.96 


a.x5ox 


23 49 5I-0 


S.a7a 


i8 


4 29 1.89 


2.3288 


24 15 10.3 


a.293 


18 


6 14 18.89 


3.1476 


23 46 31.3 


3.383 


19 


4 31 15.25 


2.8333 


24 17 24.1 


3.X69 


19 


6 16 27.67 


8.145X 


23 43 5.0 


3*493 


20 


4 33 28.57 


8.3217 


24 19 30.6 


8.047 


20 


6 18 36.30 


8.1436 


23 39 32.2 


3.603 


21 


4 35 41.85 


2.22XZ 


24 21 29.7 


X.934 


21 


6 20 44.78 


8.X400 


23 35 52.8 


3.7" 


22 


4 37 55.10 


a. 2204 


24 23 21.5 


X.803 


22 


6 22 53.10 


8.1373 


23 32 6.9 


3. 819 


23 


4 40 8.30 
SA 


2.2x97 
.TURDi 


N.24 25 5.9 
^Y 18. 


1.678 


23 


6 25 1.26 
M 


a.x347 

ONDAl 


N.23 28 14.5 
f 20. 


S'9a7 


O 


4 42 21.46 


8.8x89 


N.24 26 42.9 


1.556 





6 27 9.26 


8.X330 


N.23 24 15.6 


4.093 


I 


4 44 34.57 


2.8X83 


24 28 12.6 


X.43S 


I 


6 29 17.10 


a.x293 


23 20 10.3 


4.i4t 


2 


4 46 47.64 


8.8X73 


24 29 34.9 


X.3XX 


2 


6 31 24.78 


•.xa67 


23 15 58.6 


4.848 


3 


4 49 0.65 


8.8X64 


24 30 49.9 


X.X89 


3 


6 33 32.30 


a.x839 


23 II 40.5 


4.354 


4 


4 51 13.61 


2.2x55 


24 31 57.6 


X.067 


4 


6 35 39.65 


8.X2X3 


23 7 16. 1 


4.460 


5 


4 53 26.51 


2.2145 


24 32 58.0 


0.945 


5 


6 37 46.84 


8.XX83 


23 2 45.3 


4.565 


6 


4 55 39.35 


2.2x35 


24 33 51.0 


0.833 


6 


6 39 53.85 


8.1x55 


22 58 8.3 


4.669 


7 


4 57 52.13 


2.8I24 


24 34 36.8 


0.70a 


7 


6 42 0.70 


8.x 137 


22 53 25.0 


4.773 


8 


5 4.84 


8.8XX2 


24 35 15.2 


0.580 


8 


6 44 7.38 


a.xo98 


22 48 35.5 


4.877 


9 


5 2 17.48 


8.8X01 


24 35 46.4 


0.459 


9 


6 46 13.88 


2»ic6g 


22 43 39.8 


4.979 


10 


5 4 30.05 


8.8O89 


24 36 10.3 


0.3S7 


10 


6 48 20.21 


3.X04X 


22 38 38.0 


5.081 


11 


5 6 42.55 


8.8077 


24 36 26.9 


0.8x7 


II 


6 50 26.37 


8.XOX8 


22 is 30.1 


5.x«s 


12 


5 8 54.97 


8.8063 


24 36 36.3 


40.097 


12 


6 52 32.35 


2.0988 


22 28 16.0 


3.885 


13 


5 II 7.31 


2.2050 


24 36 38.5 


-0.O84 


13 


6 54 38.16 


a. 0953 


22 22 55.9 


5.385 


14 


5 13 19.57 


8.3036 


24 36 33.4 


O.X45 


14 


6 56 43.79 


8.0933 


22 17 29.8 


5.485 


15 


5 15 31.74 


8.8088 


24 36 21. 1 


0.364 


15 


6 58 49.24 


8.0893 


22 II 57.7 


9.584 


i6 


5 17 43.83 


8.8007 


24 36 1.7 


0.384 


16 


7 54.51 


8.0864 


22 6 19.7 


9.68s 


X7 


5 19 55.82 


8.I99X 


24 35 35.0 


0.504 


17 


7 2 59.61 


8.0834 


22 35.7 


5.78a 


i8 


5 22 7.72 


8.X976 


24 35 1.2 


o.6aa 


18 


7 5 4.52 


8.0804 


21 54 45.9 


5.879 


19 


5 24 19.53 


a.x959 


24 34 20.3 


0.74a 


19 


7 7 9.26 


8.0774 


21 48 50.2 


5.977 


20 


5 26 31.23 


8.X948 


24 33 32.2 


0.860 


20 


7 9 13.81 


8.0743 


21 42 48.7 


6.073 


21 


5 28 42.84 


8.X936 


24 32 37.1 


0.978 


21 


7 II 18.18 


8.07x3 


21 36 41.5 


6.16B 


22 


5 30 54.34 


8.X908 


24 31 34-8 


x.ogy 


22 


7 13 22.37 


8.0683 


21 30 28.5 


6.864 


23 


5 33 5-74 


8.1890 


24 30 25.4 


X.315 


23 


7 15 26.38 


2.0652 


21 24 9.8 


6.358 


24 


5 35 17.02 


8.X873 


N.24 29 9.0 


1.33* 


24 


7 17 30.20 


a. 0622 


N.2I 17 45.5 


6.45a 



X. 



FEBRUAKY, 1899. 



29 









GREENWICH 


MEAN TIME. 








• 

THE MOON*S RIGHT ASCENSION AND DECLINATION. 


Hour. 


Right 


Diff.tor 


Declination. 


DifCfor 




Hour. 


Right 


DiiLfor 


Declination. 


DifF.tor 




Ascension. 


X Minute. 




I Minute. 




Ascension. 


I Minute. 




I Minute. 




Tl 


JESDA 


Y ax. 






THURSDAY 23. 






h m ■ 


s 


• m 


m 




h m ■ 


■ 


• r 


m 


O 


7 17 30.20 


8.0622 


N.2I 17 45.5 


6.458 





8 53 3.73 


x.9250 


N.X4 31 54.7 


10.199 


z 


7 19 33.84 


8.0598 


21 XI 15.6 


^.546 


Z 


8 54 59.16 


1.9227 


14 21 40.9 


10.061 


2 


7 21 37.30 


8.056Z 


21 4 40.0 


6.639 


2 


8 56 54.45 


1.9202 


14 XI 23.4 


10.322 


3 


7 23 40.57 


8.0530 


20 57 58.9 


6.731 


3 


8 58 49.59 


1.9179 


14 I 2.3 


10.381 


4 


7 25 43.66 


8.0499 


20 51 X2.3 


6.822 


4 


9 44.60 


1.9157 


X3 50 37.7 


XO.440 


5 


7 27 46.56 


8.0468 


20 44 20.2 


6.9x4 


5 


9 2 39.48 


1.9136 


13 40 9.5 


XO.499 


6 


7 29 49.28 


8.0438 


20 37 22.6 


7.004 


6 


9 4 34.23 


1.9x14 


IS 29 37.8 


10.557 


7 


7 31 51.82 


8.Q407 


20 30 19. 7 


7.093 


7 


9 6 28.85 


1.9092 


13 19 2.6 


XO.614 


8 


7 33 54-17 


8.0377 


20 23 XX.4 


7-X83 


8 


9 8 23.34 


1.9071 


13 8 24.1 


XO.670 


9 


7 35 56.34 


8.CQ47 


20 X5 57.7 


7.878 


9 


9 10 17.70 


1.9049 


12 57 42.2 


XO.726 


lO 


7 37 58.33 


8.0316 


20 8 38.8 


7.359 


10 


9 12 XX. 93 


1.9029 


12 46 57.0 


XO.78X 


IX 


7 40 0.13 


8.O884 


20 X 14. 6 


7-447 


XI 


9 14 6.05 


1.9009 


12 36 8.5 


XO.834 


12 


7 42 X.74 


a.o853 


19 53 45.2 


7*533 


12 


9 x6 0.04 


1.8989 


12 25 X6.9 


X0.888 


13 


7 44 3.17 


8.0223 


19 46 10.7 


7.6x8 


13 


9 17 53.92 


1.8970 


12 14 22.0 


10.941 


14 


7 46 4.42 


8.0x93 


19 38 31.0 


7.704 


14 


9 19 47.68 


1.8951 


12 3 24.0 


10.992 


15 


7 48 5.49 


8.0163 


19 30 46.2 


7.789 


15 


9 21 41.33 


1.893a 


XX 52 22.9 


11.044 


i6 


7 50 6.38 


8.0J38 


19 22 56.3 


7.878 


16 


9 23 34.87 


1.8914 


XX 41 18.7 


11.095 


17 


7 52 7.08 


8.0102 


19 15 1.5 


7.955 


17 


9 25 28.30 


1.8896. 


XX 30 X1.5 


XX. 145 


i8 


7 54 7.60 


2.0072 


19 7 1.7 


8.038 


z8 


9 27 21.62 


1.887B 


IX 19 X.3 


11.194 


19 


7 56 7.94 


8.0048 


18 58 56.9 


8. 181 


19 


9 29 14.84 


1.8862 


XI 7 48.2 


11.848 


20 


7 58 8.11 


8.00X8 


18 50 47.2 


8.802 


20 


9 31 7.96 


1.8845 


10 56 32.2 


11.290 


21 


8 8.09 


1.9988 


x8 42 32.7 


8.288 


21 


9 33 0.98 


1.8828 


10 45 13.4 


XX. 337 


22 


8 2 7.89 


1.995s 


18 34 13.4 


8.36a 


22 


9 34 53.90 


1.88x2 


10 33 51.8 


11.382 


33 


8 4 7.52 
WE 


X.99S4 

DNESE 


N.18 25 49.3 
AY 22. 


8.44X 


23 


9 36 46.73 
F 


x.8797 

RIDAY 


N.IO 22 27.5 

24- 


11.428 


o 


8 6 6.98 


Z.989S 


N.18 X7 20.5 


8.5x9 





9 38 39.46 


1.878a 


N.IO II 0.4 


XI.473 


I 


8 8 6.26 


X.9865 


18 8 47.0 


8.597 


z 


9 40 32.11 


1.8767 


9 59 30.7 


XI.517 


2 


8 10 5.36 


X.9836 


18 8.8 


8.^5 


2 


9 42 24.67 


1.8733 


9 47 58.3 


11.562 


3 


8 12 4.29 


X.9807 


17 51 26.0 


8.75a 


3 


9 44 17.15 


1.8739 


9 36 23.3 


11.604 


4 


8 14 3.04 


X.9777 


17 42 38.6 


8.887 


4 


9 46 9.54 


1.8736 


9 24 45.8 


11.646 


5 


8 z6 X.62 


X.9749 


17 33 46.7 


8.903 


5 


9 48 1.86 


1.8713 


9 13 5.8 


IX. 687 


6 


8 18 0.03 


X.9723 


17 24 50.3 


8.977 


6 


9 49 54.10 


1.8701 


9 I 23.4 


XI. 787 


7 


8 19 58.28 


1.9693 


17 15 49.5 


9.05X 


7 


9 51 46.27 


1.8688 


8 49 38.6 


11.767 


8 


8 21 56 35 


1.9665 


17 6 44.2 


9. 184 


8 


9 53 38.36 


1.8677 


8 37 51.4 


XZ.806 


9 


8 23 54.26 


X.9637 


16 57 34-6 


9. 196 


9 


9 55 30.39 


1.8667 


8 26 1.9 


XX.844 


xo 


8 25 52.00 


X.9609 


16 48 20.7 


9.267 


10 


9 57 22.36 


1.8656 


8 14 10. 1 


11.888 


XI 


8 27 49.57 


X.9588 


x6 39 2.5 


9.339 


II 


9 59 14.26 


1.8645 


8 2 16.1 


11.918 


12 


8 29 46.98 


X.9S55 


16 29 40.0 


9.4x0 


12 


10 I 6.X0 


1.8636 


7 50 X9.9 


11.954 


13 


8 31 44.23 


X.9528 


x6 20 13.3 


9.479 


13 


xo 2 57.89 


1.8627 


7 38 21,6 


XI.989 


14 


8 33 41.32 


1.9502 


16 xo 42.5 


9.547 


14 


10 4 49.62 


1.8617 


7 26 21.2 


12.024 


15 


8 35 38.25 


X.9475 


16 I 7.6 


9.6x6 


15 


xo 6 41.29 


1.8608 


7 14 18.7 


12.058 


i6 


8 37 35.02 


X.9449 


15 51 28.6 


9.684 


z6 


10 8 32.92 


1.860a 


7 2 14.2 


12.091 


17 


8 39 31.64 


x.94a4 


15 41 45.5 


9.75a 


17 


xo 10 24.51 


1.8594 


6 50 7.8 


12. 123 


i8 


8 41 28.11 


X.9398 


15 31 58.4 


9.817 


18 


10 12 16.05 


1.8587 


6 37 59.4 


X2.I55 


19 


8 43 24.42 


Z.9372 


15 22 7.4 


9.882 


19 


10 14 7.56 


1.8581 


6 25 49.2 


12.185 


20 


8 45 20.57 


X.9347 


15 12 12.5 


9.947 


20 


xo 15 59.02 


X.8574 


6 13 37.2 


X3.2X5 


21 


8 47 16.58 


x.W8a 


15 2 X3.8 


XO.OII 


21 


10 17 50.45 


X.8569 


6 I 23.4 


X2.245 


22 


8 49 12.44 


1.9898 


14 52 XI.2 


10.075 


22 


xo 19 41.85 


1.8565 


5 49 7.8 


12.273 


23 


8 51 8.16 


X.9274 


14 42 4.8 


10.137 


23 


10 21 33.23 


X.8561 


5 36 50.6 


12.300 


24 


8 53 3.73 


1.9250 


N.14 31 54.7 


10.199 


24 


10 23 24.58 


1.8557 


N. 5 24 31.8 


12.327 



30 



FEBRUARY, 1899. 



XL 









GREENWICH 


MEAN 


TIME. 




, 




• 

THE MOON»S RIGHT ASCENSION AND DECLINATION. 


Hoar. 


Right 


Diff. for 


DecllnatioiL 


Diff. for 


Hoar. 




Right 


Diff. for 


Declination. 


Diff. for 




Ascension. 


z Minute. 




1 Minate. 




Ascension. 


z Minnte. 




X Minute. 




sa: 


rURDA 


Y 25. 








MONDAY 27. 






h m ■ 


s 


e m 


m 




h 


m s 


a 


• » » 


• 


O 


lo 23 24.58 


X.8557 


N. 5 24 31.8 


ia.sa7 





II 


53 2.10 


1.8998 


S. 4 43 29.5 


xa.694 


I 


10 25 15.91 


X.8553 


5 12 II. 3 


12.354 


I 


II 


54 56.16 


X.9028 


4 56 10.8 


12.682 


2 


10 27 7.22 


1.8550 


4 59 49.3 


xa.379 


2 


II 


56 50.36 


1.9043 


5 8 51.3 


12.667 


3 


10 28 58.51 


1.8548 


4 47 25.8 


12.40* 


3 


II 


58 44.70 


1.9069 


5 21 30.9 


12.652 


4 


10 30 49.80 


X.8547 


4 35 0.8 


12.438 


4 


12 


39.19 


X.9094 


5 34 9.6 


12.637 


5 


10 32 41.07 


1.8544 


4 22 34.4 


xa.45a 


5 


12 


2 33.83 


1.9119 


5 46 47.4 


za.622 


6 


10 34 32.33 


X.8543 


4 10 6.6 


12.474 


6 


12 


4 28.62 


1.9145 


5 59 24.2 


12.604 


7 


10 36 23.59 


1.8543 


3 57 37.5 


12.496 


7 


12 


6 23.57 


1.9172 


6 II 59.9 


12.585 


8 


10 38 14.85 


1.8544 


3 45 7-1 


12.517 


8 


12 


8 18.68 


1.9x99 


6 24 34.4 


X2.566 


9 


10 40 6.12 


1.8545 


3 32 35-5 


12.537 


9 


12 


10 13.96 


1.9227 


6 37 7.8 


xa.546 


lO 


10 41 57.39 


1.8545 


3 20 2.6 


12.557 


10 


12 


12 9.40 


1.9254 


6 49 39.9 


»a.5a4 


II 


10 43 48.66 


x.8547 


3 7 28.7 


12.574 


II 


12 


14 501 


1.9383 


7 2 10.7 


12.502 


12 


10 45 39.95 


Z.8550 


2 54 53.7 


12.592 


12 


12 


16 0.80 


1.931a 


7 14 40.2 


Z2.480 


13 


10 47 31.26 


1.855a 


2 42 17.6 


12.610 


13 


12 


17 56.76 


x.934a 


7 27 8.3 


xa.457 


14 


10 49 22.58 


1.8555 


2 29 40.5 


I2.6a6 


14 


12 


19 52.91 


X.9373 


7 39 35.0 


12.43a 


15 


10 51 13.92 


X.8559 


2 17 2.5 


12.642 


15 


12 


21 49.24 


X.94P3 


7 52 0.1 


ia.405 


i6 


10 53 5.29 


X.8564 


2 4 23.5 


ia.657 


16 


12 


23 45-75 


1.9435 


8 4 23.6 


ia.379 


17 


10 54 56.69 


1.5569 


I 51 43.7 


12.670 


17 


12 


25 42.46 


1.9467 


8 16 45.6 


xa.35a 


i8 


10 56 48.12 


X.8575 


I 39 3.1 


12.683 


18 


12 


27 39-36 


X.9500 


8 29 5.8 


i2.3aa 


19 


10 58 39-59 


Z.858Z 


I 26 21.7 


12.636 


19 


12 


29 36.46 


1.9533 


8 41 24.3 


12.293 


20 


II 31.09 


X.8587 


I 13 39.6 


12.707 


20 


12 


31 33-76 


1.9567 


8 53 41.0 


12.263 


21 


II 2 22.63 


1.8594 


I 56.9 


12.717 


21 


12 


33 31.27 


1.9602 


9 5 55-9 


12.232 


22 


II 4 14.22 


X.8602 


48 13-5 


12.727 


22 


12 


35 28.98 


X.9637 


9 18 8.8 


12.199 


23 


II 6 5.86 
S 


1.86x0 

UNDAl 


N. 35 29.6 

r 26. 


12.736 


23 


12 


37 26.91 
Tl 


1.967a 

JESDA^ 


S. 9 30 19.8 
Y 28. 


12.166 


O 


II 7 57.54 


1.8618 


N. 22 45.2 


M.744 





12 


39 25.04 


1.9707 


S. 9 42 28.7 


X2. 13X 


I 


II 9 49.28 


X.8628 


N. 10 0.3 


12.752 


I 


12 


41 23.40 


1.9744 


9 54 35.5 


12.096 


2 


II II 41.08 


1.8638 


S. 2 45.1 


«.759 


2 


12 


43 21.97 


1.9781 


10 6 40.2 


12.059 


3 


II 13 32.94 


1.8649 


15 30.8 


12.765 


3 


12 


45 20.77 


1.9819 


10 18 42.6 


12.081 


4 


II 15 24.87 


X.8660 


28 16.9 


12.770 


4 


12 


47 19.80 


1.9857 


10 30 42.8 


IX.9B3 


5 


II 17 16.86 


X.8671 


41 3.2 


12.774 


5 


12 


49 19.06 


1.9897 


10 42 40.6 


".943 


6 


II 19 8.92 


1.8683 


53 49.8 


X2.777 


6 


12 


51 18.56 


1.9936 


10 54 36.0 


XI.9O3 


7 


II 21 1.06 


1.8697 


I 6 36.5 


12.780 


7 


12 


53 18.29 


1.9975 


II 6 29.0 


11.862 


8 


II 22 53.28 


X.8710 


I 19 23.4 


12.782 


8 


12 


55 18.26 


2.00x6 


II 18 19.4 


II.81B 


9 


II 24 45.58 


1.8723 


I 32 10.3 


12.782 


9 


12 


57 18.48 


2.0057 


II 30 7.2 


".775 


lO 


II 26 37.96 


1.8738 


I 44 57.3 


18. 782 


10 


12 


59 18.94 


2.0098 


II 41 52.4 


X1.73X 


II 


II 28 30.43 


1.875a 


I 57 44.2 


12.782 


II 


13 


I 19.65 


2.0140 


" 53 34.9 


X1.686 


12 


II 30 22.99 


1.8768 


2 10 31. 1 


12.781 


12 


13 


3 20.62 


2.0x82 


12 5 14.7 


IX.639 


13 


II 32 15-65 


1.8784 


2 23 17.9 


12.778 


13 


13 


5 21.84 


2.0225 


12 16 51.6 


11.591 


14 


II 34 8.40 


1.8S01 


2 36 4.5 


12.774 


14 


13 


7 23.32 


2.0268 


12 28 25.6 


xx.54a 


15 


II 36 1.26 


1.8818 


2 48 50.8 


12.770 


15 


13 


9 25.06 


2.03x2 


12 39 56.7 


11.498 


i6 


II 37 54.22 


1.8836 


3 I 36.9 


12.766 


16 


13 


II 27.07 


2.0357 


12 51 24.7 


11.44X 


17 


II 39 47.29 


1.8854 


3 14 22.7 


12.760 


17 


13 


13 29.35 


2.0402 


13 2 49.6 


11.389 


i8 


II 41 40.47 


1.8873 


3 27 8.1 


12.752 


18 


13 


15 31.89 


2.0447 


13 14 11.4 


XX. 336 


19 


II 43 33-77 


1.8893 


3 39 53.0 


12.745 


19 


13 


17 34.71 


8.0493 


13 25 29.9 


xx.aSa 


20 


II 45 27.19 


1.8913 


3 52 37-5 


ia.737 


20 


13 


19 37.81 


2.0539 


13 36 45.2 


XX.227 


21 


II 47 20.73 


1.8933 


4 5 21.5 


12.727 


21 


13 


21 41.18 


2.0586 


13 47 57.2 


11. 171 


22 


II 49 14.39 


1.8954 


4 18 4.8 


12.717 


22 


13 


23 44-84 


a. 0633 


13 59 5.7 


X1.113 


23 


II 51 8.18 


1.8976 


4 30 47.5 


12.706 


23 


13 


25 48.78 


2.0680 


14 10 10.8 


11.055 


24 


II 53 2.10 


1.8998 


S. 4 43 29.5 


12.694 


24 


13 


27 53.00 


2.0728 


S.I4 21 12.3 


X0.995 



XIL FEBRUARY, 1899. 81 



GREENWICH MEAN TIME. 



PHASES OF THE MOON. 



d h m 

(C Last Quarter Feb. 3 5 24.4 

New Moon 9 21 31.7 

3) First Quarter • • 16 20 52.0 

O Full Moon 25 2 15.8 



d h 
(C Perigee • • • • Feb. 9 2.3 

C Apogee • • • • • ay 13.8 



32 



FEBRUARY, 1899. 



xin. 







GREENWICH MEAN TIME. 








LUNAR DISTANCES. 


h 








P.L. 




P.L 




P.L. 




P.L. 


"st 


Nama and Direction 


Noon. 


of 


IIIJ>- 


of 


Vlh. 


of 


IXJi. 


of 


Q 


of Object 




DIff. 




Dift 




DifL 




Dl£ 








m 9 m 




• r m 




• 90 




• f «r 




X 


PoUnz 


W. 


84 38 57 


9829 


86 12 47 


28x8 


87 46 52 


9806 


89 21 12 


2794 




Mars 


W. 


82 34 5 


870Z 


84 10 44 


3689 


85 47 38 


2fi79 


87 24 46 


M; 




Regulus 


W. 


47 38 58 


aSxx 


49 13 II 


2798 


50 47 41 


3786 


52 22 27 


2773 




Antares 


£. 


52 20 25 


a;9a 


50 45 46 


378X 


49 10 53 


tjeg 


47 35 45 


2957 




Saturn 


E. 


65 18 36 


3835 


63 44 40 


S813 


62 10 29 


980X 


60 36 3 


3789 




Venus 


E. 


70 44 59 


3137 


69 17 34 


3X35 


67 49 55 


31x3 


66 22 I 


3XOZ 




Sun 


E. 


116 31 41 


S157 


115 4 40 


3x44 


113 37 24 


3x33 


112 9 53 


3XX9 


2 


Mars 


W. 


95 34 25 


9607 


97 13 II 


2594 


98 52 14 


S58X 


100 31 35 


8568 




Regulus 


W. 


60 20 38 


«705 


61 57 II 


3693 


63 34 2 


967B 


65 II 12 


8663 




Antares 


E. 


39 36 3 


2695 


37 59 16 


9683 


36 22 12 


96G9 


34 44 50 


2655 




Saturn 


E. 


52 39 52 


2726 


51 3 47 


27x3 


49 27 25 


3700 


47 50 45 


9686 




Venus 


E. 


58 58 42 


SQ35 


57 29 13 


3092 


55 59 27 


3007 


54 29 23 


2993 




Sun 


E. 


Z04 48 Z I 


3049 


103 18 59 


3Q34 


loz 49 28 


90x9 


100 19 39 


3004 


3 


Regulas 


W. 


73 22 3 


2588 


75 I 15 


2573 


76 40 49 


9556 


78 20 44 


2540 




Saturn 


E. 


39 42 42 


a6i5 


38 4 8 


3601 


36 25 14 


3586 


34 46 


2572 




Venus 


E. 


46 54 35 


2920 


45 22 41 


2905 


43 50 28 


9890 


42 17 56 


2874 




Sun 


E. 


92 45 42 


9934 


91 13 54 


3908 


89 41 45 


9B9X 


88 9 14 


2874 


4 


Regulas 


W. 


86 45 56 


2459 


88 28 7 


2443 


90 10 41 


3436 


91 53 38 


•4x0 




Spica 


W. 


32 43 13 


2465 


34 25 15 


2447 


36 7 43 


2439 


37 50 36 


24x9 




Venus 


E. 


34 30 27 


880Z 


32 56 


3787 


31 21 15 


2773 


29 46 12 


976X 




Sun 


E. 


80 21 10 


2788 


78 46 26 


3769 


77 II 18 


9753 


75 35 47 


2735 


5 


Spica 


W. 


46 31 16 


2325 


48 16 39 


2309 


50 2 26 


9993 


51 48 37 


2H75 




JUPITBR 


W. 


29 33 44 


24x7 


31 16 55 


2392 


33 41 


93^9 


34 45 


9348 




Sun 


E. 


67 32 23 


2647 


65 54 32 


3639 


64 16 17 


96x3 


62 37 39 


2596 


6 


Spica 


W. 


60 45 33 


1x96 


62 34 6 


3x83 


64 23 z 


9x68 


66 12 17 


9x33 




Jupiter 


W. 


43 34 9 


2249 


45 21 23 


2333 


47 9 3 


99X6 


48 57 7 


2x99 




Sun 


E. 


54 18 52 


15x5 


52 38 


350X 


50 56 48 


9487 


49 15 16 


2472 


7 


Spica 


W. 


75 23 46 


2090 


77 15 


9079 


79 6 32 


9068 


80 58 21 


9098 




Jupiter 


W. 


58 3 16 


2138 


59 53 33 


31X6 


61 44 8 


9x04 


63 35 I 


2093 




Antares 


W. 


29 47 15 


2094 


31 38 24 


3083 


33 29 51 


9070 


35 21 36 


2059 




Sun 


E. 


40 42 49 


•4x0 


38 59 29 


9400 


37 15 54 


9390 


35 32 5 


9389 


8 


Spica 


W. 


90 20 59 


•017 


92 14 7 


90X1 


94 7 24 


9003 


96 50 


«»x 




Jupiter 


W. 


72 53 20 


S048 


74 45 39 


3Q4X 


76 38 9 


2035 


78 30 48 


903^ 




Antares 


W. 


44 44 " 


20x6 


46 37 20 


90X0 


48 30 39 


2004 


50 24 7 


9000 




Saturn 


W. 


31 16 35 


2053 


33 8 46 


9045 


35 I 10 


9(^ 


36 53 45 


9032 




Sun 


E. 


26 50 26 


3356 


25 5 48 


2355 


23 21 9 


2357 


21 36 33 


2363 


XI 


Sun 


W. 


16 7 14 


2477 


17 48 59 


9473 


19 30 51 


2473 


21 12 42 


2477 




a Arietis 


E. 


57 53 42 


3099 


56 2 41 


3XX3 


54 12 I 


9X96 


52 21 42 


9X40 




Aldebaran 


E. 


90 43 3 


2X13 


88 52 24 


3X36 


87 a 4 


9x38 


85 12 3 


2X5X 


12 


Sun 


W. 


29 39 32 


2527 


31 20 7 


254X 


33 23 


2556 


34 40 18 


«572 




a Arietis 


E. 


43 15 55 


333S 


41 28 4 


3243 


39 40 41 


2264 


37 53 48 


■284 




Aldebaran 


E. 


76 7 II 


3326 


74 19 22 


9243 


72 31 58 


9360 


70 45 


9377 




Mars 


£. 


117 20 56 


9X48 


ZI5 31 10 


9164 


113 41 48 


2X79 


III 52 49 


9x96 



XIV. 



FEBRUARY, 1899. 



83 







GREENWICH MEAN TIME. 








f 








LUNAR DISTANCES. 

* 












of the 
snth. 








P.L. 




P.L. 




P.L 






P. L. 


Name and Direetton 


Midnight 


of 


XV^' 


of 


XVIIIJi- 


of 


XXJh. 


of 




of Object 




\^ 


Di£E. 




Diff. 




Diff. 


• 




DiflL 






m 9 m 




• » « 




• f 




• 


f m 




I 


PoUnz 


W. 


90 55 48 


2783 


92 30 40 


3769 


94 5 48 


8756 


95 


41 13 


2744 




Mars 


W. 


89 2 10 


a655 


90 39 50 


3644 


92 17 45 


3632 


93 


55 56 


3619 




Regulns 


W. 


53 57 30 


3760 


55 32 50 


«747 


57 8 28 


8733 


58 


44 24 


27x9 




Antares 


E. 


46 21 


2745 


44 24 41 


2733 


42 48 45 


3730 


41 


12 32 


2708 




Saturn 


E. 


59 I 21 


2778 


57 26 24 


2765 


55 51 10 


2753 


54 


15 40 


2739 




Venus 


E. 


64 53 53 


3088 


63 25 29 


3076 


61 56 50 


3062 


60 


27 54 


3049 




Sun 


E. 


no 42 6 


3105 


109 14 3 


3091 


107 45 43 


3078 


106 


17 6 


3063 


2 


Mars 


W. 


102 II 14 


3554 


103 51 12 


354X 


105 31 28 


2527 


107 


12 3 


2513 




Regulus 


W. 


66 48 42 


2648 


68 26 32 


2633 


70 4 42 


86x8 


71 


43 12 


8603 




Antares 


E. 


33 7 10 


3643 


31 29 12 


3628 


29 50 55 


36x5 


28 


12 20 


a6oo 




Saturn 


E. 


46 13 46 


3673 


44 36 28 


3658 


42 58 52 


2644 


41 


20 57 


3629 




Venus 


E. 


5a 59 2 


a979 


51 28 23 


3964 


49 57 25 


2950 


48 


26 9 


2935 




Sun 


E. 


98 49 31 


3989 


97 19 4 


■973 


95 48 17 


2957 


94 


17 10 


3940 


3 


Regulus 


W. 


80 I 2 


3534 


81 41 42 


3508 


83 22 44 


2492 


85 


4 9 


247« 




Saturn 


E. 


33 6 26 


«557 


31 26 32 


2543 


29 46 19 


3529 


28 


5 46 


2515 




Venus 


E. 


40 45 4 


3860 


39 II 54 


2845 


37 38 24 


3830 


36 


4 35 


38x3 




Sun 


E. 


86 36 22 


8857 


85 3 8 


0839 


83 29 31 


8838 


81 


55 32 


3805 


4 


Regulus 


W. 


93 36 59 


a394 


95 20 43 


3377 


97 4 51 


336X 


98 


49 22 


2344 




Spica 


W. 


39 33 54 


2394 


41 17 37 


2377 


43 I 45 


3359 


44 


46 18 


2342 




Venus 


E. 


28 10 53 


3749 


26 35 18 


8739 


24 59 30 


373X 


23 


23 31 


3733 




Sun 


E. 


73 59 53 


37x7 


72 23 36 


2699 


70 46 55 


968a 


69 


9 51 


8664 


5 


Spica 


W. 


53 35 13 


3359 


55 22 13 


tS43 


57 9 36 


3337 


58 


57 23 


83X3 




Jupiter 


W. 


36 29 50 


2336 


38 15 II 


3306 


40 I 2 


3386 


41 


47 22 


8368 




Sun 


E. 


60 58 39 


3580 


59 19 16 


2563 


57 39 30 


2547 


55 


59 22 


253X 


6 


Spica 


W. 


68 I 55 


8140 


69 51 53 


8X36 


71 42 12 


81 X4 


73 


32 50 


3X08 




Jupiter 


W. 


50 45 36 


3x84 


52 34 28 


3x69 


54 23 43 


2x55 


56 


13 19 


314X 




Sun 


E. 


47 33 33 


3458 


45 51 II 


2445 


44 8 41 


2433 


42 


25 53 


3433 


7 


Spica 


W. 


82 50 25 


3048 


84 42 44 


2039 


86 35 17 


3038 


88 


28 2 


3034 




Jupiter 


W. 


65 26 II 


3083 


67 17 37 


2073 


69 9 18 


3064 


71 


I 13 


3036 




Antares 


W. 


37 13 38 


3049 


39 5 56 


8O40 


40 58 28 


3033 


42 


51 13 


3033 




Sun 


E. 


33 48 4 


8374 


32 3 52 


2367 


30 19 30 


3363 


28 


35 I 


3358 


8 


Spica 


W. 


97 54 23 


1997 


99 48 2 


1993 


loi 41 47 


X99I 


103 


35 35 


1989 




Jupiter 


W. 


80 23 35 


3026 


82 16 29 


3033 


84 9 28 


3030 


86 


2 31 


3017 




Antares 


w. 


52 17 42 


1995 


54 II 24 


I99X 


56 5 12 


1989 


57 


59 4 


1987 




Saturn 


w. 


38 46 29 


3037 


40 39 21 


3033 


42 32 20 


30X9 


44 


25 24 


30X6 




Sun 


E. 


19 52 5 


a37a 


18 7 50 


2384 


16 23 53 


8409 


14 40 23 


3433 


ii 


Sun 


W. 


22 54 27 


2484 


24 36 3 


2492 


26 17 28 


8508 


27 


58 38 


25x4 




a Arietis 


E. 


50 31 44 


«I55 


48 42 9 


3173 


46 52 59 


8x88 


45 


4 14 


3306 




Aldebaran 


E. 


83 22 21 


3z6s 


81 33 


2x79 


79 44 I 


8X94 


77 


55 24 


83X0 


Z2 


Sun 


W. 


36 19 51 


3589 


37 59 I 


s6o6 


39 37 48 


8634 


41 


16 II 


3643 




a Arietis 


E. 


36 7 25 


2307 


34 21 35 


2329 


32 36 18 


2354 


30 


51 37 


3380 




Aldebaran 


E. 


68 58 27 


3396 


67 12 21 


2315 


65 26 43 


2334 


63 


41 33 


2353 




Mars 


E. 


no 4 15 


3313 


108 16 6 


3330 


106 28 23 


8847 


104 


41 6 


3365 



34 



FEBRUARY, 1899. 



XV. 









GREENWICH MEAN TIME. 








' 


LUNAR DISTANCES. 


ii 




1 




P.L. 




P.L. 




P.L 






P.L. • 


Name and Direction 1 


Noon. 


of 


Illh. 


of 


Vlh. 


of 


IXh. 




of 


1* 


of Object 






Dm. 




Diff. 




Diff. 






Diff. 








• 1 m 




• • 




• » « 




• 


m 




13 


Sun 


W. 


42 54 9 


3660 


44 31 43 


2679 


46 8 51 


2698 


47 45 


33 


2717 




Aldebaran 


E. 


61 56 51 


8373 


60 12 38 


2394 


58 28 54 


24x5 


56 45 


40 


2435 




Mars 


E. 


102 54 15 


2283 


loi 7 51 


2302 


99 21 55 


2320 


97 36 


25 


2339 




Pollux 


E. 


103 47 32 


3362 


102 3 3 


2380 


100 18 59 


2398 


98 35 


21 


2417 


14 


Sun 


W. 


55 42 33 


a8x8 


57 16 38 


2838 


58 50 17 


2859 


60 23 


29 


2876 




Aldebaran 


E. 


48 17 6 


«547 


46 36 58 


8571 


44 57 23 


2594 


43 18 


20 


26x9 




Mars 


E. 


88 55 49 


2435 


87 13 4 


2455 


85 30 47 


2474 


83 48 


57 


2494 1 




PoUox 


E. 


90 3 50 


2511 


88 22 52 


2530 


86 42 20 


2549 


85 2 


15 


236B 


15 


Sun 


W. 


68 3 8 


^977 


69 33 49 


2997 


71 4 5 


3017 


72 33 


57 


3036 




a Pegasi 


W. 


44 2 


29XX 


45 32 7 


2913 


47 4 9 


29x6 


48 36 


8 


9920 




Aldebaran 


E. 


35 II 45 


a753 


33 36 i6 


2784 


32 I 27 


28x5 


30 27 


19 


2849 




Mars 


£. 


75 26 32 


a589 


73 47 22 


2607 


72 8 37 


2626 


70 30 


17 


2645 




Pollux 


E. 


76 48 24 


2664 


75 10 56 


2683 


73 33 53 


270X 


71 57 


15 


•7x9 


16 


Sun 


W. 


79 57 30 


3H7 


81 25 7 


3144 


82 52 23 


3162 


84 19 


18 


3x78 




a Pegasi 


W. 


56 14 4 


2958 


57 45 9 


2967 


59 16 3 


2977 


60 46 


45 


2986 




Mars 


E. 


62 24 47 


2733 


60 48 51 


2750 


59 13 18 


2767 


57 38 


7 


2783 : 




Pollux 


E. 


64 7 


28X0 


62 25 52 


2828 


60 52 


2845 


59 18 


30 


2862 




Regulus 


E. 


100 48 12 


277X 


99 13 6 


2787 


97 38 21 


a8o2 


96 3 


56 


2818 


17 


Sun 


W. 


91 29 9 


3255 


92 54 13 


3269 


94 19 I 


3282 


95 43 


33 


3296 ' 




a Pegasi 


W. 


68 17 13 


3035 


69 46 42 


3045 


71 15 59 


3055 


72 45 


4 


3064: 




a Arietis 


W. 


24 40 50 


a98* 


26 II 23 


2985 


27 41 54 


2989 


29 12 


21 


2992 




Mars 


E. 


49 47 24 


2861 


48 14 15 


2876 


46 41 26 


2891 


45 8 


55 


29<>5 




PoUnx 


E. 


51 36 26 


«945 


50 5 4 


2961 


48 34 2 


2977 


47 3 


20 


2993 




Regulus 


E. 


88 16 37 


2888 


86 44 3 


2901 


85 II 45 


99x3 


83 39 


43 


2926 


x8 


Sun 


W. 


Z02 42 31 


335S 


104 5 39 


3366 


105 28 34 


3376 


106 51 


18 


3386 




a Pegasi 


W. 


80 7 39 


3109 


81 35 38 


3118 


83 3 26 


3x26 


84 31 


.4 


3x33 




a Arietis 


W. 


36 43 10 


3020 


38 12 58 


3026 


39 42 39 


3032 


41 12 


12 


3038 




Mars 


E. 


37 30 47 


2973 


36 I 


2986 


34 29 31 


3000 


32 59 


18 


30x4 




Pollux 


E. 


39 34 52 


3074 


38 6 II 


3091 


36 37 51 


3x09 


35 9 


52 


3x27 




Regulus 


E. 


76 3 15 


29''0 


74 32 37 


2990 


73 2 X2 


2999 


71 31 


58 


3008 

1 


19 


Sun 


W. 


1x3 42 21 


3487 


115 4 7 


3434 


116 25 45 


344X 


117 47 


15 


3446] 




a Pegasi 


W. 


91 46 58 


3170 


93 13 43 


3176 


94 40 21 


3182 


96 6 


52 


3188 ! 




a Arietis 


w. 


48 38 14 


3064 


50 7 8 


3o<>9 


51 35 56 


3073 


53 4 


38 


3077 




Regulus 


E. 


64 3 24 


3<H7 


62 34 9 


3052 


61 5 I 


3059 


59 36 


I 


3065 


30 


Sun 


W. 


124 33 15 


3471 


125 54 12 


3475 


127 15 4 


3479 


128 35 


52 


348X 




a Arietis 


W. 


60 27 6 


3092 


61 55 25 


3094 


63 23 42 


3096 


64 51 


56 


3097 




Aldebaran 


W. 


28 21 12 


3219 


29 46 23 


3336 


31 II 49 


3««5 


32 37 


28 


3214 




Regulus 


E. 


52 12 39 


3088 


50 44 15 


309X 


49 15 55 


3095 


47 47 


39 


3098 




Spica 


E. 


XO6 12 29 


307a 


104 43 45 


3075 


103 15 5 


3078 


10 1 46 


28 


3079 


tl 


a Arietis 


W. 


72 12 50 


3x01 


73 40 59 


3x00 


75 9 9 


3099 


76 37 


20 


3098 




Aldebaran 


W. 


39 48 20 


J178 


41 14 55 


3173 


42 41 36 


3168 


44 8 


24 


3161 




Regulus 


E. 


40 27 II 


Sxio 


38 59 14 


3XX3 


37 31 20 


31x4 


36 3 


28 


3XX7 ' 




Spica 


E. 


94 23 49 


3084 


92 55 20 


3083 


91 26 50 


3083 


89 58 


20 


3083! 




JUPITBR 


E. 


112 12 16 


3105 


no 44 13 


S«05 


109 16 9 


3x04 


107 48 


4 


3x03 ' 


. 























XVI. 



FEBRUARY, 1899. 



85 



























GREENWICH MEAN TIME. 








LUNAR DISTANCES* 










P.I* 




P.L. 




P.L. 




P.L. 


Name and Direction 1 

m ^^e_ • *. 1 


Midnight 


of 


XV^ 


of 


XVIIIi>- 


of 


XXIb. 


of 


1* 


of Object 




^^ 


Diff. 




Diff. 




I>iff. 




DiS. 






• » • 




• f « 




• * «r 




• • 




13 


Sun 


W. 


49 21 50 


•73» 


50 57 40 


a757 


52 33 4 


■777 


54 8 2 


V9» 




Aldebaran 


E. 


55 2 55 


2457 


53 20 41 


a479 


51 38 58 


9901 


49 57 46 


■$■4 




Mars 


E. 


95 51 23 


a358 


94 6 48 


2378 


92 22 41 


■396 


90 39 z 


•416 




PoUuz 


E. 


96 52 10 


H3S 


95 9 25 


0454 


93 27 7 


■47« 


91 45 15 


M92 


14 


Sun 


W. 


6z 56 16 


>898 


63 28 37 


a9i9 


65 32 


^939 


66 32 2 


■958 




Aldebaran 


E. 


4» 39 51 


•644 


40 I 56 


3670 


38 24 36 


■697 


36 47 52 


■7*5 




Mars 


E. 


82 7 35 


85x3 


80 26 40 


«53a 


78 46 zz 


■351 


77 6 8 


■370 




Pollux 


E. 


83 22 36 


as88 


81 43 24 


9607 


80 4 38 


a6a6 


78 26 z8 


■«45 


15 


Sun 


W. 


74 3 25 


3055 


75 32 30 


3073 


77 Z 12 


9091 


78 29 32 


31x0 




a Pe^asi 


W. 


50 8 I 


8927 


51 39 46 


■934 


53 II 22 


■94» 


54 42 48 


■950 




Aldebaran 


E. 


28 53 55 


3885 


27 21 17 


a9a5 


25 49 30 


■9*9 


24 z8 38 


3018 




Mars 


E. 


68 52 23 


•663 


67 14 53 


a68i 


65 37 48 


■898 


64 z 6 


37x6 




Pollux 


E. 


70 21 z 


m» 


68 45 12 


9736 


67 9 47 


•774 


65 34 45 


■79* 


i6 


Sun 


W. 


85 45 54 


3x94 


87 12 10 


3409 


88 38 8 


3W3 


90 3 47 


3240 




a Pegasi 


W. 


62 17 15 


3996 


63 47 33 


3005 


65 Z7 39 


3016 


66 47 32 


3oa6 




Mars 


E. 


56 3 17 


«799 


54 28 48 


a8i5 


52 54 40 


283X 


51 20 52 


3846 




Pollux 


E. 


57 45 22 


1879 


56 12 36 


1896 


54 40 12 


a9is 


53 8 9 


■9** 




Regulus 


E. 


94 29 51 


0839 


92 56 5 


3847 


91 22 38 


a86i 


89 49 29 


■874 


«7 


Sun 


W. 


97 7 49 


3308 


98 31 51 


3331 


99 55 38 


3333 


zoz Z9 zz 


S34S 




a Pegasi 


W. 


74 13 58 


3073 


75 42 40 


308a 


77 zz zz 


309a 


78 39 30 


3X0X 




a Arietis 


w. 


30 42 44 


8997 


32 13 I 


900a 


33 43 " 


3008 


35 13 14 


30x4 1 




Mars 


E. 


43 36 42 


3919 


42 4 47 


9933 


40 33 zo 


3946 


39 I 50 


•960 




PoUux 


E. 


45 32 59 


3009 


44 2 57 


9023 


42 33 15 


3041 


41 3 53 


3038 




Regulus 


E. 


82 7 57 


0938 


80 36 26 


■949 


79 5 9 


■939 


77 34 5 


•970 


i8 


Sun 


W. 


X08 13 50 


339S 


109 36 12 


3404 


zio 58 24 


34M 


Z12 20 27 


34» 




a Pegasi 


W. 


85 58 33 


3141 


87 25 53 


3x49 


88 53 .3 


3156 


90 20 5 


3x63 




a Arietis 


w. 


42 41 38 


3043 


44 10 57 


3049 


45 40 9 


3054 


47 9 15 


3060 




Mars 


£. 


31 29 23 


3028 


29 59 45 


yna 


28 30 24 


3057 


27 z 22 


907* 




Pollux 


E. 


33 42 15 


3146 


32 15 I 


3x66 


30 48 XI 


3X88 


29 21 47 


9S13 




Regulus 


E. 


70 I 55 


30Z6 


68 32 2 


Soaj 


67 2 20 


3033 


65 32 48 


3039 


19 


Sun 


W. 


119 8 39 


3433 


I20 29 56 


3457 


Z2Z 5X 8 


3483 


123 Z2 Z4 


3467 




a Pegasi 


W. 


97 33 15 


3194 


98 59 31 


3199 


zoo 25 4Z 


3«>S 


loz 51 44 


3ao9 




a Arietis 


W. 


54 33 16 


3081 


56 I 49 


3084 


57 30 18 


3087 


58 58 44 


3090 




Regulus 


£. 


58 7 9 


3070 


56 38 23 


3075 


55 9 43 


3079 


53 41 8 


9084 


ao 


Sun 


W. 


129 56 37 


3484 


131 17 19 


3487 


132 37 58 


3488 


133 58 35 


3489 


1 


a Arietis 


W. 


66 20 9 


3099 


67 48 20 


3099 


69 z6 31 


3x00 


70 44 41 


310X 




Aldebaran 


W. 


34 3 20 


3ao6 


35 29 22 


3x96 


36 55 33 


319X 


38 2Z 53 


3189 




Regulus 


E. 


46 19 27 


3x01 


44 51 x8 


3104 


43 23 13 


9106 


41 55 II 


3106 




Spica 


E. 


100 17 53 


3o8z 


98 49 20 


308a 


97 20 49 


3089 


95 52 19 


3083 


ai 


a Anetis 


W. 


78 5 32 


3096 


79 33 46 


3096 


8z 2 z 


3094 


82 30 z8 


909X 


1 


Aldebaran 


W. 


45 35 19 


3«57 


47 2 20 


3i3« 


48 29 27 


3x47 


49 56 40 


9x43 




Regulus 


E. 


34 35 39 


3119 


33 7 52 


3xai 


31 40 8 


3ia3 


30 Z2 26 


SZ36 




Spica 


E. 


88 29 50 


308a 


87 I 18 
104 51 50 


9081 


85 32 45 


3079 


84 4 ZO 


3077 




Jupiter 


E. 


106 19 58 


3101 


3099 


103 23 39 


3097 


zoi 55 26 


3096 



36 



FEBRUARY, 1899. 



XVII. 



GREENWICH MEAN TIME. 








LUNAR DISTANCES. 




















P.L. 




P.L. 






P.L. 




1 
P.L. 


Name and Direction 


Noon. 


of 


III»». 


of 


Vlh. 




of 


IXJ>. 


of 




of Object 






Diff. 




Diff. 






Diff. 




Diff: 








• f m 




• t m 




( 


m 




m » m 




32 


a Arietis 


W. 


83 58 38 


3089 


85 27 I 


3087 


86 55 


26 


3085 


88 23 54 


3aB« 




Aldebaran 


W. 


51 23 59 


3137 


52 51 24 


313a 


54 18 


55 


3127 


55 46 32 


3X21 




Regulus 


E. 


28 44 48 


3x29 


27 17 14 


3x33 


25 49 


44 


3138 


24 22 20 


3144 ' 




Spica 


E. 


82 35 32 


3075 


81 6 52 


3073 


79 38 


9 


3070 


78 9 23 


3068 




Jupiter 


E. 


100 27 II 


3093 


98 58 53 


3090 


97 30 


31 


3087 


96 2 5 


3084 


33 


a Arietis 


W. 


95 47 14 


3065 


97 16 7 


3060 


98 45 


5 


3056 


100 14 8 


3052 ! 




Aldebaran 


W. 


63 6 12 


3096 


64 34 27 


3091 


66 2 


48 


3085 


67 31 16 


3079 




Mars 


W. 


23 6 2 


3"9 


24 33 36 


3"4 


26 I 


28 


3X02 


27 29 35 


3091 




Spica 


E. 


70 44 37 


3051 


69 15 27 


3046 


67 46 


II 


30*a 


66 16 50 


3038 




JUPITBR 


E. 


88 38 57 


3065 


87 10 5 


3061 


85 41 


8 


3057 


84 12 6 


3052 




Antares 


E. 


1x6 20 49 


3047 


"4 51 35 


3043 


113 22 


16 


3039 


III 52 52 


S034 


34 


a Arietis 


W. 


Z07 40 46 


30*9 


109 10 23 


3024 


no 40 


6 


3018 


112 9 56 


30x4 




Aldebaran 


W. 


74 55 21 


3050 


76 24 32 


3044 


77 53 


50 


3039 


79 23 15 


3032 , 




Mars 


W. 


34 53 25 


3043 


36 22 44 


3034 


37 52 


14 


3027 


39 21 53 


30x9 




Pollux 


W. 


33 20 12 


3143 


34 47 29 


3128 


36 15 


5 


31X4 


37 42 58 


3TOO 




Spica 


E. 


58 48 42 


3014 


57 18 47 


3009 


55 48 


45 


3003 


54 18 36 


9998 




Jupiter 


E. 


76 45 27 


3028 


75 15 49 


3022 


73 46 


4 


30x7 


72 16 12 


30x3 




Antares 


E. 


Z04 24 22 


3009 


102 54 21 


3004 


zoi 24 


13 


8998 


99 53 58 


•993 


35 


Aldebaran 


W. 


86 52 x6 


3001 


88 22 27 


a994 


89 52 


47 


3989 


91 23 14 


2981 ; 




Mars 


W. 


46 52 30 


3982 


48 23 5 


2976 


49 53 


48 


2909 


51 24 40 


■962 




PoUnz 


W. 


45 6 14 


304a 


46 35 35 


303a 


48 5 


8 


3022 


49 34 53 


30x2 




Spica 


E. 


46 46 II 


2970 


45 15 21 


2964 


43 44 


23 


2958 


42 13 18 


9953 




Jupiter 


E. 


64 45 12 


^984 


63 14 39 


a977 


61 43 


58 


■973 


60 13 II 


2966 




Antares 


E. 


92 20 56 


2962 


90 49 56 


2957 


89 18 


49 


9950 


87 47 34 


•944 




Saturm 


E. 


107 2 9 


8985 


105 31 38 


2979 


104 


59 


■973 


102 30 12 


•965 


a6 


Aldebaran 


W. 


98 57 35 


2949 


100 28 52 


2942 


102 


17 


■936 


103 31 50 


•929 




Mars 


W. 


59 1 15 


2926 


60 33 I 


2919 


62 4 


56 


291a 


63 37 


2905 




Pollux 


W. 


57 6 39 


2966 


58 37 34 


3957 


60 8 


41 


a949 


61 39 58 


3939 




Spica 


E. 


34 36 5 


79H 


33 4 17 


2918 


31 32 


21 


a9i3 


30 19 


2908 




Jupiter 


E. 


52 37 24 


2938 


51 5 53 


2931 


49 34 


14 


2926 


48 2 28 


2921 




Antares 


E. 


80 9 13 


3910 


78 37 7 


2903 


77 4 


52 


2896 


75 32 28 


2889 ■ 




Saturn 


E. 


94 54 7 


9931 


93 22 28 


2924 


91 50 39 


a9X7 


90 18 42 


•909 


37 


Mars 


W. 


71 19 37 


2868 


72 52 37 


2861 


74 25 


46 


9853 


75 59 5 


2846 




Pollux 


W. 


69 19 II 


2897 


70 51 34 


28S8 


72 24 


8 


2880 


73 56 53 


287a 




Regulus 


W. 


32 16 53 


a893 


33 49 21 


2882 


35 22 


3 


2872 


36 54 58 


a86i 




Jupiter 


E. 


40 22 


2896 


38 49 36 


2891 


37 17 


6 


2888 


35 44 32 


a885 1 




Antares 


E. 


67 48 II 


2852 


66 14 51 


2845 


64 41 


22 


2837 


63 7 42 


2830 ' 




Saturn 


E. 


82 36 35 


a873 


81 3 41 


2865 


79 30 


37 


2857 


77 57 23 


a849 , 




Venus 


E. 


112 29 31 


S242 


HI 4 12 


3235 


109 38 


44 


3226 


108 13 6 


5218 . 


28 


Mars 


W. 


83 48 5 


2808 


85 22 23 


«799 


86 56 


52 


2792 


88 31 31 


2784 




Pollux 


w. 


81 43 19 


2828 


83 17 10 


2821 


84 51 


II 


2812 


86 25 23 


2803 ; 




Regulus 


w. 


44 42 52 


t8n 


46 17 5 


2802 


47 51 


30 


2792 


49 26 8 


2783 




Antares 


E. 


55 16 55 


2791 


53 42 15 


2782 


52 7 


24 


a774 


50 32 22 


2766 




Saturn 


E. 


70 8 39 


2808 


68 34 22 


2Sor 


66 59 


55 


279a 


65 25 17 


2784 




Venus 


E. 


loi 2 24 


3»74 


99 35 44 


31G6 


98 8 


54 


3157 


96 41 53 


3147 




a Aquilae 


E. 


107 41 18 


3340 


106 18 


3329 


104 54 


22 


33x3 


103 30 25 


3*97 



J 



XVIll. 



FEBRUARY, 1899. 



87 







GREENWICH MEAN TIME. 








LUNAR DISTANCES. 


of the 
mth. 








P.L. 




P.L 




P.L. 




P.L. 


Name and Direction 1 


Midnight 


of 


xv»». 


of 


XVIIIh. 


of 


XKl^ 


of 




of Object 




%^ 


Diff. 




Diff. 




Difi. 




DiflL 






• m 




• 




• m 




f m 




22 


a Arietis 


W. 


89 52 26 


S079 


91 21 Z 


3075 


92 49 41 


307a 


94 18 25 


906B 




Aldebaran 


W. 


57 14 16 


S117 


58 42 5 


3X11 


60 10 I 


3106 


61 38 3 


Sxox 




Regulus 


E. 


22 55 4 


Sisa 


21 27 57 


3x6a 


20 I 2 


3x74 


18 34 22 


3x90 




Spica 


E. 


76 40 34 


3065 


75 II 41 


306X 


73 42 44 


3058 


72 13 43 


3054 




Jupiter 


E. 


94 33 36 


3081 


93 5 3 


3078 


91 36 26 


S073 


90 7 44 


S069 


23 


a Arietis 


W. 


loi 43 17 


3047 


103 12 31 


3043 


104 41 50 


5039 


106 XI 15 


3094 




Aldebaran 


W. 


68 59 51 


3073 


70 28 33 


306S 


71 57 22 




73 26 x8 


SO56 




Mars 


W. 


28 57 56 


3080 


30 26 30 


3069 


31 55 17 


3ofo 


33 24 16 


3052 




Spica 


E. 


64 47 24 


3033 


63 17 52 


3029 


61 48 15 


3024 


60 18 32 


30x8 




Jupiter 


E. 


82 42 58 


3048 


81 13 45 


3043 


79 44 25 


3038 


78 14 59 


3033 




Antares 


E. 


no 23 22 


3030 


108 53 46 


3035 


107 24 4 


3030 


105 54 x6 


30x5 


24 


a Arietis 


W. 


113 39 52 


3009 


115 9 54 


30P3 


116 40 3 


2997 


1x8 10 19 


2993 




Aldebaran 


W. 


80 52 48 


3026 


82 22 29 


3020 


83 52 17 


3014 


85 22 13 


3008 




Mars 


W. 


40 51 42 


3oza 


42 21 40 


3004 


43 51 48 


2997 


45 22 4 


3989 




Pollux 


W. 


39 II 8 


3087 


40 39 33 


3075 


42 8 13 


3064 


43 37 7 


3053 




Spica 


E. 


52 48 21 


^993 


51 17 59 


2987 


49 47 30 


2981 


48 16 54 


3976 




Jupiter 


E. 


70 46 14 


3006 


69 16 9 


300X 


67 45 57 


2995 


66 15 38 


2989 




Antares 


E. 


98 23 37 


0987 


96 53 8 


«98i 


95 22 32 


2975 


93 51 48 


3969 


25 


Aldebaran 


W. 


92 53 50 


2975 


94 24 34 


3969 


95 55 26 


2963 


97 26 26 


2955 




Mars 


W. 


52 55 41 


9954 


54 26 51 


2947 


55 58 10 


2940 


57 29 38 


2933 




Pollux 


w. 


51 4 51 


3003 


52 35 I 


2993 


54 5 22 


3984 


55 35 55 


2975 




Spica 


E. 


40 42 6 


9947 


39 10 47 


294Z 


37 39 20 


293S 


36 7 46 


2930 




Jupiter 


E. 


58 42 16 


3961 


57 II 14 


fl9SS 


55 40 5 


2949 


54 8 48 


2943 




Antares 


E. 


86 16 II 


9937 


84 44 39 


2931 


83 12 59 


2924 


81 41 10 


39x7 




Saturn 


E. 


100 59 16 


3959 


99 28 12 


3952 


97 56 59 


294s 


96 25 37 


2939 


26 


Aldebaran 


W. 


105 3 32 


9933 


106 35 22 


39x6 


108 7 21 


3909 


109 39 28 


2903 




Mars 


W. 


65 9 13 


2898 


66 41 35 


3891 


68 14 6 


3883 


69 46 47 


3876 




Pollux 


W. 


63 II 27 


2931 


64 43 6 


3922 


66 14 57 


29x3 


67 46 59 


3903 




Spica 


E. 


28 28 10 


2903 


26 55 55 


2898 


25 23 34 


2894 


23 51 8 


289X 




Jupiter 


E. 


46 30 36 


39x6 


44 58 37 


2910 


43 26 31 


2905 


41 54 19 


3900 




Antares 


E. 


73 59 55 


2883 


72 27 13 


2875 


70 54 22 


3867 


69 21 21 


3860 




Saturn 


E. 


88 46 35 


3902 


87 14 19 


2895 


85 41 54 


3887 


84 9 19 


3880 


27 


Mars 


W. 


77 32 33 


3838 


79 6 XI 


283X 


80 39 59 


8833 


82 13 57 


aSxs 




Pollux 


W. 


75 29 48 


2862 


77 2 55 


2855 


78 36 12 


3846 


80 9 40 


3838 




Regulus 


W. 


38 28 7 


2831 


40 I 29 


2841 


41 35 4 


383X 


43 8 52 


383X 




Jupiter 


E. 


34 II 54 


2883 


32 39 13 


2880 


31 6 29 


2879 


29 33 43 


2877 




Antares 


E. 


61 33 53 


3821 


59 59 53 


2813 


58 25 44 


3807 


56 51 25 


2798 




Saturn 


E. 


76 23 59 


3842 


74 50 25 


2833 


73 16 40 


3825 


71 42 45 


■8x7 




Venus 


E. 


106 47 18 


3208 


105 21 20 


3301 


103 55 12 


3x92 


102 28 53 


3x83 


28 


Mars 


W. 


90 6 20 


2; 75 


91 41 20 


3767 


93 16 31 


2759 


94 51 53 


275X 




Pollux 


W. 


87 59 47 


2795 


89 34 22 


3785 


91 9 9 


2777 


92 44 7 


2769 ; 




Regulus 


W. 


51 58 


2773 


52 36 I 


37(53 


54 II 17 


2754 


55 46 45 


2744 : 




Antares 


E. 


48 57 9 


2758 


47 21 46 


2749 


45 46 II 


374X 


44 10 25 


2732 




Saturn 


E. 


63 50 28 


2775 


62 15 28 


2766 


60 40 16 


3758 


59 4 53 


2749 




Venus 


E. 


95 14*40 


3138 


93 47 17 


3129 


92 19 42 


31x9 


90 51 56 


3XX0 




a Aquils 


E. 


102 6 10 


3383 


100 41 37 


3267 


99 16 47 


3254 


97 51 42 


324X 



38 



MARCH. 1899. 



AT GREENWICH APPARENT NOON. 



s 


g 


^ 


S 


9 


o 


a 


rS 


«4 


«4 


O 


O 


K 


»s 


m 


ca 


Q 


Q 



Wed. 
Thur. 
Frid. 

Sat. 

SC/N. 

Mon. 

Tues. 
Wed. 
Thur. 

Frid. 

Sat. 

SC/N. 

Mon. 
Tues. 
Wed. 

Thur. 

Frid. 

Sat. 

SC/N. 

Mon. 

Tues. 

Wed. 
Thur. 
Frid. 

Sat. 

SC/N. 

Mon. 

Tues. 
Wed. 
Thur. 
Frid. 

Sat. 



I 

2 

3 

4 

5 
6 

7 
8 



lO 

II 

12 

13 
H 
15 

i6 

17 
i8 

20 
21 

22 

23 
24 

25 
26 

27 

28 
29 

30 
31 

32 



THE SUN'S 



Apparent 
Right Ascension. 



m 



22 48 51.13 
22 52 35.49 
22 56 19.37 

23 o 2.79 

23 3 45-79 
23 7 28.36 

23 II 10.54 

23 14 52.34 
23 18 33.78 

23 22 14.87 

23 25 5563 
23 29 36.09 

23 33 16.24 
23 36 56.12 

23 40 35-73 

23 44 15.10 

23 47 54-24 
23 51 33-i8 

23 55 11-92 

23 58 50-50 
o 2 28.93 

o 6 7.23 
o 9 45-43 
o 13 23.54 

o 17 1.60 
o 20 39.62 
o 24 17.64 

o 27 55.66 

o 31 33-73 
o 35 11.85 
o 38 50.06 

o 42 28.37 



Diff. for 
X Hour. 



■ 

9-358 
9338 
9-319 

9.301 
9.283 
9.266 

9.250 

9.234 
9.219 

9.205 
9.192 
9.179 

9.167 
9.156 
9.145 

9.135 
9.126 

9.118 

9.III 
9.105 
9.099 

9.094 
9.090 
9.087 

9.085 
9.084 
9.084 

9.085 
9.089 
9.091 
9.094 

9.099 



Apparent 
Declination. 



S. 7 32 57-5 
7 10 6.5 
647 9.4 

6 24 6.4 
6 057.9 

5 37 44-5 

5 14 26.4 
451 4-0 
4 27 37.9 

4 4 8-3 
3 40 35-7 
3 17 0.5 

2 53 23.^ 
2 29 43.9 
2 6 3.3 

I 42 21.7 
I 18 39.4 
o 54 56.8 

o 31 14.3 
S. o 7 32.3 
N. o 16 9.0 

39 49.0 

1 3 27.6 
I 27 4.4 

1 50 39.0 

2 14 II. 2 

2 37 40.5 

3 I 6.7 
3 24 29.4 

3 47 4^-4 
411 3.2 

N. 4 34 13.5 



Diff. for 
X Hour. 



+56.99 

57-25 
57.50 

+57-74 
57.96 

58.16 

+58.34 
58.51 

58.66 

+58.79 
58.91 

59.01 

+59.09 
59.16 
59.21 

+59-25 
5927 
59.27 

+59.26 

59.24 
59.20 

+59-14 
59.07 
58-99 

+58.89 
58.78 
58.66 

+58.52 

58.37 
58.21 

58.03 

+57-83 



Saml- 
diameter. 



6 10.46 
6 10.21 
6 9.96 



6 
6 
6 

6 
6 
6 

6 
6 
6 

6 
6 
6 



6 
6 
6 



6 
6 
6 
6 



Sidereal 
Time of 
Semi- 
diameter 
Passing 
Meridian. 



Equation of 

Time, 

toba 

Added to 

Apparent 

Tim& 



9.71 

9.45 
9.19 

8.93 
8.67 

8.41 

8.15 
7.88 
7.62 

7.35 
7.09 

6.83 



6 6.57 
6 6.30 
6 6.04 



5-77 
5-50 
523 



6 4.96 

6 4.69 

6 4.42 

6 4.15 

6 3.87 

6 3-59 



331 

3-03 

2.75 
2.47 



65.43 
65.36 

65.29 

65.23 

65.17 
65.11 

65.05 
64.99 

64-93 

64.88 
64.83 
64.79 

64-75 
64.71 

64.67 

64.64 
64.61 

64-59 

64-57 
64-55 
64-53 

64.52 
64.51 
64.50 

64.49 

64-49 
64.49 

64.49 

64-49 
64.50 

64.51 



16 2.18 1 64.52 



m ■ 
2 31-54 

2 19.37 
2 6.73 

I 53-64 
I 40.12 

I 26.18 
I 11.84 

o 57-13 
o 42.06 

o 26.64 
o 10.89 

9 54-84 

9 38-48 
9 21.85 

9 4-96 

8 47.82 
8 30.46 
8 12.89 

7 55.13 
7 37-20 

7 19-13 

7 0.93 
6 42.62 
6 24.24 

6 5-79 

5 47-31 
5 28.82 

5 10.35 
4 51.91 
4 33-53 
4 15-23 

3 57.04 



Diff. for 
X Hour. 



a 
0.497 

0.517 

0.536 

0.554 
0.572 

0.589 

0.605 
0.620 
0.635 

0.649 
0.662 
0.675 

0.687 
0.696 
0.709 

0.719 
0.728 
0.736 

0.743 
0.750 
0.756 

0.761 
0.764 
0.767 

0.769 
0.770 
0.770 

0.769 
0.767 
0.764 
0.760 

0.755 



NoTK. — ^The mean ivwi of sennidiameter passing may be found by subtracting c.iS from the sidereal tima^ 

The sign + prefixed to the hourly change of declination indicates that aouth declinationi art deeraaaing, north 

declinations increasing. 



IL 



MARCH, 1899. 



89 









• 

AT GREENWICH MEAN NOON. 




" 








THE SUN'S 








1 


1 

1 


1 

1 

1 










Bqnatlon of 

Time, 

to be 
Subtracted 

from 
Mean Time. 


DlflELfor 
xHonr. 


Sideretl 

Time, 

or 

Right Ascension 

of 

Mean Son. 


Apparent 
Right Ascensioa 


Diff. for 
X Hour, 


Apparent 
Declination. 


Die for 
I Hour. 


Wed. 
Thur. 
Frid- 


I 

2 

3 


h m s 
22 48 49.18 

«2 52 33-57 

22 56 17.49 


• 
9.360 
9.340 
9.320 


• * « 

S. 7 33 9.5 
7 10 18.4 

6 47 21.0 


m 
+56.99 
57-26 

57-51 


m ■ 
12 31.64 

12 19.48 

12 6.84 


• 
0.496 

0.516 

0.536 


h m • 

22 36 17-54 
22 40 14.09 
22 44 10.64 


Sat 

SUN. 
Mon. 


4 

5 
6 


23 0.95 

23 3 43-98 

23 7 26.60 


9.301 
9.284 
9.267 


6 24 17.9 
6 I 9.3 

5 37 55'^ 


+57-75 
57-97 
58.17 


II 53-75 
II 40.23 

II 26.29 


0.555 

0.572 

0.589 


22 48 7.20 

22 52 3.75 
22 56 0.30 


Tues. 
Wed. 
Thur. 


7 
8 

9 


23 II 8.82 
23 14 50.66 
23 18 32.14 


9.251 
9.236 

9.221 


5 H 37.3 
4 51 148 
4 27 48.4 


+58.35 
58.52 

58.67 


II 11.96 

10 57.25 
10 42.17 


0.605 
0.620 
0.635 


22 59 56.86 

23 3 53-41 
23 7 49-96 


Frid. 
Sat 

SUN. 


lO 

II 

12 


23 22 13.27 
23 25 54.08 

23 29 34-57 


9.207 
9.194 
9. 181 


4 4 18.6 
3 40 45-8 
3 17 IO-3 


+58.80 
58.92 
59.02 


10 26.75 

10 II.OI 

9 54-95 


0.649 
0.663 
0.675 


23 II 46.52 

23 15 4307 
23 19 39-62 


Mon. 
Tues. 
Wed. 


13 
H 
15 


23 33 14-77 
23 36 54-69 
23 40 34-35 


9.169 
9.158 

9. 147 


2 53 32.7 
2 29 53.2 

2 6 12.3 


+59.10 

59.17 
59.22 


9 38.60 
9 21.96 

9 5-07 


0.687 
0.698 
0.709 


23 23 36.17 
23 27 32.73 
23 31 29.28 


Thur. 

Frid. 

Sat 


i6 

17 
i8 


23 44 13-76 
23 47 52.95 
23 51 31-93 


9.137 
9. 128 

9.120 


I 42 30.4 
I 18 47.8 

55 4-9 


+59.26 
59.28 
59.28 


8 47-93 
8 30.56 

8 12.99 


0.719 
0.728 
0.736 


23 35 25.83 
23 39 22.38 
23 43 18.94 


SUN. 

Mon. 

Tues. 


19 

20 
21 


23 55 10-72 

23 58 49-34 
2 27.82 


9.113 
9.106 

9.100 


31 22.2 

S. 7 39.8 
N. 16 1.7 


+59.27 
5925 
59.21 


7 5523 
7 37.30 
7 19.22 


0.744 
0.750 
0.756 


23 47 15-49 
23 51 12.04 

23 55 8.60 


Wed. 
Thur. 
Frid. 


22 
23 
24 


6 6.17 
9 44.41 
13 22.57 


9.095 
9.092 
9.089 


39 42.1 

1 3 21.0 
I 26 58.1 


+59.15 
59.08 

59.00 


7 1.02 
6 42.71 
6 24.32 


0.761 
0.765 
0.767 


23 59 5-15 
3 1.70 

6 58.26 


Sat. 

SUN. 

Mon. 


25 
26 

27 


17 0.68 
20 38.75 
24 16.81 


9.087 
9.086 
9.086 


1 50 33.0 

2 14 5-5 
2 37 35-1 


+58.90 

58.79 
58.67 


6 5.87 

5 47-39 
5 28.90 


0.769 
0.770 
0.770 


10 54.81 
14 51.36 
18 47.91 


Tues. 
Wed. 
Thur. 
Frid. 


28 
29 
30 
31 


27 54.88 
31 32.99 
35 II. i6 
38 49.41 


9.087 
9.089 
9.092 
9.096 


3 I 1.6 
3 24 24.7 

3 47 44-0 

4 10 59-0 


+58.53 
58.38 

58.22 

58.04 


5 10.41 

4 51-97 
4 33-59 
4 15-29 


0.769 
0.767 
0.764 
0.760 


22 44.47 
26 41.02 

30 37.57 
34 34.12 


Sat 


32 


42 27.77 


9.101 


N. 4 34 9-7 


+5784 


3 57-09 


0.756 


38 30.68 


Now.— T 
TI 


besei 
dacri 


nidiameter for meai 
n 4- prefixed to the 
sasiiiK, north declinj 


1 QOOQ may 
hourly chan 
itions Incxei 


be assumed the sam< 
ge of decliuation iad 
tsing. 


> as that for 
tcates that s 


apparent nooa 
(outh declinatic 


> 

msara 


DiS. for X Hear, 
-f 9^.8565. 
fTabla IZL) 



40 



MARCH, 1899. 



UI. 







AT GREENWICH MEAN NOON. 












THE SUN'S 








1 

o 

1 

I 

2 

3 


1 

• 

•4 


1 










Logarithm 

of the 

Radlna Vector 

of the 

Earth. 


DiflEL for 
X Hour. 


MeanTIaa 

of 

Sidereal Noon. 


TRUE LONGITUDE. 


DiiLfor 
X Hoar. 


LATITUDE. 


X 


V 


60 
61 
62 


• 1 m 

340 43 19.5 

341 43 28.2 

342 43 35-3 


m 

42 53-3 

43 1-9 
43 8-9 


m 
150.40 

150-33 
150.27 


— 0.43 
0.36 
0.26 


9.9961959 
9.9963075 
9.9964205 


+46.2 
46.8 

47-3 


h m a 
I 23 28.75 

I 19 32.84 
I 15 36.93 


4 

5 
6 


63 
64 

65 


343 43 409 

344 43 45-0 

345 43 47-5 


43 14-4 
43 18.4 
43 20.8 


150.21 
150.14 
150.07 


— 0.15 

— 0.03 
+ 0.10 


9-9965347 
9.9966500 

9.9967659 


+47-8 
48.2 
48.5 


I II 41.03 

I 7 45-12 
I 3 49.21 


7 
8 

9 


66 

67 
68 


346 43 48.3 

347 43 47-5 

348 43 45.0 


43 21.5 
43 20.6 
43 18.0 


150.00 

M9-93 
149.86 


+ 0.23 

0-35 
0.46 


9.9968827 
9.9969998 

9-9971175 


+48.7 
48.9 
49.1 


59 53-31 

5S 57.40 
52 1.49 


lO 

II 

12 


69 
70 

71 


349 43 40-7 

350 43 34-6 

351 43 26.6 


43 13-6 
43 7.4 
42 59-3 


149.79 
149.71 
149.63 


+ 0.54 
0.61 

0.63 


9-9972354 
9-9973536 
9.9974719 


+49.2 
49-3 
49.4 


48 5.58 
44 9.68 

40 13-77 


13 
^5 


72 

73 
74 


352 43 16.4 

353 43 4-3 

354 42 50-1 


42 490 
42 36.8 

42 22.5 


149.54 
149.45 
149.36 


+ 0.64 
0.61 

0-55 


9-9975902 

9.9977086 
9.9978271 


+49-4 
49-4 
49-4 


36 17.86 
32 21.96 
28 26.05 


i6 

17 
i8 


75 
76 

77 


355 42 33-6 

356 42 15.0 

357 41 54-0 


42 5-9 
41 47.2 

41 26.1 


149.27 
149.17 
149.07 


+ 0.47 
0.36 
0.24 


9-9979457 
9.9980646 

9.9981838 


+49.5 
49.6 

49.7 


24 30.14 
20 34.24 
16 38.33 


19 

20 
21 


78 

79 
80 


358 41 30.8 

359 41 5-3 
40 37.3 


41 2.8 

40 37-2 
40 9.1 


X48.98 
148.88 
148.79 


+ 0.1 1 

— 0.03 

0.16 


9.9983032 
9.9984232 

9-9985437 


+49.9 
50. z 

50.3 


12 42.42 
8 46.52 
4 50.61 


22 
23 

24 


81 
82 

83 


1 40 7.2 

2 39 34-8 

3 39 o-i 


39 38.9 
39 6.4 
38 31-6 


X48.69 
148.60 
148.51 


— 0.28 
0.38 
0.47 


9.9986648 
9.9987866 
9.9989091 


+50.6 

509 
51.2 


\ 5470 1 

(23 56 58.79 f 

23 53 2.88 

23 49 6.98 


25 

26 
27 


84 

85 
86 


4 38 23.4 

5 37 44-4 

6 37 34 


37 54-8 
37 15-7 
36 34-6 


148.42 

148.33 
148.25 


— 0.52 

0.54 


9.9990325 

9-9991565 
9.9992815 


+51.5 
51.8 

52.2 


23 45 11.07 
23 41 15.16 
23 37 19-26 


28 
29 

30 
31 


87 
88 

89 
90 


7 36 20.4 

8 35 35-5 

9 34 48-7 
10 34 0.0 


35 51-5 
35 6.5 
34 19-6 
33 30.8 


148.17 
Z48.09 
148.01 
M7-93 


— 0.51 
0.44 

0.35 
0.24 


9.9994070 

9.9995333 
9.9996604 

9.9997877 


+52.5 
52.8 

53.0 

53-1 


23 33 23.35 
23 29 27.44 

23 25 31-54 
23 21 35.63 


32 


91 


" 33 9-5 


32 40.2 


X47.86 


— 0.13 


9-9999154 


+53.2 


23 17 3972 


Hon 


i,r— Thai 

•qn 


lunban in eolanui A ( 


correspond to t 


ha tma aqoi 


noil of tha date 


; in column X' to 


the mean 


Diff. for X Hour, 
— 9\8296. 
(Table IL) 



IV. 



MARCH, 1899. 



41 



GREENWICH MEAN TIME 


4 

a 


THE MOON'S 


o 

a 

O 

m 
Q 

I 
2 

3 


SSMIDIAMETKK. 


HORIZONTAL PARALLAX. 


UPPER TRANSIT. 


AGE. 


Noon. 


Midnight 


Noon. 


Diflf. for 
z Hour. 


Midnight 


Die for 
z Hour. 


Meridian of 
Greenwich. 


Diff. for 
X Hour. 


Noon. 


t m 

15 22.2 
15 31.2 
15 40.9 


t m 
15 26.6 
15 36.0 
15 46-0 


f m 

56 17.8 
56 50.8 

57 26.6 


m 
+X.3I 

1-43 
1-54 


» m 
56 33.9 

57 8.4 
57 45.4 


• 

+X.37 
X.49 

Z.58 


h m 

15 21.5 

16 12.6 

17 7.4 


m 
2.06 

2.21 
2.35 


d 
I9.I 

20.1 

21. 1 


4 

5 
6 


15 51-3 

16 1.8 

16 12.0 


15 56.5 

16 7.0 

16 16.7 


58 4.6 

58 43-4 

59 20.8 


+1.60 
1.60 
X.48 


58 24.0 

59 2.4 
59 38.1 


+Z.62 
X.56 

1-37 


18 5.2 

19 4.9 

20 4.8 


2.46 
2.50 
2.48 


22.1 
23.1 
24.1 


7 
8 

9 


16 21.0 

16 27.8 

16 31-3 


16 24.7 
16 30.0 
16 31.6 


59 53-7 

60 18.6 

60 31.7 


•fZ.22 

0.80 

+0.25 


60 7.4 
60 26.8 
60 32.9 


+X.03 
+0.54 
-0,06 


21 3-4 

21 59.6 

22 53.6 


2-39 
2.29 
2.20 


25.1 
26.1 
27.1 


lO 

II 

12 


16 30.9 
16 26.3 
16 17.7 


16 29.0 
16 22.5 

16 12.2 


60 30.3 
60 13.3 
59 41-8 


-^•38 

Z.02 

1-57 


60 23.7 
59 59-2 
59 21.5 


-0.70 

X-3I 
X.79 


23 45.7 

6 
36.8 


2.14 
2.X2 


28.1 

29.1 

0.7 


13 
14 
15 


16 6.0 

15 52.4 
15 38.0 


15 59.4 

15 45-2 
15 3I-0 


58 58.8 
58 8.6 

57 15.9 


—1.96 

2. 17 
2.18 


58 34-3 
57 42.3 
56 50-1 


-2.09 

2.X9 
2.XX 


1 27.6 

2 18.9 

3 10.8 


a.z2 

2.X5 

2.18 


1-7 
2.7 

37 


i6 

17 
i8 


15 24.2 
15 11-8 
15 1.7 


15 17.8 

15 6.5 

14 57-5 


56 25.2 
55 39.8 
55 2.4 


—2.02 

1.73 
X.36 


56 1.6 
55 20.0 
54 47-2 


-X.89 

1-55 
x.x6 


4 3-2 

4 55-6 

5 47.2 


2.19 
2.17 

2.Z2 


4.7 
57 
6.7 


19 

20 
21 


14 54-1 
14 49.2 

14 47.2 


14 51-3 

14 47-9 
14 47.1 


54 34-5 
54 i6-8 
54 9-3 


-0.95 

a 52 
— 0.11 


54 24.4 
54 11-8 

54 9-1 


-0.74 
-0.31 
•H>.o8 


6 37-4 

7 25.5 

8 11.6 


2.05 
Z.96 

Z.88 


77 

8.7 

97 


22 

23 
24 


14 47-7 
14 50-6 

14 55-5 


14 48.9 

14 52-8 
14 58.4 


54 "-3 
54 21.9 
•54 39-6 


+0.27 
0.60 
0.86 


54 15.6 
54 29.9 
54 50-6 


+0.44 
0.74 
0.97 


8 55.7 

9 38.5 
10 20.6 


x.8z 

1.76 

1-75 


10.7 
11.7 
12.7 


25 
26 

27 


15 1.8 

15 9.2 
15 17.2 


15 5.4 

15 131 
15 21.3 


55 2.9 
55 300 
55 59-4 


+1.06 
Z.18 
X.25 


55 16. 1 

55 44-5 

56 14-5 


+X.13 
Z.22 
Z.26 


II 2.8 

11 45-9 

12 30.9 


X.77 
1.83 
1.92 


13.7 
14.7 

157 


28 
29 

30 

3^ 


15 25.4 
15 33-6 

15 414 
15 48.9 


15 29.5 
15 37-5 
15 45-3 
15 52.5 


56 29.6 

56 59.6 

57 28.5 
57 56.0 


+1.25 
1.23 
Z.18 

I.IX 


56 44-7 

57 14-2 

57 42.5 

58 9.1 


+1.25 
Z.20 
X.15 
1.08 


13 18.4 

14 9.2 

15 3-4 

16 0.5 


2.05 

2.19 
2.32 
2.42 


16.7 
17.7 
18.7 
19.7 


32 


15 56.0 


15 59-3 


58 21.8 


+1.03 


58 34.0 


+0.99 


16 59.2 


2.46 


20.7 


• 



42 



MARCH, 1899. 



V. 











GREENWICH 


MEAN 


TIME. 














THE MOON'S 


RIGHT 


ASCENSION AND DECLINATION. 






1 
Hoor. 




Right 


DiflF. for 


Declination. 


Diff. for 


Honr. 




Right 


Diff. for 


DeclinatiQii. 


Oiftfor 




Ascension. 


X Minnte. 








X Minute. 




Ascension. 


x Minute. 






I Minute. 






WE 


:dnesi 


3AY 


X. 










FRIDAY 3. 








h 


m 8 


s 


• 


f 


• 


• 




h 


m t 


s 


• • 


• 


• 


O 


13 


27 53.00 


9.0708 


S.14 


21 


12.3 


X0.995 





15 


13 32.68 


a. 33^ 


S.2I 38 


14.8 


6.758 


I 


13 


29 57-52 


a.0777 


14 


32 


10.2 


10.934 


I 


15 


15 5303 


8.34x9 


21 44 


56.8 


6.641 


2 


13 


32 2.33 


3.0827 


14 


43 


4-4 


X0.872 


2 


15 


18 13.71 


a.3474 


21 51 


31.7 


6.533 


3 


13 


34 7-44 


3.0876 


14 


53 


54.8 


XO.808 


3 


15 


20 34.72 


a. 3530 


21 57 


59-4 


6.403 


4 


13 


36 12.84 


3. 0925 


15 


4 


41.4 


XO.745 


4 


15 


22 56.07 


a.3585 


22 4 


20.0 


6.283 


5 


13 


38 18.54 


8.0976 


15 


15 


24.2 


XO.680 


5 


15 


25 17-74 


3.3640 


22 10 


33-2 


6.X59 


6 


13 


40 24.55 


3.XO37 


15 


26 


3-0 


X0.613 


6 


15 


27 39-75 


a. 3695 


22 16 


39-1 


6.096 


7 


13 


42 30.86 


3. 1077 


15 


36 


37-8 


XO.546 


7 


15 


30 2.08 


«.3749 


22 22 


37-5 


9-9U 


8 


13 


44 37-48 


s.xiag 


15 


47 


8.5 


10.477 


8 


15 


32 24.74 


8.38(9 


22 28 


28.4 


5.786 


9 


13 


46 44.41 


S.XX81 


15 


57 


35-1 


10.407 


9 


15 34 47-72 , 


s«SSS7 


22 34 


II. 8 


S.660 


xo 


13 


4S 51-65 


S.x«3 


16 


7 


57-4 


M.SI6 


xo 


15 


57 11. 02 


8.39x0 


22 39 


47.6 


5.53a 


II 


13 


50 59.21 


8.X186 


16 


18 


15.4 


XO.364 


II 


15 


39 34-64 


8.3968 


22 45 


15.7 


5.4<9 


12 


13 


53 7-o8 


8.X338 


16 


28 


29.1 


X0.X9X 


12 


15 


41 58.57 


3.40x5 


22 50 36.0 


5.a73 


13 


13 


55 1527 


t.i39a 


16 


38 38.3 


xo.ix6 


13 


15 


44 22.82 


3.4067 


22 55 


48.5 


5.14a 


14 


13 


57 23.78 


3.1445 


16 


48 


43-0 


X0.04X 


14 


15 


46 47-37 


3.4117 


23 


53.0 


5.009 


15 


13 


59 32.61 


8.1499 


16 


58 


43.2 


9.961 


15 


15 


49 12.23 


8.4x69 


23 5 


49.6 


4.877 


i6 


14 


I 41.77 


a. 1553 


17 


8 


38.7 


9.886 


16 


15 


51 37-40 


3.4320 


23 10 


38.2 


4.743 


17 


14 


3 51-25 


3.X607 


17 


18 


29-5 


9.807 


17 


15 


54 2.87 


8.4359 


23 15 


18.7 


4.607 


i8 


14 


6 1.05 


a. 1662 


17 


28 


15-5 


9.7a6 


18 


15 


56 28.63 


8.43x8 


23 19 


51.0 


4.470 


19 


14 


8 II. 19 


^^-^T^y 


17 


37 


56.6 


9.645 


19 


15 


58 54.69 


8.43^ 


23 24 


15-1 


4*333 


20 


H 


10 21.66 


3.177« 


17 


47 


32.9 


9.562 


20 


16 


I 21.03 


a. 44 14 


23 28 


31.0 


4*i9S 


21 


14 


12 32.46 


3.1827 


17 


57 


4-1 


9.478 


21 


16 


3 47-66 


3.446a 


23 32 


38.5 


4.055 


22 


14 


14 43-59 


3.1883 


18 


6 


30.3 


9.393 


22 


16 


6 14.58 


8.4509 


23 36 


37.6 


3.9x5 


23 


14 


x6 55.06 
Tl 


3.1940 

aURSD 


S.18 
AY 2 


15 

• 


51.3 


9.307 


23 


16 


8 41.77 
S/ 


a. 4554 

lTURD. 


S.23 40 
AY 4. 


28.3 


S.773 


O 


14 


19 6.87 


3.X996 


S.18 


25 


7-1 


9.8x9 





16 


II 9.23 


3.4600 


S.23 44 


10.4 


3. 631 


X 


H 


21 19.01 


8.2053 


18 


34 


17.6 


9. 131 


I 


16 


13 36.97 


8.4645 


23 47 


44.0 


3.488 


2 


14 


23 31-49 


8.3108 


18 


43 


22.8 


9.043 


% 


16 


16 4.97 


«.4689 


23 51 


9.0 


3*344 


3 


14 


25 44.31 


3.3x63 


18 


52 


22.6 


8.950 


3 


16 


18 33.24 


8.473a 


23 54 


25.3 


3.I99 


4 


14 


27 57-47 


8.3233 


19 


I 


16.8 


8.857 


4 


16 


21 1.76 


a. 4774 


23 57 


32.9 


3.053 


5 


H 


30 10.97 


3.3378 


19 


10 


5-5 


8.764 


5 


16 


23 30.53 


8.4816 


24 


31-7 


8.906 


6 


14 


32 24.81 


3.2336 


19 


18 


48.5 


8.669 


6 


16 


25 59.55 


3.4857 


24 3 


21.6 


•.758 


7 


14 


34 39-00 


3.2393 


19 


27 


25.8 


8.573 


7 


16 


28 28.82 


8.4897 


24 6 


2.7 


8.6x0 


8 


14 


36 53.53 


3. 24 SO 


19 


35 


57-3 


8.477 


8 


16 


30 58.32 


a. 4937 


24 8 


34.8 


8.46X 


9 


14 


39 8.40 


3.2507 


19 


44 


23.0 


8.379 


9 


16 


33 28.06 


a. 4975 


24 10 


58.0 


8. 31 1 


lO 


14 


41 23.61 


3.3564 


19 


52 


42.8 


8.279 


10 


16 


35 58.02 


8.50x2 


24 13 


12.1 


8.X60 


XX 


14 


43 39.17 


8.3622 


20 





56.5 


8.178 


II 


16 


38 28.20 


a. 5049 


24 15 


17.2 


8.006 


12 


14 


45 55-07 


2.2679 


20 


9 


4-1 


8.076 


12 


16 


40 58.61 


3.5086 


24 17 


13.1 


1.856 


13 


14 


48 11.32 


a.a737 


20 


17 


5.6 


7.973 


13 


16 


43 29.23 


8.5x30 


24 18 


59.9 


1.703 


14 


14 


50 27.91 


3.3794 


20 


25 


0.8 


7.868 


14 


16 


46 0.05 


3.5153 


24 20 


37.5 


X.549 


15 


14 


52 44-85 


3.2852 


20 


32 


49.7 


7.762 


15 


16 


48 31.07 


2.5186 


24 22 


5.8 


X.S95 


i6 


14 


55 2.13 


3.2908 


20 


40 


32-3 


7.656 


16 


16 


51 2.28 


3.5317 


24 23 


24.9 


X.340 


17 


14 


57 19.75 


3.2966 


20 


48 


8.4 


7*547 


17 


16 


53 33.68 


a.5a49 


24 24 


34.6 


X.084 


i8 


14 


59 37-72 


3.3033 


20 


55 


38.0 


7.438 


18 


16 


56 5.27 


3.5379 


24 25 


35-0 


0.927 


19 


15 


1 56.03 


3.3080 


21 


3 


I.O 


7.328 


19 


16 


58 3703 


8.5308 


24 26 


25.9 


0.770 


ao 


15 


4 14.68 


a.3137 


21 


10 


17-4 


7.317 


20 


17 


I 8.97 


a. 5337 


24 27 


7.4 


0.613 


21 


15 


6 33.67 


8.3193 


21 


17 


27.0 


7.103 


21 


17 


3 41.07 


a. 5363 


24 27 


39.5 


0.456 


22 


15 


8 53.00 


t.3350 


21 


24 


29.8 


6.990 


22 


17 


6 13.33 


a. 5389 


24 28 


2.1 


0.297 


23 


15 


II 12.67 


«.3307 


21 


31 


25.8 


6.875 


23 


17 


8 45.74 


3.5414 


24 28 


15.2 


-O.I37 


24 


15 


13 32.68 


«.3363 


S.2I 


38 


14.8 


6.758 


24 


17 


II 18.30 


a. 5438 


S.24 28 


18.6 


•fo.osx 



VL 



MARCH, 1899. 



48 











GREENWICH 


MEAN 


TIME. 




• 








THE MOON'S 


. RIGHT 


ASCENSION . 


AlNd declination. 




Hour. 




Right 


DifE.for 


Declination. 


Diff.for 


Hour. 




Right 


DiflELfor 


DeclioalliUL 


DIftfor 




Ascension. 


z Minute. 








z Minute. 




Atcensioa 


x Minute. 


m^ ^0^m mmmm^^ M V#A4i 


I Minute. 






C 


>UNDA' 


5^5. 












TUESDAY 7. 






h 


m • 


• 


• 


• 


m 


m 




h 


m 8 


• 


• m 


• 


O 


17 


II 18.30 


•.5438 


S.24 


28 


18.6 


40.082 





19 


14 5.55 


8. 5336 


S.2Z 21 29.5 


7.6^ 


z 


17 


13 51-00 


3. 5461 


24 


28 


12.5 


O.18Z 


I 


19 


16 37.43 


a. 5301 


21 13 45.0 


7.8z6 


2 


17 


16 23.83 


a. 548a 


24 


27 


56.9 


O.S4X 


2 


19 


19 9.16 


8.5874 


21 5 51.6 


7.963 


3 


17 


18 56.79 


2.5503 


24 


27 


31.6 


4».502 


3 


19 


21 40.72 


8.5347 


20 57 49.5 


8.Z07 


4 


17 


21 29.87 


t.55M 


24 


26 


56.6 


0.664 


4 


19 


24 12.12 


8.5320 


20 49 38.7 


8.353 


5 


17 


24 3.06 


a. 5541 


24 


26 


II. 9 


0.825 


5 


19 


26 43.36 


a. 519a 


20 41 19.2 


8.396 


6 


17 


26 36.36 


a. 5558 


24 


25 


17.6 


0.986 


6 


19 


29 14-42 


«.5z6a 


20 32 51.2 


8.537 


7 


17 


29 9.76 


«.5575 


24 


24 


13.6 


X.I48 


7 


19 


31 45-31 


a.5133 


«o 24 14.7 


8.679 


8 


17 


31 43-26 


a. 5591 


24 


22 


59-8 


Z.3IZ 


8 


19 


34 16.02 


a. 5X03 


20 15 «9.7 , 


8.959 


9 


17 


34 16.85 


a. 5604 


24 


21 


36.3 


X.473 


9 


19 


36 46.55 


8.507a 


20 6 36.3 


lO 


17 


36 50-51 


t.5617 


24 


20 


3.1 


X.635 


10 


19 


39 16.89 


8.504a 


19 57 34.6 


9.097 


II 


17 


39 24.25 


8.5629 


24 


18 


20.1 


X.798 


II 


19 


41 47-05 


8.50Z0 


19 48 24.6 


9.335 


12 


17 


41 58.06 


t.5640 


24 


16 


27-3 


Z.962 


12 


19 


44 17.01 


a.4977 


19 39 6.4 


9.370 


13 


17 


44 31-93 


9.5649 


24 


14 


24.7 


8.184 


13 


19 


46 46.78 


a.4945 


19 29 40.2 


9.304 


14 


17 


47 5.85 


t.5657 


24 


12 


12.4 


a.887 


14 


19 


49 16.35 


a.49za 


19 20 5.9 


9.638 


15 


17 


49 39-82 


a. 5665 


24 


9 


50.2 


a.45» 


15 


19 


51 45.72 


8.4878 


19 10 23.6 


9.770 


i6 


17 


52 13-83 


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24 


7 


18.3 


8.6X3 


16 


19 


54 14-89 


8.4845 


19 33.5 


9.900 


17 


17 


54 47.87 


a. 5676 


24 


4 


36.6 


a. 777 


17 


19 


56 43.86 


8.481Z 


18 50 35.6 


Z0.Q30 


i8 


17 


57 21.94 


a. 5680 


24 


I 


45.1 


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18 


19 


59 12.62 


a.4775 


18 40 29.9 


ZO.I58 


19 


17 


59 56.03 


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23 


58 


43.8 


3.10a 


19 


20 


I 41.16 


8.4740 


18 30 16.6 


xo.a8s 


20 


i8 


2 30.14 


a.5685 


23 


55 


32.8 


3.865 


20 


20 


4 9.50 


8.4706 


18 19 55.7 


Z0.4ZZ 


21 


i8 


5 4-25 


8.5686 


23 


52 


12.0 


3.438 


21 


20 


6 37.63 


8.4670 


z8 9 27.3 


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22 


i8 


7 38.37 


a. 5687 


23 


48 


41.4 


3.59a 


22 


20 


9 5.54 


3.4^ 


17 58 51.5 


10.658 


23 


z8 


10 12.49 


a.5685 
fONDA 


S.23 

Y 6. 


45 


z.o 


9*7SS 


23 


20 


zz 33.23 
WE 


a.4597 
DNESE 


S.Z7 48 8.3 
>AY 8. 


10.779 


O 


z8 


12 46.59 


a. 5682 


S.23 


41 


zz.o 


3.9x5 





20 


14 0.71 


3.4568 


S.Z7 37 18.0 


X0.898 


z 


i8 


15 20.67 


a. 5678 


23 


37 


II. 2 


4.077 


Z 


20 


16 27.97 


8.45a5 


17 26 20.5 


IX. 0x7 


2 


z8 


17 54.73 


a. 5673 


23 


33 


1.7 


4.839 


2 


20 


18 55.01 


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17 15 15-9 


XZ.X35 


3 


i8 


20 28.75 


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23 


28 


42.5 


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3 


20 


21 21.82 


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17 4 4-3 


ZZ.351 


4 


i8 


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23 


24 


13.6 


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4 


20 


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XI. 365 


5 


i8 


25 36.68 


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23 


19 


35.1 


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5 


20 


26 14.78 


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6 


i8 


28 10.57 


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23 


14 


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6 


20 


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16 29 48.5 


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7 


i8 


30 44.41 


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23 


9 


49.1 


5.04a 


7 


20 


31 6.84 


a.43oz 


16 18 9.8 


11.699 


8 


i8 


33 18.18 


8.5623 


23 


4 


41.8 


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8 


20 


33 32.53 


a. 4263 


16 6 24.6 


XX.807 


9 


i8 


35 51.89 


8.56x2 


22 


59 


24.9 


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9 


20 


35 58.00 


8.4226 


15 54 33.0 


XZ.913 


lO 


i8 


38 25.52 


a. 5599 


22 


53 


58.5 


5.5x9 


10 


20 


38 23 24 


8.4x87 


15 42 35-0 


13.0x9 


zz 


i8 


40 59.08 


a. 5586 


22 


48 


22.6 


5.677 


II 


20 


40 48.25 


8.4x49 


15 30 30.7 


X3.X33 


Z2 


i8 


43 32.55 


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22 


42 


37.2 


5.835 


12 


20 


43 13-03 


8.4Z13 


15 18 20.2 


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13 


i8 


46 5.93 


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22 


36 


42.4 


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13 


20 


45 37.59 


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15 6 3.7 


13.334 


14 


i8 


48 39.21 


8.5538 


22 


30 


38.2 


6.X47 


14 


20 


48 1.92 


a. 4036 


14 53 41.3 


18.433 


15 


i8 


51 12.39 


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22 


24 


24-7 


6.302 


15 


20 


50 26.02 


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14 41 13.0 


18. 520 


i6 


i8 


53 45-46 


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22 


18 


1-9 


6.457 


16 


20 


52 49.90 


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14 28 38.9 


X8.6x6 


17 


i8 


56 18.42 


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22 


II 


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17 


20 


55 13.55 


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14 15 59.1 


X8.710 


i8 


i8 


58 51.26 


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22 


4 


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18 


20 


57 36.98 


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14 3 13-7 


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19 


19 


I 23.97 


a. 544a 


21 


57 


57.9 


6.9x8 


19 


21 


0.19 


a. 3849 


13 50 22.9 


13.893 


20 


19 


3 56.56 


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21 


50 


58.3 


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20 


21 


a 23.17 


8.38XZ 


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18. 983 


21 


19 


6 29.02 


a. 5398 


21 


43 


49.6 


7*221 


21 


2Z 


4 45-92 


a. 3774 


13 24 25.1 


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22 


19 


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21 


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22 


21 


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XS.X54 


33 


19 


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21 


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5.1 


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23 


21 


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24 


19 


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21 


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24 


21 


zi 52.86 


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S.12 44 49.9 


13.3x9 



44 



MARCH, 1899. 



VIL 







• 




GREENWICH 


MEAN TIME. 










• 






THE MOON'S 


RIGHT 


ASCENSION . 


AND DECLINATION, 


t 






Hour. 




Right 


Diff.tor 


Declination. 


Diff.for 


Hour. 




Right 


Dlff.for 


Declination. 


1 

1 

I>iff.iv 




Aacenaioa 


X Minate. 








z Minute. 




Aacenaioa 


X Minate. 








xMinoto. 






Tt 


lURSDi 


^Y 9. 














SATURDAY 11 


• 








h 


m a 


• 


• 


1 


• 


m 




h 


m 


a 


a 


• 


9 


m 


• 


O 


21 


II 52.86 


•.3663 


S.12 


44 


49.9 


13.319 





23 


I 


53.36 


a. 2343 


S. I 


4 


7.5 


13.900 


I 


21 


14 H-73 


a. 3627 


12 


31 


28.3 


13.400 


I 


23 


4 


7.36 


a. 2326 





48 


55.6 


13.196 


2 


21 


i6 36.39 


«.359a 


12 


18 


1.9 


13.479 


2 


23 


6 


21.27 


a.a3xx 





33 


44.0 


15.190 


3 


21 


18 57.83 


«.3555 


12 


4 


30.8 


13.556 


3 


23 


8 


35.09 


8.2297 





18 


32.8 


15.183 


4 


21 


21 19.05 


a.3519 


II 


50 


55.2 


13.631 


4 


23 


10 


48.83 


8.2282 


S. 


3 


22.0 


15.176 


5 


21 


23 40.06 


S.3484 


IX 


37 


15.X 


13.705 


5 


23 


13 


2.48 


8.2268 


N. 


II 


48.3 


13.««5 < 


6 


21 


26 0.86 


3.3448 


II 


23 


30.6 


13.777 


6 


23 


15 


16.05 


8.2256 





26 


57.8 


15.153 


7 


21 


28 21.44 


8.3413 


II 


9 


41.9 


X3.846 


7 


23 


17 


29.55 


2.2243 





42 


6.6 


15.139 


8 


21 


30 41.82 


•.3380 


10 


55 


49.1 


23. 914 


8 


23 


19 


42.97 


2.2231 





57 


14.5 


15.184 ' 


9 


21 


33 a.oo 


•.3346 


10 


41 


52.2 


13.981 


9 


23 


21 


56.32 


8.82X9 


X 


12 


21.5 


15.107 ! 


xo 


21 


35 21.97 


a. 33" 


10 


27 


51.4 


14.046 


10 


23 


24 


9.60 


8.aaoB 


X 


27 


27.4 


15.089 


II 


21 


37 41.73 


«.3a77 


10 


13 


46.7 


I4.XO9 


II 


23 


26 


22.82 


8.S198 


X 


42 


32.2 


15.06B 


12 


21 


40 1.30 


a. 3*43 


9 


59 


38.3 


X4.X7O 


12 


23 


28 


35.98 


8.8X88 


X 


57 


35-6 


15.046 


13 


21 


42 20.67 


a.3axa 


9 


45 


26.3 


14.330 


13 


23 


30 


49.08 


8.8X79 


2 


12 


37.7 


15.033 


14 


21 


44 39.84 


a. 3178 


9 


31 


10.7 


X4.287 


14 


23 


33 


2.13 


8.3x70 


2 


27 


38.4 


14.998 ; 


15 


21 


46 58.81 


a. 3147 


9 


16 


51.8 


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15 


23 


35 


15.12 


3.2x62 


a 


42 


37.5 


H.973 


x6 


21 


49 17.60 


a.3116 


9 


2 


29.5 


14.398 


16 


23 


37 


28.07 


a. 2154 


2 


57 


350 


H*944 


17 


21 


51 36.20 


a. 3084 


8 


48 


4.0 


X4«45X 


17 


23 


39 40.97 


a.ai47 


3 


12 


30.8 


14.914 


i8 


21 


53 54.61 


a. 305a 


8 


33 


35.4 


14. 502 


18 


23 


41 


53-83 


8.2140 


3 


27 


24.7 


14. 88s 


19 


21 


56 12.83 


a. 3022 


8 


19 


3.8 


14.550 


19 


23 


44 


6.65 


8.2x34 


3 


42 


16.7 


14.850 


20 


21 


58 30.87 


a.a»a 


8 


4 


29.4 


14.597 


20 


23 


46 


19.44 


a. 2128 


3 


57 


6.7 


14.815 


21 


22 


48.73 


8.2962 


7 49 


52.2 


14.642 


21 


23 


48 


32.19 


8.2X22 


4 


II 


54.5 


M.779 


22 


22 


3 6.42 


a. 2933 


7 35 


12.3 


X4.686 


22 


23 


50 


44.91 


8. ax 18 


4 


26 


40.2 


«4.748 , 


«3 


22 


5 23.93 


2.2904 

i'RIDA^ 


S. 7 
' 10. 


20 


29.9 


14.737 


23 


23 


52 


57.61 

s 


8.8XX3 

UNDA\ 


N. 4 
' 12. 


41 


23.6 


14.704 


o 


22 


7 41.27 


a.a876 


S. 7 


5 


45.0 


14.767 





23 


55 


10.27 


8.3X09 


N. 4 


56 


4.7 


14-«4 


X 


22 


9 58.44 


a. 2847 


6 


50 


57.8 


24. 806 


X 


23 


57 


22.93 


8.2x07 


5 


10 


43.3 


14.682 , 


2 


22 


12 15.44 


2.2820 


6 


36 


8.3 


14.843 


2 


23 


59 35.55 


8.8X03 


5 


25 


19.3 


14.577 [ 


3 


22 


14 32.28 


a. 2793 


6 


21 


16.7 


U.877 


3 





I 


48.16 


8.2XOX 


5 


39 


52.6 


14.532 


4 


22 


16 48.96 


2.2767 


6 


6 


23.1 


X4.910 


4 





4 


0.76 


8.3099 


5 


54 


23.2 


14.487 


5 


22 


19 5.48 


a.a740 




51 


27.5 


X4.941 


5 





6 


13.35 


8.2097 


6 


8 


51.1 


14.440 


6 


22 


21 21.84 


2.2714 




36 


30.2 


X4.970 


6 





8 


25.93 


a.3097 


6 


23 


16.0 


14.390 


7 


22 


23 38.05 


S.2690 




21 


31.1 


X4.998 


7 





10 


38.51 


8.2096 


6 


37 


37-9 


14.339 


8 


22 


25 54.12 


2.2666 




6 


30.4 


13.024 


8 





12 


51.08 


a. 2096 


6 


51 


56.7 


14.887 


9 


22 


28 10.04 


2.264X 




51 


28.2 


15.048 


9 





15 


3.66 


3.3097 


7 


6 


12.4 


14*834 


xo 


22 


30 25.81 


2.2617 




36 


24.6 


X5.070 


10 





17 


16.24 


8.2097 


7 


20 


24.8 


14.179 


IX 


22 


32 41-44 


a. 2394 




21 


19.8 


15.091 


II 





19 


28.82 


a.3097 


7 


34 


33.9 


I4.X83 


12 


22 


34 56.94 


2.257a 




6 


13.7 


15. no 


12 





21 


41.41 


a.2099 


7 48 


39-6 


14.066 ' 


13 


22 


37 12.30 


2.2549 


3 


51 


6.6 


X5.I26 


13 





23 


54.01 


8.8108 


8 


2 


41.8 


14.007 


14 


22 


39 27.53 


2.9528 


3 


35 


58.6 


15.141 


14 





26 


6.63 


2.2x04 


8 


16 


40.5 


XS.947 ' 


15 


22 


41 42.64 


a. 2307 


3 


20 


49.7 


X5.155 


15 





28 


19.26 


a.aio6 


8 


30 


35.5 


13.885 


i6 


22 


43 57.62 


2.3487 


3 


5 


40.0 


15.167 


16 





30 


31.90 


8.2x09 


8 


44 


26.7 


13*888 


17 


22 


46 12.48 


a. 2467 


2 


50 29.7 


«5.i77 


17 





32 


44.57 


2.2X13 


8 


58 


14. 1 


13.758 ' 


i8 


22 


48 27.22 


2.2447 


2 


35 


18.8 


X5.186 


18 





34 


57.26 


a.2xx7 


9 


II 


57.7 


13.693 


19 


22 


50 41.84 


8.2428 


2 


20 


7.4 


15.19a 


19 





37 


9.97 


a.2I2X 


9 


25 


37.3 


13.606 


20 


22 


52 56.36 


a. 24 10 


2 


4 


55.7 


15.197 


20 





39 


22.71 


8.8X86 


9 


39 


12.8 


IS. 557 


21 


22 


55 10.76 


2.2392 


I 


49 


43.8 


xs.aoo 


21 


c 


41 


35.48 


8.2I3X 


9 


52 


44.2 


13*488 , 


22 


22 


57 25.06 


8.2375 


I 


34 


31.7 


X5.202 


22 





43 


48.28 


8.8136 


10 


6 


11.4 


13.417 


23 


22 


59 39-26 


2.2358 


X 


19 


19.6 


15.202 


23 





46 


I. II 


8.8X41 


10 


19 


34.3 


13.346 


•4 

i 


»3 


I 53.36 


2.2343 


S. X 


4 


7.5 


X5.200 


24 





48 


13.97 


8.8M7 


N.io 

1 


32 


52.9 


«3.873 

1 



VIII. 



MARCH, 1899. 



45 











GREENWICH 


MEAN TIME. 
















THE MOON'S RIGHT ASCENSION 


AND DECLINATION 


• 






Hoar. 


Right 


Dilf. for 


Declination. 


Dtff. for 


Honr. 




Right 


Diff.for 


Declination. 


Diff.for 




Ascension. 


z Minute. 








I Minnte. 




Ascension. 


X Minnte. 








1 Minnta. 






M 


ONDA^ 


? 13. 














WEDNESDAY 1 


t5. 








h m 


s 


8 


e 


r 


m 


m 




h 


m 


8 


8 


e 


r 


m 


m 


O 


o 48 


13-97 


a. 2147 


N.io 


32 


52.9 


13. 873 





2 


35 


35.80 


3.3613 


N.I9 


25 


30.8 


«.573 


Z 


50 


26.87 


a.ai53 


10 


46 


7-1 


13.198 


I 


2 


37 


51.51 


8.3623 


19 


34 


1-7 


8.457 


2 


52 


39.81 


a. 3160 


10 


59 


16.7 


X3.123 


2 


2 


40 


7.28 


3.3633 


19 


42 


25.6 


8.339 


3 


54 


52.79 


8.31G7 


II 


12 


21.8 


13.047 


3 


2 


42 


23.10 


3.3643 


19 


50 


42.4 


8.331 


4 


57 


5.81 


2.ai73 


II 


25 


22.3 


13.9^ 


4 


2 


44 


38.98 


3.3650 


19 


58 


52.1 


8.108 


5 


59 


18.87 


2.2181 


II 


38 


18.0 


12.889 


5 


2 


46 


54-90 


a. 3657 


20 


6 


54.6 


7.983 


6 


I I 


31.98 


2.2188 


II 


51 


9.0 


13. 809 


6 


2 


49 


10.87 


3.2666 


20 


14 


50.0 


7.863 


7 


I 3 


45-13 


2.2197 


12 


3 


55.1 


12.727 


7 


2 


51 


26.89 


3.3674 


20 


22 


38.2 


7.74a 


8 


I 5 


58.34 


2.2205 


12 


16 


36.3 


12.645 


8 


2 


53 


42.96 


3.3683 


20 


30 


19. 1 


7.633 


9 


I 8 


11.59 


2.2213 


12 


29 


12.5 


I2.5G2 


9 


2 


55 


59.07 


3.3688 


20 


37 


52.8 


7.50X 


lO 


I 10 


24.89 


2.2222 


12 


41 


43.7 


12.477 


10 


2 


58 


15.22 


3.2695 


20 


45 


19.2 


7.379 


II 


I 12 


38.25 


2.223a 


12 


54 


9.8 


ta.39« 


II 


3 





31.41 


2.2702 


20 


52 


38.3 


7.a57 


12 


I 14 


51.67 


2.3241 


13 


6 


30-7 


13.305 


12 


3 


2 


47.64 


2.2708 


20 


59 


50.1 


7.J35 


13 


I 17 


5.14 


2.2249 


13 


18 


46.4 


12.217 


13 


3 


5 


3-91 


2.2714 


21 


6 


54-5 


7.01a 


14 


I 19 


18.66 


a. 2258 


13 


30 


56.7 


12.127 


14 


3 


7 


20.21 


2.2720 


21 


13 


51.6 


6.889 


15 


I 21 


32.24 


2.2268 


13 


43 


1.7 


12.037. 


15 


3 


9 


36.55 


3.3726 


21 


20 


41.2 


6.765 


i6 


I 23 


45-88 


2.2277 


13 


55 


1.2 


XI.947 


16 


3 


II 


52.92 


8.3731 


21 


27 


23.4 


6.643 


17 


I 25 


59.57 


a. 2287 


14 


6 


55.3 


".855 


17 


3 


14 


9-32 


3.3736 


21 


33 


58.2 


6.517 


i8 


I 28 


13-33 


a. 2298 


14 


18 


43.8 


XZ.762 


18 


3 


16 


25.75 


3.3740 


21 


40 


25.5 


6.393 


19 


I 30 


27.15 


2.2308 


14 


30 


26.7 


XI. 667 


19 


3 


18 


42.20 


3.3743 


21 


46 


45.3 


6. 367 


20 


I 32 


41.03 


2.2318 


14 


42 


3.9 


xi.57« 


20 


3 


20 


58.67 


3.2747 


21 


52 


57.6 


6.143 


21 


I 34 


54-97 


2.2329 


14 


53 


35.4 


".477 


21 


3 


23 


15.16 


3,2750 


21 


59 


2.4 


6.017 


22 


I 37 


8.98 


a.a339 


15 


5 


I.I 


IX. 379 


22 


3 


25 


31-67 


a. 2753 


22 


4 


59.7 


5.898 


23 


I 39 


23.04 
Tl 


2.2349 

JESDA 


N.15 
Y 14. 


16 


20.9 


XX. 28a 


23 


3 


27 


48.20 

TH 


8.8755 

URSDi\ 


N.22 

lY 16 


10 

• 


49.4 


5.766 


O 


I 41 


37-17 


a.236z 


N.15 


27 


34.9 


XX. 183 





3 


30 


4.73 


3.3757 


N.22 


16 


31.6 


5.640 


I 


I 43 


51.37 


2.2372 


15 


38 


42.9 


11. 083 


I 


3 


32 


21.28 


8.8759 


22 


22 


6.2 


5.513 


2 


I 46 


5-63 


2.2382 


15 


49 


44.9 


10.982 


2 


3 


34 


37-84 


3.3760 


22 


27 


33-2 


5. 386 


3 


I 48 


19.95 


2.2392 


16 





40.8 


XO.88Z 


3 


3 


36 


54-40 


3.3761 


22 


32 


52.5 


5.859 


4 


I 50 


34.34 


2.3404 


16 


II 


30.6 


XO.779 


4 


3 


39 


10.97 


8.3761 


22 


38 


4.3 


5.13a 


5 


1 52 


48.80 


a. 2415 


16 


22 


14-3 


10. 676 


5 


3 


41 


27-53 


8. 3761 


22 


43 


8.4 


5.005 


6 


I 55 


3.32 


a. 2426 


16 


32 


51.7 


10. 57a 


6 


3 


43 


44.10 


8.3761 


22 


48 


4.9 


4.878 


7 


I 57 


17.91 


2.2437 


16 


43 


22.9 


10.467 


7 


3 


46 


0.66 


a.«759 


22 


52 


53-8 


4.751 


: 8 


I 59 


32.57 


2.2448 


16 


53 


47.8 


10.363 


8 


3 


48 


17.21 


3.2757 


22 


57 


35-0 


4.633 


9 


2 I 


47.29 


2.2459 


.17 


4 


6.3 


10.255 


9 


3 


50 


33.75 


a. 2755 


23 


2 


8.6 


4.496 


lO 


2 4 


2.08 


2.2471 


17 


14 


18.4 


10. 148 


10 


3 


52 


50.27 


8.3753 


23 


6 


34-5 


4.367 


II 


2 6 


16.94 


2.2482 


17 


24 


24.1 


10.040 


II 


3 


55 


6.78 


3.2750 


23 


10 


52.7 


4.340 


12 


2 8 


31.86 


2.249a 


17 


34 


23.2 


9.931 


12 


3 


57 


23.27 


2.2747 


23 


15 


3-3 


4. 118 


13 


2 10 


46.85 


2.2503 


17 


44 


15.8 


9.822 


13 


3 


59 


39.74 


8.2742 


23 


19 


6.2 


3.984 


14 


2 13 


1.90 


2.2513 


17 


54 


1.9 


9.713 


14 


4 


I 


56.18 


8.2738 


23 


23 


1.4 


3.857 


15 


2 15 


17.01 


a. 2524 


18 


3 


41.3 


9.601 


15 


4 


4 


12.60 


8.2734 


23 


26 


49.0 


3.789 


i6 


2 17 


32.19 


a. 2535 


18 


13 


14.0 


9.489 


16 


4 


6 


28.99 


3.2728 


23 


30 


28.9 


3.601 


17 


2 19 


47-43 


2.2545 


18 


22 


40.0 


9.377 


17 


4 


8 


45-34 


3.3722 


23 


34 


I.I 


3.47a 


i8 


2 22 


2.73 


3.2555 


18 


31 


59.3 


9.265 


18 


4 


II 


1.66 


8.2717 


23 


37 


25.6 


3.344 


19 


2 24 


18.09 


2.2566 


18 


41 


II. 8 


9. 151 


19 


4 


13 


17.94 


8.3709 


23 


40 


42.4 


3.817 


20 


2 26 


33-52 


2.2576 


18 


50 


17.4 


9.037 


20 


4 


15 


34-17 


8.3701 


23 


43 


51.6 


3.089 


21 


2 28 


49.00 


2.2586 


18 


59 


16.2 


8.922 


21 


4 


17 


50.35 


a. 3693 


23 


46 


53.1 


3.961 


22 


2 31 


4-55 


2.2596 


19 


8 


8.0 


8.806 


22 


4 


20 


6.49 


3.3686 


23 


49 


46.9 


3.833 


23 


2 33 


20.15 


2.2604 


19 


16 


52.9 


8.690 


23 


4 


22 


22.58 


2.2677 


23 


52 


33-0 


3.705 


24 


2 35 


35-80 


2.2613 


N.19 


25 


30.8 


8.573 


24 


4 


24 


38.61 


3.3667 


N.23 


55 


11.5 


a. 577 



46 



MARCH, 1899. 



IX. 













GREENWICH 


MEAN 


TIME. 


















THE MOON'S 


RIGHT 


ASCENSION AND DECLINATION. 








Hour. 


Right 
Ascension. 


Diff. for 
I Minute. 


Declinatioa 


Diff. for 
I Minute. 


Hour. 


Right 
Ascensioa 


Diff. for 
X Minute. 


Declinatioa 


Diff. for 
X Minute. 








f 


•RIDAY 


• 17. 














SUNDAY 19. 












m 


s 


• 


e 


t 


m 


m 




h 


m 


a 


s 


e 


* 


If 


ft 







24 


38.61 


t.a667 


N.23 


55 


II.5 


a. 577 





6 


II 


26.16 


2.1663 


N.23 


36 


17.3 


3.228 


I 




26 


54-59 


a.a637 


23 


57 


42.3 


2.450 


I 


6 


13 


36.05 


2. 1633 


23 


33 


0.3 


3.339 


2 




29 


10.50 


«.a647 


24 





5.5 


2.322 


2 


6 


15 


45.76 


2.l602 


23 


29 


36.6 


3.450 


3 




31 


26.35 


8.2636 


24 


2 


21.0 


2.195 


3 


6 


17 


55.28 


2.1572 


23 


26 


6.3 


3.559 


4 




33 


42.13 


a. 2624 


24 


4 


28.9 


2.068 


4 


6 


20 


4.62 


2.154X 


23 


22 


29.5 


3.667 


5 




35 


57.84 


a.2612 


24 


6 


29.2 


1.941 


5 


6 


22 


13.77 


2.X509 


23 


18 


46.2 


3.776 


6 




38 


13-47 


2.aS99 


24 


8 


21.8 


1.8x4 


6 


6 


24 


22.73 


2. 1477 


23 


14 


56.4 


3. 883 


7 


4 40 


29.03 


1.2587 


24 


10 


6.9 


1.687 


7 


6 


26 


31.50 


2.1446 


23 


II 


0.2 


3.991 


8 


4 42 


44.51 


2.2573 


24 


II 


44-3 


x.S6x 


8 


6 


28 


40.08 


2.I415 


23 


6 


57.5 


4.097 


9 


4 44 


59.91 


2.2559 


24 


13 


14.2 


X.435 


9 


6 


30 


48.48 


2. 1383 


23 


2 


48.5 


4. 203 


lO 


4 47 


15.22 


a.2545 


24 


14 


36.5 


X.308 


10 


6 


32 


56.68 


2.X350 


22 


58 


33-1 


4.310 


II 




49 


30.45 


2.2531 


24 


15 


51.2 


X.X82 


II 


6 


35 


4.68 


2.13x7 


22 


54 


".3 


4.4x4 


12 




51 


45.59 


2.2315 


24 


16 


58.4 


1.057 


12 


6 


37 


12.49 


2.1286 


22 


49 


43.4 


4.5>7 


13 




54 


0.63 


2.2498 


24 


17 


58.1 


0.932 


13 


6 


39 


20.11 


2. 1253 


22 


45 


9.2 


4.622 


14 




56 


15.57 


2.2482 


24 


18 


50.2 


0.807 


14 


6 


41 


27.53 


2.I220 


22 


40 


28.7 


4.726 


15 




58 


30-41 


2.2465 


24 


19 


34-9 


0.682 


15 


6 


43 


34-75 


2.XX87 


22 


35 


42.1 


4.828 


i6 







45.15 


2.2447 


24 


20 


12.0 


0.557 


16 


6 


45 


41.78 


2.1155 


22 


30 


49.3 


4.930 


17 


5 


2 


59.78 


2.2429 


24 


20 


41.7 


0.433 


17 


6 


47 


48.61 


2.II2X 


22 


25 


50.5 


5.031 


i8 


5 


5 


14.30 


2.24XZ 


24 


21 


4-0 


0.309 


18 


6 


49 


55-23 


2.1087 


22 


20 


45-6 


5.132 , 


19 


5 


7 


28.71 


2.2392 


24 


21 


18.8 


0.185 


19 


6 


52 


1.66 


2.1055 


22 


15 


34.6 


5.232 1 


20 


5 


9 


43.01 


2.2373 


24 


21 


26.2 


•fo.062 


20 


6 


54 


7.89 


2.1022 


22 


10 


17.7 


5.332 i 


21 


5 


II 


57.19 


2.2352 


24 


21 


26.2 


-o.o6x 


21 


6 


56 


13.92 


2.0988 


22 


4 


54.8 


5.431 


22 


5 


14 


11.24 


2.2332 


24 


21 


18.9 


0.Z83 


22 


6 


58 


19.75 


2.0955 


21 


59 


26.0 


5.529 


23 


5 


16 


25.17 
SA 


2.2312 

TURD/ 


N.24 

LY 18 


21 

• 


4.2 


0.307 


23 


7 





25.38 
M 


2.0921 

ON DAI 


N.2I 

r 20. 


53 


51.3 


5.627 





5 


18 


38.98 


2.2291 


N.24 


20 


42.1 


0.429 





7 


2 


30.80 


a. 0887 


N.21 


48 


10.8 


5.723 


I 


5 


20 


52.66 


2.2269 


24 


20 


12.7 


0.550 


I 


7 


4 


36.02 


a. 0854 


21 


42 


24.5 


5.820 


2 


5 


23 


6.21 


2.2247 


24 


19 


36.1 


0.671 


2 


7 


6 


41.05 


a. 0821 


21 


36 


32.4 


5.917 


3 


5 


25 


19.62 


a. 2224 


24 


18 


52.2 


0.792 


3 


7 


8 


45.87 


2.0786 


21 


30 


34.5 


6.0x2 


4 


5 


27 


32.90 


2.220Z 


24 


18 


I.O 


0.9x2 


4 


7 


10 


50.48 


2.0753 


21 


24 


31.0 


6.X06 ; 


5 


5 


29 


46.03 


2.2x77 


24 


17 


2.7 


X.032 


5 


7 


12 


54.90 


2.0720 


21 


18 


21.8 


6.200 1 


6 


5 


31 


59.03 


8.2x54 


24 


15 


57.1 


X.I52 


6 


7 


14 


59.12 


2.0686 


21 


12 


7.0 


6.293 


7 


5 


34 


11.88 


2.2130 


24 


14 


44.4 


X.272 


7 


7 


17 


313 


8.0653 


21 


5 


46.6 


6.386 


8 


5 


36 


24-59 


a. 2105 


24 


13 


24.5 


X.390 


8 


7 


19 


6.95 


2.0619 


20 


59 


20.7 


6.477 


9 


5 


38 


37.14 


a. 2080 


24 


II 


57.6 


X.508 


9 


7 


21 


10.56 


2.0585 


20 


52 


49.3 


6.569 ' 


10 


5 


40 


49.55 


2.2055 


24 


10 


23.5 


X.627 


10 


7 


23 


13-97 


2.0552 


20 


46 


12.4 


6.660 


II 


5 


43 


1.80 


2.2029 


24 


8 


42.4 


1.744 


II 


7 


25 


17.18 


2.05x8 


20 


39 


30.1 


6.750 


12 


5 


45 


13.90 


a. 2003 


24 


6 


54-2 


X.862 


12 


7 


27 


20.19 


8.0485 


20 


32 


42.4 


6.839 


13 


5 


47 


25.84 


2.1977 


24 


4 


59.0 


1.978 


13 


7 


29 


23.00 


2.0452 


20 


25 


49.4 


6.928 


14 


5 


49 


37.62 


2.1950 


24 


2 


56.8 


2.094 


14 


7 


31 


25.61 


2.04x9 


20 


18 


51.0 


7.0x7 


15 


5 


51 


49.24 


2. 1922 


24 





47-7 


2.210 


15 


7 


33 


28.03 


2.0386 


20 


II 


47.4 


7.104 


16 


5 


54 


0.69 


2.1894 


23 


58 


31.6 


2.326 


16 


7 


35 


30.24 


2.0352 


20 


4 


38.5 


7.19a 


17 


5 


56 


11.97 


2.1867 


23 


56 


8.6 


2.440 


17 


7 


37 


32.26 


2.0320 


19 


57 


24.4 


7.«77 


18 


5 


58 


23.09 


2.1839 


23 


53 


38.8 


2.553 


18 


7 


39 


34.08 


2.0287 


19 


50 


5.2 


7.363 


19 


6 





34.04 


2. 181 I 


23 


51 


2.2 


2.667 


19 


7 


41 


35.71 


2.0255 


19 


42 


40.8 


7.448 


20 


6 


2 


44.82 


2.X782 


23 


48 


18.7 


2.782 


20 


7 


43 


37-14 


2.0222 


19 


35 


H.4 


7.532 

1 


21 


6 


4 


55-42 


2.175a 


23 


45 


28.4 


2.894 


21 


7 


45 


38.38 


2.0190 


19 


27 


36.9 


7.617 . 


22 


6 


7 


5.84 


2.1722 


23 


42 


31.4 


3.006 


22 


7 


47 


39.42 


2.0157 


19 


19 


57-4 


7.700 


23 


6 


9 


16.09 


2.1693 


23 


39 


27.7 


3.x 17 


23 


7 


49 


40.27 


2.0126 


19 


12 


12.9 


7.782 I 


24 


6 


11 


26 16 


8.1663 


N.23 


36 


17.3 


3.228 


24 


■ 7 

1 


51 


40.93 


2.0094 


N.I9 


4 


23.6 


7.863 

1 



X. 



MARCH, 1899. 



47 



GREENWICH MEAN TIME. 



Hoar. 



O 

I 

a 

3 

4 

5 
6 

7 
8 

9 

lO 

II 

12 

13 

14 

15 
i6 

17 

i8 

19 

20 
21 
22 
23 



O 

I 
2 

3 

4 
5 
6 

7 
8 

9 

lO 

II 

12 

13 

14 

15 
i6 

17 
i8 

19 

20 
21 
22 

23 
«4 



THE MOON'S RIGHT ASCENSION AND DECLINATION. 



Right 
Ascension. 



Diff. for 
X Minute. 



Declination. 



Diff. for 
I Minute. 



TUESDAY ai. 



h 

7 
7 
7 
7 

7 

8 

8 
8 
8 
8 



m 
51 
53 
55 
57 

59 

I 

3 
5 
7 
9 



8 II 
8 13 

8 15 
8 17 

8 19 

8 21 

8 23 
8 25 
8 27 
8 29 
8 31 
8 33 
8 35 
8 37 



8 39 
8 40 

8 42 

8 54 

8 46 

8 48 
8 50 
8 52 

8 54 
8 56 

8 58 

9 o 



■ 

40-93 
41.40 

41.68 

41-77 
41.68 

41.40 

40.94 

40.29 

39-46 
38.46 

37.27 

35-91 

34-37 
32.66 

30.78 

28.72 

26.50 

24.11 

21.55 
18.83 

15.95 
12.91 

9.71 

6.36 



s 
2.0094 

9.0062 

2.003X 
2.0000 

X.9969 
1.9938 
X.9907 
X.9877 
X.9B47 
1.98x7 

x.97»7 
X.9757 
X.9729 
X.970X 

1.9672 
X.9643 
X.96Z6 

X.9587 
X.9S60 

X.9S33 

X.9507 
X.9480 

1.9454 
Z.9428 



N. 



N. 



9 4 
8 56 

8 48 

8 40 

8 32 

8 24 

8 15 
8 7 



7 

7 

7 

7 

7 

7 

7 
6 

6 

6 

6 

6 

6 

6 



58 
50 
41 
33 

24 

15 
6 

57 
48 

39 
30 

21 
II 

a 



5 52 
5 43 



WEDNESDAY aa. 



9 
9 
9 
9 
9 
9 
9 
9 
9 
9 
9 
9 
9 



a 

4 

5 

7 

9 
II 

13 

15 

17 

19 
21 

23 
24 



2.85 


x.94oa 


U.i 


59.19 


X.9377 




55.38 


x.935a 




51.42 


I. 93*8 




47.32 


X.9304 




43.07 


x.9a8o 




38.68 


X.9257 




34-15 


X.9233 




29.48 


X.93ZX 




24.68 


X.9189 




19.75 


X.9167 




14.69 


X.9146 




9.50 


X.9X25 




4.19 


1.9x04 




58.75 


X.9083 




53.19 


X.9063 




47.51 


X.9044 




41.72 


X.9025 




35.81 


X.9007 




29.80 


X.8989 




23.68 


X.8971 




17.45 


X.8953 




II. 12 


1.8937 




4.69 


1.8920 




58.16 


1.8904 


N.I 



5 

5 

5 

5 

4 

4 

4 

4 

4 

4 

3 

3 

3 

3 

3 

3 
2 

2 

2 

2 
2 

I 
I 
I 
I 



33 
24 

14 
4 
54 
44 
34 
24 
14 
4 

54 
43 
33 
23 
12 

2 

51 
40 
30 

19 

8 

57 
47 
36 
25 



23.6 

29.3 
30.2 

26.3 

17.6 

4.1 
46.0 

23.2 

55.9 

23-9 

47.4 
6.4 

ai.o 

31.1 
36.9 
38.3 

35.4 

28.2 

16.8 

1.3 
41.6 

17.8 

49.9 
18.0 



42.1 

2.3 

18.5 

30.9 
39.4 
44.2 
45-2 

42.4 
36.0 

26.0 

12.3 

55.1 

34.4 
10.2 

42.6 

II. 6 

37.2 

59.4 
18.4 

34-2 

46.7 

56.1 

2.3 
5.4 
5-5 



7.863 

7.945 
8.02s 
8.X05 
8.18s 
8.263 
8.54X 
8.4x7 

8.494 
8.571 
8.646 
8.720 

8.794 
8.867 
8.940 
9.0x2 
9.084 

9.155 
9.224 

9.293 
9.362 

9.43X 
9.498 
9.565 



9.^1 
9.697 
9.762 
9.826 
9.889 
9.952 
XO.OZS 
10. 077 

XO.X37 
XO.Z97 
10.257 
XO.3Z6 

XO.374 
10.43a 
XO.488 

XO.545 
XO.602 
XO.657 
XO.710 
XO.764 
XO.817 
X0.870 
XO.922 

XO.973 
XX. 023 



Hoor. 



O 

I 

a 

3 

4 

5 
6 

7 
8 

9 
10 

II 

12 

13 

14 

15 
16 

17 
18 

19 
20 

21 

22 

23 



O 

I 
2 

3 

4 

5 
6 

7 

8 

9 
10 

II 

12 

13 

14 

15 
16 

17 
18 

19 
20 

21 

22 

23 
24 



Right 
Ascensioa 



Diff. for 
z Minute. 



Declinatioa 



DiflLfor 
z Minute. 



THURSDAY 23. 



h 

9 

9 

9 

9 

9 

9 

9 

9 

9 

9 

9 

9 

9 

9 

9 

9 

9 

9 

9 
10 

10 

10 

10 

10 



10 
10 
10 
10 
10 
10 
10 
10 
10 
10 
10 
10 
10 
10 
10 
10 
10 
10 
10 
10 
10 
10 
10 
10 
10 



m 

24 
26 

28 

30 

32 

34 
36 
38 
40 

41 
43 
45 
47 
49 
51 
53 
55 
56 
58 
o 
2 

4 
6 

8 



9 

II 

13 

15 

17 

19 
21 

23 

24 

26 

28 
30 
32 

34 
36 

37 
39 
41 
43 
45 
47 
49 
51 
52 

54 



■ 
58.16 

51.54 
44.82 
38.02 

31.13 

24.16 

17. 1 1 

9.97 
2.77 

55.49 
48.14 

40.72 

33.24 

25.70 

18.10 

10.44 

2.73 
54.97 

47.17 
39.32 

31.43 

23.51 

15.56 

7.57 



8904 

8888 
8873 
8859 
8845 
8832 
8818 
8805 

8793 
878X 

8769 
8758 
8748 
8738 
8728 
8719 
87ZZ 
8703 
8696 
8688 
8682 
8677 
8672 
8666 



N. 



II 25 
II 14 
II 2 
10 51 
10 40 
10 29 
10 18 
10 6 



9 
9 
9 
9 
9 



55 
43 
32 
20 

9 



8 57 
8 46 

8 34 
8 22 
8 II 



N. 



7 

7 

7 

7 

7 
6 



59 

47 

35 

23 
II 

59 



FRIDAY 24, 



59.55 


X.8662 


51.51 


X.8657 


43.44 


X.8654 


35.36 


x.865a 


27.26 


X.8649 


19.15 


X.8647 


11.03 


X.8646 


2.90 


X.8645 


54.77 


X.8645 


46.64 


x.8646 


38.52 


x.8646 


30.40 


x.8647 


22.29 


1.8649 


14.19 


X.8652 


6. II 


X.8655 


58.05 


X.8658 


50.01 


Z.8662 


42.00 


•X.8667 


34.02 


X.8672 


26.07 


X.8678 


18.16 


X.8684 


10.28 


X.869X 


2.45 


1.8699 


54.67 


1.8707 


46.93 


1.8715 



N. 



6 47 
6 35 
6 23 

6 II 



5 

5 

5 

5 

5 

4 

4 

4 

4 

4 

3 

3 

3 

3 

3 
a 

a 

a 

a 



59 

47 

34 
22 

10 
58 
45 

33 
21 

8 
56 
43 

31 
18 

6 

53 

41 
28 

16 



N. 



2 3 

I 50 



5.5 
2.6 

56.8 

48.0 

36.3 
21.8 

4.4 

44.3 
21.5 
56.0 
27.8 

57.1 
23.8 

48.0 

9.7 
28.9 

45.7 
0.2 

12.4 

22.3 

30.0 

35.5 
38.8 

40.0 



39.3 

36.5 
31.6 

24.9 
16.2 

5.7 

53.4 

39.3 

23.5 
6.0 

46.9 
26.2 

3.9 
40.1 

14.9 

48.3 
20.3 

51.0 
20.4 

48.6 
15.6 

41.5 

6.3 
30.0 

52.8 



I 



XX. 023 
XX.072 

XX.X92 

XX.X7X 
xx.ax8 
XZ.966 

XX. 3x2 

XX.357 

XX.402 

".447 
XX.49X 

XI. 533 
XI.576 
XX. 617 
XI. 659 
XX.700 
XX. 739 

11.777 

XI.8I6 
11.853 

XX. 890 

XI.927 

XX. 962 

XX.996 



la.029 

12.064 
X2.097 

X2.Z28 
X2.X60 
X2.X90 
X2.220 
X2.249 
X2.277 
X2.3OS 
Xa.339 
Xa.358 
Xa.384 

X2.408 
X2.432 
la.455 
xa.477 

X2.499 
x2.5ao 
X2.540 
X2.559 

xa.577 
X2.596 

X2.612 

12.628 



48 



MARCH, 1899. 



XI. 



GREENWICH MEAN TIME. 



Hour. 



O 

I 
2 

3 

4 

5 
6 

7 

8 

9 

lO 

II 

12 

13 

14 

15 
i6 

17 
i8 

19 

20 
21 
22 

23 



O 

I 
2 

3 

4 

5 
6 

7 
8 

9 

lO 
IX 
12 

13 

14 

15 
i6 

17 

i8 

19 

20 
21 
22 

23 

24 



THE MOON'S RIGHT ASCENSION AND DECLINATION. 



Right 
Ascension. 



Diff. for 
X Mtnuto. 



Declination. 



DifF. for 
z Minute. 



SATURDAY 25. 



h m 

O 54 
o 56 

o 58 

o 

2 

4 
6 

7 

9 
II 

13 

15 

17 

19 
21 

22 
24 
26 
28 
30 
32 
34 
36 
38 



8 
46.93 

39-25 
31-62 

24.05 

16.54 

9.10 

1-73 
54-43 
47.21 
40.07 
33.01 
26.03 

19.15 
12.36 

5-67 
59.07 
52.58 
46.19 

39.91 

33.75 
27.71 

21.78 

15.98 

10.30 



.8715 

.8784 

.8733 

.8743 

.8754 
•8766 

.8777 
.8790 
.8803 
.88x7 
.8830 

.8845 
.8861 

.8877 
.889a 
.8909 

.8927 

.8944 
.8963 

.8983 
■9008 
.9098 

.9043 
.9065 



e 

N. I 

X 

I 
I 
I 
o 
o 
o 
N. o 
S. o 
o 
o 
o 
o 

X 

I 
I 
I 
I 

2 
2 
2 
2 

S. 3 



SUNDAY 26. 



40 

41 
43 
45 
47 
49 
51 
53 
55 
57 

59 

I 

3 

5 

7 
8 

10 

12 

14 
16 

18 

20 

22 



2 24 

2 26 



4.76 

59-35 
54.08 
48.94 

43.95 
39-" 
34.42 
29.88 
25.50 
21.28 

17-23 

13-34 
9.62 

6.08 

2.71 

59-53 

56.53 

53-71 
51.09 

48.66 

46-43 
44.39 
42.56 
40.94 

39.53 



1.9087 
Z.91X0 

1.913a 
X.9156 

x.9xSt 

x.9ao6 

1.9831 

x.9a57 
1.9883 

1.93XX 
1.9338 
X.9366 

X.9395 
X.9424 

I.94S4 
1.9485 
1.9515 
1.9547 
x.95;9 
1.96x8 

1.9644 
X.9677 

i.97xa 
1.9747 
x.978a 



S. 



52.8 
14.6 

35.5 
55.5 
14.7 
33.2 
51.0 
8.1 
24.6 

19-5 
4.1 

49.1 

34.5 
20.3 

6.4 

52.8 

39.4 
26.2 

13. 1 
0.0 

46.9 

36 33.8 

49 20.5 

2 7.x 



50 
38 

25 

12 

o 

47 

34 
22 

9 

3 
16 

28 
41 
54 
7 
19 
32 

45 
58 
II 

23 



3 
3 
3 
3 

4 

4 

4 

4 

4 

5 

5 

5 

5 
6 

6 

6 

6 

6 

7 
7 
7 
7 

7 

8 



14 
27 
40 

53 

5 

18 

31 
44 
56 

9 
22 

34 

47 
o 

12 

25 

38 

50 

3 

15 

28 

40 
53 
5 



S. 8 17 



53-4 

39-5 

25.3 
10.8 

55.8 

40.3 

24-3 
7.6 

50.3 
32. 

13. 

53. 

33- 
II. 9 

49.4 

25.9 

1.3 

35.5 

8.5 
40.1 

10.4 

39-2 
6.6 

32.4 
56.6 



3 
5 
9 
4 



za.G88 
za.644 
xa.659 
ia.673 
za.686 

xa.697 
xa.709 
za.7ao 
xa.730 

ia.739 
xa.747 

xa.753 
ia.760 
18.766 

xa.771 
ia.775 
X3.778 
za.781 
xa.78a 
xa.78a 
za.782 
18. 780 

18. 777 
xa.774 



Z9.770 

18. 766 

Z8.76I 

xa.754 

X8.746 

18. 737 
13.727 
13.717 
13.706 
xa.693 
18. 680 
X3.666 
13.650 
12.633 
X3.6x7 

ia.599 
xa.580 
X8.S60 

xa.538 
xa.5x6 
xa.49a 

13.468 

X8.443 
xa.417 

18. 389 



Hour. 



O 

x 

2 

3 

4 

5 
6 

7 

8 

9 
10 

XI 

12 

13 

14 

15 
16 

17 
18 

19 
20 

21 

22 

23 



o 

I 

2 

3 

4 

5 
6 

7 

8 

9 
10 

II 

12 

13 

14 

15 
x6 

17 
18 

19 
20 

21 

22 

23 
24 



Right 
Ascension. 



DiflLfbr 
z Minute. 



Declinatioa 



Diff. for 
z Miaate. 



MONDAY 27. 



h m 
2 26 
2 28 



2 
2 
2 
2 
2 
2 
2 
2 
2 
2 
2 
2 
2 
2 
2 

3 
3 
3 

3 
3 
3 
3 



3 
3 
3 
3 
3 
3 
3 
3 
3 
3 
3 
3 
3 
3 
3 
3 
3 
3 
3 
3 
3 
3 
4 
4 
4 



30 
32 

34 
36 
38 
40 
42 

44 
46 
48 
50 
52 

54 

56 

58 

o 

2 

4 

7 

9 
II 

X3 



15 
17 
19 

21 

23 
25 
27 
29 
32 

34 
36 

38 
40 
42 

44 
46 

49 

51 

53 

55 

57 

59 
2 

4 
6 



a 
39-53 
38.33 
37-35 
36.58 
36.04 

35.72 
35.63 
35.78 
36.16 

36.77 
37.62 

38.72 
40.06 

41.65 
43.50 
45.60 

47-95 

50.57 

53-45 
56.60 

o.ox 

3.70 

7.66 

XI.89 



a 

x.978a 

1.98x8 

1.9854 
1.9891 
x.99a8 
1.9966 

8.0005 

8.0044 

8.0088 

8.0X38 
8.0X68 
8.O8O3 
8.0344 
8.0387 

a. 0329 
8.037Z 
8.04x4 
3.0458 
8.050a 
a. 0547 
a. 0593 
8.0637 
8.0683 
3.0738 



S. 



s. 



8 17 
8 30 

8 42 

8 54 

9 7 
19 
31 
43 
56 

8 
20 
32 

44 

56 

8 

20 

31 

43 

55 

7 
18 

30 

41 

53 



9 
9 

9 

9 
o 

o 

o 

o 

o 

I 

I 

I 

I 

I 

2 
2 
2 

3 
2 



TUESDAY 28. 



16.40 
21.19 
26.27 
31.63 

37.27 
43.21 

49-44 

55-96 

2.78 

9.90 

17-32 

25-03 
33.06 

41.39 
50.02 

58.96 
8.21 

17.77 
27.65 

37.84 

48.34 
59.16 

10.30 

21.76 

33-54 



8.0775 
8.0888 
a. 0870 
3.0917 
a. 0965 

8. XOX4 

a.xo63 
a.zxia 
a.xi6a 

a.X3X8 

a.x36i 

3.X3X8 

a.x363 
3.X4Z3 
a. 1464 
3.15x6 
3.X567 
a.i6ao 
3.167a 
3.1724 

2. X830 
3.1883 

3. 1937 
3.1990 



S. 



s. 



3 

3 

3 

3 

3 

4 

4 

4 

4 

4 

4 

5 

5 

5 

5 

5 

5 
6 

6 

6 

6 

6 

7 
7 
7 



4 
16 



49 

I 

12 



23 
34 

45 



9 
20 

30 



56.6 
19. 1 

39-9 

58.9 
16. 1 

31.3 

44.5 

55.7 

4-7 
XI. 6 

16.2 

18.5 

18.4 

15.9 
10.8 

3.1 

52.8 

39.8 

23.9 

5.2 

43.6 

19.0 

51.3 
20.5 



46.4 

9-1 

27 28.4 

38 44.3 

56.7 

5.6 

10.8 



12.3 

10. 1 

4.0 

55 53.9 

6 39.9 
17 21.8 

27 59.5 
38 330 

49 2.2 
59 27.0 

47.4 

3.3 

14.6 

40 21.2 

50 23.1 
o 20.1 

10 12.3 

19 59.5 



13.389 
X3.36X 

13. 333 
Z3.303 
Z3.870 
X8.337 

Z3.ao3 
Z3.X68 

Z3.Z33 

X3.096 
X3.058 

X3.0X8 

zx.sy78 

11.937 
XX. 893 

XX. 850 
XX.806 
11.759 

XX.7X3 

XX.664 
XX. 6x5 

11.564 

XX.SX3 

11.459 



11.405 

XI. 350 
xx.a93 
11.336 

11.177 
XX.XZ7 

IX. 036 
10.994 
Z0.93X 
XO.865 

10.799 
10.73a 
ZO.663 

10.593 
zo. 53a 
10.450 

10.377 

xo.3oa 
10.337 
xo. X49 
X0.071 

9.991 
9.9x0 
9.838 

9.74: 



XII. 



MARCH, 1899. 



49 









GREENWICH 


MEAN TIME. 










THE MOON'S RIGHT 


ASCENSION AND DECLINATION. 






Honr 


RiKht 


Diff. for 


Declinstion. 


Diff. for 


Hoar. 


Right 


Diff. for 


Declinatioa 


Diff. for 


AAwUA* 


Ascension. 


X Minute. 


A^ ^0 ^m ••♦• ^w •• ^» •*• 


1 Minnte. 




Ascension. 


I Minute. 






1 Minute. 




WE 


DNESD 


AY 29. 






FRIDAY 31. 








h m s 


• 


e * » 


m 




h m 8 


s 


e 


f m 


w 


o 


14 6 33. 54 


a. 1990 


S.I7 19 59.5 


9.745 





15 58 9.09 


9.4403 


S.23 


8 28.0 


4.338 


X 


14 8 45*64 


a. 2043 


17 29 41.7 


9.660 


I 


16 35.62 


8.4448 


23 


12 43.7 


4.198 


2 


14 10 58.06 


a. 2097 


17 39 18.7 


9.574 


2 


16 3 2.39 


8.4481 


23 


16 51. 1 


4.058 


3 


14 13 10.80 


2.8150 


17 48 50.6 


9.487 


3 


16 5 29.39 


8.4519 


23 


20 50.0 


3.911 


4 


14 15 23.86 


2.2304 


17 58 17.2 


9.998 


4 


16 7 56.62 


a.4557 


23 


24 40.4 


3.769 


5 


14 17 37.25 


a. 2258 


18 7 38.4 


9*309 


5 


16 10 24.07 


8.4593 


23 


28 22.3 


3.627 


6 


14 19 50.96 


2.231a 


18 x6 54.3 


9. 8x8 


6 


16 12 51.74 


a.4629 


23 


31 55.7 


3.485 


7 


14 22 4.99 


a.2366 


18 26 4.6 


9.196 


7 


16 15 19.62 


8.4664 


23 


35 20.5 


3.341 


8 


14 24 19.35 


2.2420 


18 35 9.4 


9.033 


8 


16 17 47.71 


8.4698 


23 


38 36.6 


3.195 


9 


14 26 34.03 


«.2474 


18 44 8.5 


8.938 


9 


16 20 16.00 


8.4731 


23 


41 43-9 


3.Q50 


lO 


14 28 49.04 


2.2528 


18 53 2.0 


8.843 


10 


16 22 44.48 


8.4763 


23 


44 42.6 


8.904 


ZI 


14 31 4.37 


2.2583 


19 I 49.6 


8.745 


II 


16 25 13.16 


a.4795 


23 


47 32.4 


8.757 


12 


14 33 20.02 


2.2636 


19 10 31.4 


8.647 


12 


16 27 42.02 


3.4836 


23 


50 13.4 


3.609 


13 


14 35 36.00 


a. 2690 


19 19 7.3 


8.547 


13 


16 30 11.07 


8.4856 


23 


52 45.5 


8.46X 


14 


14 37 52.30 


a. 2744 


19 27 37.1 


8.446 


14 


16 32 40.29 


a.4884 


23 


55 8.7 


8.318 


15 


14 40 8.93 


a. 2797 


19 36 0.8 


8.344 


15 


16 35 9.68 


8.4918 


23 


57 23.0 


8.X63 


i6 


14 42 25.87 


2.2851 


19 44 18.4 


8.348 


16 


x6 37 3924 


8.4940 


23 


59 28.3 


8.0X8 


17 


14 44 43.14 


2.2905 


19 52 29.8 


8.137 


17 


16 40 8.96 


8.4966 


24 


I 24.5 


i.86a 


i8 


14 47 0.73 


a. 2958 


20 34.8 


8.03X 


18 


16 42 38.83 


8.4991 


24 


3 ".7 


1.7x1 


19 


14 49 18.64 


2.301a 


20 8 33.5 


7.9«4 


19 


16 45 8.85 


8.5015 


24 


4 49.8 


1.559 


' 20 


14 51 36.87 


2.3064 


20 16 25.7 


7.8x6 


20 


16 47 39.01 


8.5037 


24 


6 18.8 


1.407 


21 


14 53 55.41 


2. 31 17 


20 24 11.4 


7.707 


21 


16 50 9.30 


8.5060 


24 


7 38.6 


1.854 


22 


14 56 14.27 


2.3170 


20 31 50.5 


7.597 


22 


16 52 39.73 


3.5083 


24 


8 49.3 


1.108 


23 


14 58 33.45 


a.32M 


S.20 39 23.0 


7.485 


23 


16 55 10.28 


8.5103 1S.24 


9 50.8 


0.948 




TH 


[ursd; 


^Y 30. 






SATUl 


^DAY, APRIL I. 




O 

I 


15 52.94 
15 3 12.75 


2.3275 
2.3337 


S.20 46 48.7 
20 54 7.6 


7.378 
7.857 


o| 


16 57 40.95 


S.518X S.24 


10 43.1 


0.794 












2 


15 5 32.86 


3.3377 


21 I 19.6 


7.143 












3 


15 7 53.28 


2.3439 


21 8 24.7 


7.026 












* 4 
5 


15 10 14.01 

15 X2 35.05 


3.3481 


21 15 22.7 


6.908 












8.3531 


21 22 13.6 


6.789 




PHASES 


OF THE MOON. 




6 
7 


15 14 56.38 
15 17 18.02 


3.3581 
2.3631 


21 28 57.4 
21 35 34.0 


6.670 
6.548 






















8 


15 19 39.95 


2.3680 


21 42 3.2 


6.436 








d 


h m 


9 


15 22 2.18 


2.3739 


21 48 25.1 


6.303 


C 


Last Quartei 


r • • . Mar. 4 16 6.6 1 


lO 


15 24 24.70 


2.3778 


21 54 39.6 


6.179 


• 


New Moon 




. II 


7 52.8 


II 


15 26 47.52 


2.3827 


22 46.6 


6.054 


3) 


First Quarte 


r • • • • 


. 18 ] 


5 23.8 


12 

1 ^3 


15 29 10.62 
15 31 34.01 


3.3874 
3.3981 


22 6 46.1 
22 12 37.9 


5.987 
5.800 





Full Moon 




• 26 ] 


[8 18.5 


14 
15 


15 33 57.67 
15 36 21.62 


8.3967 
2.4014 


22 18 22.1 
22 23 58.5 


5.678 
5.54a 






















i6 


15 38 45.84 


8.4059 


22 29 27.1 


5.418 










d h 


17 


15 41 10.33 


2.4104 


22 34 47.9 


5.380 


c 


Perigee . 




Mar. 


9 9-9 


i8 


15 43 35.09 


2.4x49 


22 40 0.7 


5.147 


c 


Apogee . 




. . 21 6.6 


19 


15 46 0.12 
15 48 25.41 


8.4193 


22 45 5.5 


5.013 
4.879 


^^ 


A ^^ 








20 


2.4236 


22 50 2.3 












21 


15 50 50.95 


8.4878 


22 54 51.0 


4.744 












22 


15 53 16.75 


8.4381 


22 59 31.6 


4.607 












23 


15 55 42.80 


8.436a 


23 4 3.9 


4.470 












24 


15 58 9.09 


8.440a 


S.23 8 28.0 


4.33a 













50 



MARCH, 1899. 



XIII. 









GREENWICH MEAN TIME. 




• 






LUNAR DISTANCES. 


9 










P.L. 




P. L. 






P.L. 




P. u 


~g 


Name and Direction 


Noon 


• 


of 


Illh. 


of 


Vlh. 




of 


ix*». 


of 


Q 


of Object 








Diff. 




Diff. 






Diff. 




Diff. 






e $ 


m 




9 t H 




• * 


m 




• * •» 




I 


Pollux 


W. 


94 19 


16 


2760 


95 54 37 


2750 


97 30 


10 


274X 


99 5 55 


2733 




Regulus 


W. 


57 22 


26 


a735 


58 58 20 


a7a5 


60 34 


27 


27x6 


62 10 46 


2705 




Antares 


E. 


42 34 


28 


VM 


40 58 20 


27x5 


39 22 





2706 


37 45 28 


269R 




Saturn 


E. 


57 29 


18 


2741 


55 53 32 


2731 


54 17 


33 


2722 


52 41 22 


27x3 




Venus 


E. 


89 23 


58 


310Z 


87 55 49 


3090 


86 27 


27 


308Z 


84 58 54 


3070 




a Aquilse 


E. 


96 26 


21 


3338 


95 45 


38X7 


93 34 


56 


3206 


92 8 54 


3x9s 


2 


Regulus 


W. 


70 15 


44 


2655 


71 53 25 


264s 


73 31 


19 


■634 


75 9 28 


2684 




Saturn 


E. 


44 37 


23 


36G6 


42 59 57 


2656 


41 22 


18 


2646 


39 44 26 


8637 




Venus 


E. 


77 32 


56 


3018 


76 3 5 


3007 


74 33 


I 


2996 


73 2 43 


2985 




a Aquilse 


E. 


84 55 


48 


315a 


83 28 41 


3145 


82 I 


26 


3x38 


80 34 3 


3133 


3 


Regulus 


W. 


83 23 


51 


2569 


85 3 28 


2558 


86 43 


21 


2346 


88 23 30 


8535 




Spica 


W. 


29 21 


6 


2576 


31 34 


2564 


32 40 


19 


2551 


34 20 22 


2538 




Venus 


E. 


65 27 


40 


2927 


63 55 56 


29x5 


62 23 


56 


2903 


60 51 41 


2891 




a Aquilae 


E. 


73 15 


50 


3x19 


71 48 3 


3xx8 


70 20 


15 


3x19 


68 52 28 


3Z2Z 




Sun 


£. 


"o 53 


6 


29x2 


109 21 2 


2900 


107 48 


43 


2887 


106 16 8 


2875 


4 


Spica 


W. 


42 44 


59 


4475 


44 26 47 


2463 


46 8 


52 


2450 


47 51 15 


8438 




Jupiter 


W. 


25 26 


8 


2563 


27 5 54 


2538 


28 46 


14 


2517 


30 27 4 


8497 1 




Venus 


E. 


53 6 


32 


2829 


51 32 42 


2816 


49 58 


35 


1803 


48 24 II 


2791 




a Aquilse 


E. 


61 34 


48 


31S4 


60 7 44 


3x67 


58 40 


55 


3181 


57 14 23 


3198 




Sun 


E. 


98 29 


12 


28zx 


96 54 59 


2799 


95 20 


30 


2786 


93 45 44 


8773 


5 


Spica 


W. 


56 27 


36 


a376 


58 II 45 


2364 


59 56 


12 


2351 


6i 40 57 


8339 1 




Jupiter 


W. 


38 57 


50 


24x0 


40 41 II 


2394 


42 24 


55 


2379 


44 9 


83«4 1 




Venus 


E. 


40 28 


2 


2726 


38 51 57 


27x4 


37 15 


36 


S701 


35 38 58 


2688 




Sun 


E. 


85 47 


39 


2709 


84 II II 


2696 


82 34 


26 


1684 


80 57 24 


1670 


6 


Spica 


W. 


70 29 


2 


2280 


72 15 31 


22:9 


74 2 


16 


2258 


75 49 18 


8246 




Jupiter 


W. 


52 54 


34 


2296 


54 40 40 


2283 


56 27 


4 


22/0 


58 13 47 


2259 




Antares 


W. 


24 54 


32 


2291 


26 40 45 


8279 


28 27 


16 


2266 


30 14 6 


8253 




Sun 


E. 


72 47 


58 


2609 


71 9 15 


2597 


69 30 


16 


2585 


67 51 I 


8574 


7 


Spica 


W. 


84 48 


29 


2x94 


86 37 5 


2x83 


88 25 


55 


2176 


90 14 58 


2x67 




Jupiter 


W. 


67 11 


41 


9202 


69 5 


2x92 


70 48 


44 


2x82 


72 37 38 


8x73 




Antsires 


W. 


39 12 


42 


2197 


41 I 14 


2x87 


42 50 


I 


2177 


44 39 3 


2169 




Sun 


E. 


59 31 


2 


2522 


57 50 19 


2JI3 


56 9 


24 


8504 


54 28 16 


8495 


8 


Jupiter 


W. 


81 45 


26 


ax34 


83 35 34 


2126 


85 25 


53 


2X20 


87 16 21 


2X15 




Antares 


W. 


53 47 


25 


2129 


55 37 40 


2122 


57 28 


5 


2x16 


59 18 40 


■III 




Saturn 


W. 


38 35 


6 


2x46 


40 24 55 


2139 


42 14 


54 


2x33 


44 5 3 


2x26 




Sun 


E. 


45 59 


53 


2462 


44 17 46 


2457 


42 35 


32 


2453 


40 53 12 


8449 


9 


Antares 


W. 


68 33 


25 


2091 


70 24 38 


2088 


72 15 


55 


2067 


74 7 14 


•086 




Saturn 


W. 


53 17 


52 


210S 


55 8 44 


2X03 


56 59 


39 


sxox 


58 50 37 


2099 




Sun 


E. 


32 20 


50 


2448 


30 38 24 


2453 


28 56 


5 


8459 


27 13 54 


2467 


13 


Sun 


W. 


22 59 


50 


2735 


24 35 43 


2741 


26 11 


28 


8749 


27 47 3 


8759 




Aldebaran 


E. 


54 7 


5 


2380 


52 23 I 


2397 


50 39 


22 


24x7 


48 56 II 


8437 




Mars 


E. 


95 4 


22 


2381 


93 20 20 


2397 


91 36 


41 


84»3 


89 53 25 


243X 




Pollux 


E. 


95 58 


54 


2362 


94 14 24 


2376 


92 30 


15 


2392 


90 46 29 


S406 



XIV. 



MARCH, 1899. 



51 



GREENWICH MEAN TIME 






8 



13 



LUNAR DISTANCES. 



Name and Direction 
of Object 



Pollux W. 

Regulus W. 

Antares £ . 

Saturn E . 

Venus E . 

aAquilse E . 

Regulus W. 

Saturn £ . 

Venus E . 

a Aquils £ . 

Regulus W. 

Spica W. 

Venus E . 

a Aquilse E . 

Sun £ . 

Spica W. 

Jupiter W. 

Venus E . 

a Aquilse £ . 

Sun £ . 

Spica W. 

Jupiter W. 

Venus £ . 

Sun £. 

Spica W. 

Jupiter W. 

Antares W. 

Sun £ . 

Spica W. 

Jupiter W. 

Antares W. 

Sun £. 

Jupiter W. 

Antares W. 

Saturn W. 

Sun £. 

Antares W. 

Saturn W. 

Sun £. 

Sun W. 

Aldebaran £ . 

Mars £ . 

Pollux £ . 



Midnight 



P.L. 

of 
Diff. 



loo 41 51 

63 47 19 
36 8 45 

51 4 59 
83 30 8 

90 42 39 

76 47 51 

38 6 21 

71 32 II 
79 6 34 

90 3 54 
36 o 42 

59 19 II 
67 24 44 

104 43 17 

49 33 56 
32 8 22 
46 49 31 

55 48 12 
92 10 41 

63 25 59 

45 53 26 
34 2 2 
79 20 4 

77 36 37 

60 o 47 

32 I 15 
66 II 31 

92 4 15 

74 26 46 

46 28 18 

52 46 56 

89 6 58 

61 9 23 
45 55 22 

39 10 47 

75 58 35 
60 41 37 

25 31 54 

29 22 25 

47 13 29 

88 10 34 

89 3 6 



XVJ». 



2669 

a/CH 
3060 
3185 

a6za 
a637 

2973 
3x39 

3524 
asas 

2879 
3114 
a86a 

2426 

4477 
2778 
3218 

a7<» 

33a7 
•350 
2675 

2657 

2235 

2247 
224 z 
2563 

2159 
216s 
2x59 
2487 

SZIO 
3Z0S 

ai2z 
8447 

ao86 
9099 

8478 

8770 
2458 
3448 

8425 



102 17 59 

65 24 5 

34 31 50 

49 28 24 

82 I 9 

89 16 12 

78 26 29 

36 28 3 

70 I 25 



P.L. 

of 

DiflE. 



2714 
26C6 
26S0 
2694 
3050 
3176 

8602 

26Z7 
2962 



77 38 59 


3124 


91 44 34 


851a 


37 41 20 


2513 


57 46 25 


2867 


65 57 4 


3X89 


103 10 10 


aSso 


51 16 54 


84x3 


33 50 7 


8460 


45 14 34 


3765 


54 22 24 


3343 


90 35 21 


2747 


65 II 19 


3315 


47 38 13 


2336 


32 24 49 


2663 


77 42 27 


2646 


79 24 12 


3225 


61 48 5 


2235 


33 48 41 


8229 


64 31 45 


3553 


93 53 44 


215I 


76 16 7 


«55 


48 17 47 


2Z5I 


51 5 25 


2480 


90 57 42 


8I05 


63 14 


3Z0Z 


47 45 49 


3ZX6 


37 28 19 


2445 


77 49 56 


8086 


62 32 38 


2099 


23 50 10 


2492 


30 57 32 


8782 


45 31 16 


3478 


86 28 7 


2465 


87 20 7 


244X 



XVIIIh- 



103 54 20 

67 I 4 

32 54 43 
47 51 36 
80 31 58 

87 49 34 

80 5 21 

34 49 31 

68 30 24 

76 II 19 



P.L. 

of 

Diff. 



3706 
3675 
367Z 
8685 

3039 
3x68 

a59x 
8607 
3950 
3x33 



93 25 


30 


8S0Z 


39 22 


15 


3500 


56 13 


24 


2854 


64 29 


30 


3x36 


lOI 36 


47 


2838 


53 


10 


840X 


35 32 


17 


2442 


43 39 


20 


2753 


52 57 


5 


3369 


88 59 


44 


2735 


66 56 56 


2304 


49 23 


20 


2323 


30 47 


20 


365Z 


76 4 


34 


2633 


81 12 


2 


2314 


63 35 


41 


3234 


35 36 


25 


22Z8 


62 51 


45 


2543 


95 43 


26 


2143 


78 5 


42 


2X47 


50 7 


28 


2x43 


49 23 


44 


2473 


92 48 


33 


2IOZ 


64 51 


12 


2097 


49 36 


24 


8IZ3 


35 45 


49 


2445 


79 41 


17 


2087 


64 23 


39 


2099 


22 8 


45 


2509 


32 32 


24 


2795 


43 49 


32 


8500 


84 46 


4 


8483 


85 37 


31 


2459 



XXIh. 



105 30 52 

68 38 17 

31 17 24 
46 14 36 
79 2 34 
86 22 46 

81 44 29 
33 10 46 



P.L. 

of 
Diff. 



3696 
3665 

3663 

2675 
3038 

3x59 

3580 

2597 



00 59 


9 


2939 


74 43 36 


3XX9 


95 6 


42 


2489 


41 3 


28 


3487 


54 40 


6 


8843 


63 2 


4 


3x44 


100 3 


8 


2825 


54 43 


44 


3386 


37 14 


52 


3486 


42 3 


49 


3740 


51 32 


17 


330X 


87 23 


50 


3738 


68 42 


50 


889X 


51 8 


47 


2309 


29 9 


24 


^639 


74 26 


24 


8631 


83 


8 


3804 


65 23 


33 


33x3 


37 24 


25 


3307 


61 II 


31 


353a 


97 33 


19 


8X36 


79 55 


29 


3X4X 


51 57 


21 


8X36 


47 41 


53 


84fi7 


94 39 


30 


2098 


66 42 


16 


2094 


51 27 


5 


8x08 


34 3 


19 


3446 


81 32 


36 


8088 


66 14 


39 


azoz 


20 27 44 


2530 


34 6 


58 


8809 


42 8 


19 


3533 


83 4 


26 


•499 


83 55 


20 


247« 



52 



MARCH, 1899. 



XV. 



GREENWICH MEAN TIME. 








LUNAR DISTANCES. 










V 








P. L. 




P.L. 




P.L. 




P.L. 


Name and Direction | 


Noon. 


of 


Illh. 


of 


VIb. 


of 


IXh. 


of 


Q 


of Object 






Diff. 




Diff. 




Difl: 




Diff. 






9 » m 




e • 




m t m 




• 1 m 




14 


Sun 


W. 


35 41 14 


aSas 


37 15 10 


3840 


38 48 46 


1836 


40 22 I 


3873 




Aldebaran 


E. 


40 27 38 


•547 


38 47 30 


357a 


37 7 56 


359B 


35 28 58 


36a6 . 




Mars 


E. 


81 23 12 


8sz8 


79 42 24 


3335 


78 2 


3553 


76 22 I 


3573 : 




Pollux 


E. 


82 13 33 


3494 


80 32 IZ 


a3ix 


78 51 13 


3330 


77 10 41 


3548 


15 


Sun 


W. 


48 2 52 


3959 


49 33 56 


3977 


51 4 37 


3994 


52 34 57 


90x3 




Mars 


E. 


68 8 29 


s666 


66 31 3 


a684 


64 54 I 


a7oa 


63 17 24 


3730 




Pollux 


E. 


68 54 20 


a640 


67 x6 20 


3639 


65 38 45 


aoTo 


64 I 36 


3697 


i6 


Sun 


W. 


60 I 5 


3Z0Z 


61 29 14 


3"7 


62 57 3 


3x33 


64 24 32 


9x51 




Mars 


E. 


55 20 22 


aSzi 


53 46 9 


3829 


52 12 19 


3847 


50 38 52 


«865 




Pollux 


E. 


56 2 8 


a79a 


54 27 29 


aSzx 


52 53 15 


1830 


51 19 26 


9848 




Regulus 


E. 


92 44 14 


2740 


91 8 27 


3756 


89 33 2 


3778 


87 57 58 


3788 


17 


Sun 


W. 


71 36 59 


3230 


73 2 33 


33*5 


74 27 49 


3399 


75 52 49 


9373 




a Arietis 


W. 


32 45 26 


09x9 


34 17 21 


3937 


35 49 5 


3937 


37 20 37 


3946 




Mars 


E. 


42 57 7 


3949 


41 25 50 


3965 


39 54 53 


398X 


38 24 16 


3997 




Pollux 


E. 


43 36 27 


3945 


42 5 5 


3965 


40 34 9 


3983 


39 3 38 


9005 




Regulus 


E. 


80 7 38 


186a 


78 34 31 


3877 


77 I 43 


3891 


75 29 12 


3904 


i8 


Sun 


W. 


82 53 50 


3338 


84 17 18 


3348 


85 40 34 


S359 


87 3 37 


9371 




a Arietis 


W. 


44 55 29 


3990 


46 25 54 


3999 


47 56 8 


3007 


49 26 12 


3013 




Regulus 


E. 


67 50 43 


3965 


66 19 47 


2976 


64 49 4 


3986 


63 18 34 


•997 


19 


Sun 


W. 


93 56 


34x5 


95 17 59 


3433 


96 39 49 


S4SI 


98 I 31 


3437 




a Arietis 


W. 


56 54 9 


3031 


58 23 19 


3037 


59 52 21 


906a 


61 21 17 


9068 




Aldebaran 


W. 


24 51 6 


3341 


26 16 27 


3316 


27 42 5 


33X4 


29 7 58 


930» 




Regulus 


E. 


55 49 5 


304X 


54 19 43 


3049 


52 50 31 


9056 


51 21 28 


9064 


20 


Sun 


W. 


104 48 21 


34^ 


106 9 27 


3466 


107 30 29 


9470 


108 51 27 


9473 




a Arietis 


W. 


68 44 29 


3087 


70 12 54 


3091 


71 41 15 


909a 


73 9 34 


3094 




Aldebaran 


W. 


36 19 47 


317s 


37 46 29 


3x69 


39 13 15 


3x66 


40 40 5 


3ite 




Regulus 


E. 


43 58 12 


309a 


42 29 53 


3097 


41 I 40 


3x02 


39 33 33 


3x06 




Spica 


E. 


97 55 16 


3069 


96 26 28 


3073 


94 57 44 


9074 


93 29 3 


907« 


21 


Sun 


W. 


"5 35 43 


3479 


116 56 31 


3479 


118 17 19 


9478 


119 38 8 


947« 




a Arietis 


W. 


80 30 45 


3097 


81 58 58 


3097 


83 27 II 


3096 


84 55 26 


9094 




Aldebaran 


W. 


47 55 17 


3146 


49 22 31 


3x43 


50 49 50 


3x38 


52 17 13 


3x34 




Reguliis 


E. 


32 14 II 


3X83 


30 46 32 


3130 


29 18 59 


9194 


27 51 31 


3138 




Spica 


E. 


86 6 6 


3081 


84 37 33 


3OS0 


83 8 59 


9079 


81 40 24 


3078 




Jupiter 


E. 


102 57 57 


3069 


loi 29 9 


3069 


100 21 


9067 


98 31 31 


3063 


22 


a Arietis 


W. 


92 17 17 


So8a 


93 45 49 


3078 


95 14 25 


3074 


96 43 6 


9070 




Aldebaran 


W. 


59 35 24 


3113 


61 3 18 


SX07 


62 31 19 


3XOX 


63 59 27 


9096 




Spica 


E. 


74 16 57 


3066 


72 48 6 


906a 


71 19 10 


9058 


69 50 9 


9094 




Jupiter 


E. 


91 6 43 


305a 


89 37 35 


3048 


88 8 22 


9044 


86 39 4 


9039 


23 


Aldebaran 


W. 


71 21 53 


3065 


72 50 46 


3057 


74 19 48 


5051 


75 48 58 


9049 




Pollux 


W. 


29 55 16 


3197 


31 21 29 


3176 


32 48 7 


91S8 


34 15 7 


9139 




Mars 


W. 


28 7 5 


3171 


29 33 49 


3x60 


31 46 


3x90 


32 27 55 


9139 




Spica • 


E. 


62 23 39 


3oa8 


60 54 I 


302a 


59 24 15 


3016 


57 54 22 


3009 




Jupiter 


E. 


79 II 4 


30x4 


77 41 8 


3007 


76 II 4 


900X 


74 40 53 


3994 



XVI. 



MARCH, 1899. 



53 







GREENWICH MEAN TIME. 








1 

LUNAR DISTANCES. 

1 


ol 


Name and Direction 


Midnight 


P.L. 

of 


XW^ 


P.L. 
of 


XVIII»>. 


P.L. 
of 


XXIH. 


P.L. 
of 


S* 


off Object 






Diff. 




DIff. 




DiflE. 




DifE. 








• » » 




• f • 




m t m 




m t It 




14 


Sun 


W. 


41 54 55 


S890 


43 27 27 




44 59 38 


8934 


46 31 26 


8948 




Aldebaran 


E, 


33 50 38 


flfiss 


32 12 57 


8686 


30 35 58 


37x8 


28 59 42 


8753 




Mars 


E. 


74 42 28 


asgi 


73 3 20 


36X0 


71 24 38 


3638 


69 46 21 


8646 




Pollnx 


E. 


75 30 34 


3566 


73 50 52 


3583 


72 II 36 


3603 


70 32 45 


8633 


15 


Sun 


W. 


54 4 54 


3Q30 


55 34 29 


3047 


57 3 43 


3065 


58 32 35 


S083 




Mars 


E. 


61 41 ZI 


0739 


60 5 23 


8757 


58 29 59 


a775 


56 54 59 


«793 




Pollux 


E. 


62 24 52 


8716 


60 48 33 


«735 


59 12 40 


a754 


57 37 12 


377« 


i6 


Sun 


W. 


65 51 40 


3x68 


67 18 28 


3183 


68 44 57 


3X9D 


70 II 7 


38X4 




Mars 


E. 


49 5 48 


a883 


47 33 6 


8898 


46 45 


39x5 


44 28 45 


9933 




Pollux 


E. 


49 46 I 


a868 


48 13 I 


3887 


46 40 25 


3906 


45 8 14 


3935 




Regulus 


E. 


86 23 14 


9804 


84 48 51 


88x8 


83 14 47 


8834 


81 41 3 


3848 


17 


Sun 


W. 


77 17 32 


safl? 


78 41 59 


3300 


80 6 II 


S3X3 


81 30 8 


3335 




a Arietis 


W. 


38 51 58 


8954 


40 23 8 


8964 


41 54 6 


9973 


43 24 53 


398X 




Mars 


E. 


36 54 


30x4 


35 24 4 


3030 


33 54 28 


3045 


32 25 IX 


306X 




Pollux 


E. 


37 33 32 


30x7 


36 3 53 


3049 


34 34 41 


3073 


33 5 57 


3096 




Regulus 


E. 


73 56 58 


a9i7 


72 25 I 


3930 


70 53 20 


3943 


69 21 54 


9954 


i8 


Sun 


W. 


88 26 27 


3380 


89 49 6 


3390 


91 " 34 


3399 


92 33 52 


3408 




a Arietis 


W. 


50 56 6 


3083 


52 25 50 


3030 


53 55 25 


3038 


55 24 51 


3044 




Regulus 


E. 


61 48 17 


3006 


60 18 12 


3016 


58 48 19 


3035 


57 x8 37 


3033 


19 


Sun 


W. 


99 23 6 


3443 


100 44 34 


3449 


102 5 55 


3454 


103 27 II 


3459 




a Arietis 


W. 


62 50 6 


3073 


64 18 49 


3077 


65 47 27 


3081 


67 16 


3084 




Aldebaran 


W. 


30 34 3 


3x9s 


32 18 


3x88 


33 26 41 


3x83 


34 53 IX 


3x78 




Regulus 


£. 


49 52 34 


3070 


48 23 48 


3076 


46 55 9 


3083 


45 26 37 


3087 


20 


Sun 


W. 


1x0 12 22 


3475 


X" 33 14 


3476 


"2 54 5 


S477 


X14 14 55 


3479 




a Arietis 


W. 


74 37 51 


3096 


76 6 6 


3096 


77 34 20 


3097 


79 '2 33 


3098 




Aldebaran 


W. 


42 7 


3x58 


43 33 59 


3x56 


45 X x 


3x53 


46 28 7 


3x49 




Regulus 


E. 


38 5 31 


31X0 


36 37 34 


3x14 


35 9 42 


3xx8 


33 41 54 


3X38 




Spica 


E. 


9a 24 


3078 


90 31 48 


3079 


89 3 13 


3080 


87 34 39 


So8x 


31 


Sun 


W. 


120 58 57 


347« 


122 19 48 


3475 


123 40 40 


347a 


X25 I 35 


3470 




a Arietis 


W. 


86 23 43 


309a 


87 52 2 


3090 


89 20 24 


3087 


90 48 49 


3085 




Aldebaran 


W. 


53 44 41 


3130 


55 12 14 


3x36 


56 39 52 


3x88 


58 7 35 


SXX7 




Regulus 


E. 


26 24 8 


S144 


24 56 52 


3X5X 


23 29 44 


3159 


22 2 46 


3x69 




Spica 


E. 


80 II 48 


3077 


78 43 10 


3074 


77 14 29 


3073 


75 45 45 


3069 




Jupiter 


E. 


97 2 39 


3064 


95 33 45 


3061 


94 4 48 


3058 


92 35 47 


3056 


22 


a Arietis 


W. 


98 II 52 


3065 


99 40 44 


306X 


loi 9 41 


5056 


102 '38 45 


9050 




Aldebaran 


W. 


65 27 41 


309X 


66 56 2 


3084 


68 24 31 


S078 


69 53 8 


307X 




Spica 


E. 


68 21 3 


3049 


66 51 51 


3045 


65 22 34 


3039 


63 53 10 


SQ34 




Jupiter 


E. 


85 9 40 


3035 


83 40 II 


3030 


82 10 35 


3035 


80 40 53 


SO19 


23 


Aldebaran 


W. 


77 18 17 


3036 


78 47 45 


3088 


80 17 23 


308X 


81 47 zo 


30X8 




Pollux 


W. 


35 42 29 


3X23 


37 xo »i 


3x07 


38 38 12 


309X 


40 6 32 


3078 




Mars 


W. 


33 55 17 


3X39 


35 22 51 


3XX9 


36 50 37 


3x09 


38 18 36 


3100 




Spica 


E. 


56 24 20 


3008 


54 54 10 


S99S 


53 23 51 


9989 


51 53 24 


3981 




JUPITBR 


E. 


73 10 33 


«988 


71 40 5 


a98x 


70 9 29 


3974 


68 38 44 


8966 

1 



54 



MARCH, 1899. 



XVII. 



GREENWICH MEAN TIME. 


LUNAR DISTANCES. 


• 

o9 








P.L. 




P.L. 




P. L. 






P. L. 


Name and Direction | 


Noon. 


of 


Illh. 


of 


Vlh. 


of 


IXh. 




of 




of Object 






Dili. 




Diff. 




DiflL 






Diff. 






• f m 




• t m 




• n 




• 


H 




24 


Aldebaran 


W. 


83 17 8 


3004 


84 47 16 


2996 


86 17 34 


2987 


87 48 


3 


2979 




Pollux 


W. 


41 35 9 


3064 


43 4 3 


3050 


44 33 14 


3037 


46 2 


41 


3025 




Mars 


w. 


39 46 46 


3090 


41 15 8 


3080 


42 43 42 


3070 


44 12 


28 


3060 




Spica 


E. 


50 22 47 


a973 


48 52 I 


3965 


47 21 5 


2958 


45 50 





2950 , 




Jupiter 


E. 


67 7 49 


2959 


65 36 45 


2952 


64 5 52 


2944 


62 34 


9 


2936 ■ 




An tares 


E. 


95 57 27 


2969 


94 26 35 


2961 


92 55 33 


2952 


91 24 


20 


2944 


25 


Aldebaran 


W. 


95 23 9 


3935 


96 54 44 


2926 


98 26 30 


2917 


99 58 


27 


2908 




Pollux 


W. 


53 33 47 


2963 


55 4 46 


a95a 


56 35 59 


2940 


58 7 


27 


2929 




Mars 


W. 


51 39 19 


30ZI 


53 9 18 


3001 


54 39 29 


2992 


56 9 


52 


2981 




Spica 


E. 


38 n 58 


agu) 


36 39 50 


2901 


35 7 32 


2893 


33 35 


4 


2884 




Jupiter 


E. 


54 54 44 


2897 


53 22 21 


2888 


51 49 47 


2880 


50 17 


3 


2873 I 




Antares 


E. 


83 45 33 


2900 


82 13 14 


2891 


80 40 43 


2S8x 


79 8 





2872 1 




Saturn 


E. 


99 27 


2904 


97 54 46 


2895 


96 22 21 


2S86 


94 49 


44 


2876 


26 


Pollux 


W. 


65 48 21 


a873 


67 21 14 


2862 


68 54 21 


2852 


70 27 42 


2841 




Mars 


W. 


63 44 56 


2931 


65 16 35 


2922 


66 48 26 


29x2 


68 20 


30 


2902 

1 




Regulus 


W. 


28 46 2 


2877 


30 18 50 


2862 


31 51 58 


2348 


33 25 


24 


2835 




Jupiter 


E. 


42 30 56 


a835 


40 57 14 


2829 


39 23 24 


2823 


37 49 


26 


2817 




Antares 


E. 


71 21 24 


2823 


69 47 28 


281S 


68 13 20 


2803 


66 38 


59 


2795 




Saturn 


E. 


87 3 33 


2828 


85 29 41 


2818 


83 55 37 


2808 


82 21 


20 


2798 


27 


Pollux 


W. 


78 17 51 


2789 


79 52 33 


V79 


81 27 28 


2769 


83 2 


36 


2760 




Mars 


W. 


76 3 58 


2853 


77 37 17 


8843 


79 10 49 


2834 


80 44 


33 


2825 




Regulus 


W. 


41 16 42 


3773 


42 51 45 


2763 


44 27 2 


275X 


46 2 


34 


2741 




Antares 


E. 


58 44 6 


«749 


57 8 31 


2739 


55 32 43 


2730 


53 56 


43 


2720 




Saturn 


E. 


74 26 44 


2750 


72 51 II 


2741 


71 15 25 


2731 


69 39 


26 


2722 


28 


Pollux 


W. 


91 I 24 


2713 


92 37 47 


8704 


94 14 21 


2695 


95 51 


7 


2687 




Mars 


W. 


88 36 16 


2778 


90 II 13 


2769 


91 46 21 


27^0 


93 21 


41 


2751 




Regulus 


W. 


54 3 46 


2689 


55 40 41 


2G78 


57 17 50 


2669 


58 55 


12 


2ririo 




Antares 


E. 


45 53 39 


2675 


44 16 26 


2667 


42 39 2 


2659 


41 I 


27 


2650 




Saturn 


E. 


61 36 26 


2675 


59 59 13 


2666 


58 21 48 


2657 


56 44 


10 


2649 




a Aquilse 


E. 


99 19 36 


3x80 


97 53 3 


3167 


9G 26 14 


3154 


94 59 


10 


SM3 


29 


Regulus 


W. 


67 5 9 


2614 


68 43 45 


2()04 


70 22 34 


2596 


72 I 


35 


2588 




Saturn 


E. 


48 33 7 


2606 


46 54 20 


2597 


45 15 21 


2590 


43 36 


12 


2582 




a Aquilse 


E. 


87 40 42 


3098 


86 12 30 


S091 


84 44 9 


3085 


83 15 


41 


3080 


30 


Regulus 


W. 


80 19 31 


2546 


81 59 40 


2538 


83 40 


2530 


85 20 


31 


2523 1 




Spica 


W. 


26 16 43 


2555 


27 56 40 


2345 


29 36 51 


2535 


31 17 


>5 


2526 




Saturn 


E. 


35 17 47 


3544 


33 37 35 


2538 


31 57 14 


2531 


30 16 


44 


2525 i 




a Aquilse 


E. 


75 52 13 


3069 


74 23 26 


307* 


72 54 41 


3073 


71 25 


58 


3076 , 




Venus 


E. 


98 58 32 


9937 


97 27 


2928 


95 55 17 


2920 


94 23 


24 


2912 




Fomalhaut 


E. 


loi 28 2 


2992 


99 57 39 


1979 


98 27 


2g6S 


96 56 


7 


2957 


31 


Regulus 


W. 


93 45 44 


8486 


95 27 X7 


2478 


97 9 I 


2471 


98 50 


55 


2464 j 




Spica 


W. 


39 42 24 


2483 


41 24 X 


2475 


43 5 50 


2467 


44 47 


50 


2459 1 




a Aquilse 


E. 


64 3 59 


31 14 


62 36 7 


3128 


6i 8 31 


3»42 


59 41 


12 


3«59 1 




Venus 


E. 


86 41 24 


2873 


85 8 30 


2866 


83 35 27 


2857 


82 2 


13 


2830 . 




Fomalhaut 


E. 


89 18 36 


2914 


87 46 35 


2908 


86 14 26 


2902 


84 42 


10 


2^9^ 




Sun 


E. 


128 19 56 


2626 


126 46 2 


2818 


125 IX 57 


2808 


123 37 


40 


2800 

1 


. 


_^___^^^^ — 




— 





_ _ 


_ _ _ 


. 


— 







xvm. 



MARCH, 1899. 



55 



GREENWICH MEAN TIME. 


LUNAR DISTANCES. 


• 
«1 


Name and Direction 


Midnight 


P.L. 
of 


XVh. 


P.L. 

of 


XVII pi. 


P.L. 

of 


XXIh 


■ 


P.L. 

of 




of Object 






Difl. 




DiflL 




Diff. 








Diff. 








• • m 




• « w 




• t m 




• 


* 


m 




34 


Aldebaran 


W. 


89 18 42 


•970 


90 49 32 


3969 


92 ao 33 


2953 


93 


51 


45 


3943 




Pollux 


W. 


47 33 23 


joza 


49 2 21 


3999 


50 32 35 


99.SR 


52 


3 


3 


3975 




Mars 


w. 


45 41 26 


3051 


47 10 36 


304J 


48 39 58 


3031 


50 


9 


32 


302 X 




Spica 


E. 


44 18 44 


9943 


42 47 18 


3934 


41 15 42 


3933 


39 


43 


55 


3917 




Jupiter 


E. 


61 2 36 


9938 


59 30 53 


3930 


57 59 


391a 


56 


26 


57 


3905 




Antares 


E. 


89 52 57 


3935 


88 21 23 


3936 


86 49 37 


9918 


85 


X7 


41 


3909 


25 


Aldebaran 


W. 


loi 30 36 


S899 


103 2 56 


3890 


104 35 28 


9880 


106 


8 


12 


987a 




Pollux 


W. 


59 39 9 


3917 


61 II 6 


3906 


62 43 17 


3895 


64 


15 


42 


3884 




Mars 


W. 


57 40 28 


3973 


59 IX 16 


396a 


60 42 17 


3952 


62 


13 


30 


3943 




Spica 


E. 


32 2 25 


2877 


30 29 37 


9869 


28 56 38 


9869 


27 


23 


30 


3853 




Jupiter 


E. 


48 44 9 


a86s 


47 II 5 


3858 


45 37 52 


9850 


44 


4 


29 


384a 




Antares 


E. 


77 35 5 


8863 


76 I 58 


3853 


74 28 39 


2844 


72 


55 


8 


3834 




Saturn 


E. 


93 16 54 


a866 


91 43 52 


2857 


90 10 38 


9348 


88 


37 


12 


3838 


26 


Pollux 


W. 


7a I 17 


3831 


73 35 5 


3890 


75 9 7 


98X0 


76 


43 


22 


3799 




Mars 


W. 


69 52 46 


3893 


71 25 15 


9882 


72 57 57 


3873 


74 


30 


51 


386a 




Regulus 


W. 


34 59 7 


3881 


36 33 7 


9809 


38 7 23 


3797 


39 


41 


55 


3785 




Jupiter 


E. 


36 15 20 


38xa 


34-41 8 


9807 


33 6 49 


3803 


31 


32 


25 


3800 




Antares 


E. 


65 4 25 


3786 


63 29 39 


377« 


61 54 40 


2767 


60 


19 


29 


3758 




Saturn 


E. 


80 46 50 


378S 


79 X2 7 


3779 


77 37 12 


2769 


76 


2 


4 


9760 


27 


Pollux 


W. 


84 37 56 


3751 


86 13 29 


374X 


87 49 15 


3733 


89 


25 


13 


2733 




Mars 


W. 


82 18 29 


3815 


83 52 37 


3805 


85 26 58 


3796 


87 


I 


31 


3787 




Regulus 


W. 


47 38 20 


3730 


49 14 20 


9719 


50 50 35 


3708 


52 


27 


4 


3698 




Antares 


E. 


52 20 30 


3713 


50 44 6 


9709 


49 7 29 


3693 


47 30 40 


3684 




Saturn 


E. 


68 3 15 


37x3 


66 26 51 


■703 


64 50 15 


3694 


63 


X3 


27 


3684 


28 


Pollux 


W. 


97 28 5 


3678 


99 5 X4 


3669 


100 42 35 


966X 


102 


20 


7 


3654 




Mars 


W. 


94 57 13 


3743 


96 32 56 


3734 


98 8 51 


3725 


99 


44 


57 


3717 




Regulus 


w. 


60 32 46 


3650 


62 10 33 


3640 


63 48 33 


9633 


65 


26 


45 


3623 




Antares 


E, 


39 23 40 


2643 


37 45 42 


3635 


36 7 34 


3696 


34 


29 


15 


9618 




Saturn 


E. 


55 6 21 


3640 


53 28 20 


363X 


51 50 7 


9623 


50 


II 


43 


96x4 




a Aquils 


E. 


93 31 52 


3x33 


92 4 2X 


Sit3 


90 36 39 


3II3 


89 


8 


45 


3105 


29 


Regulus 


W. 


73 40 47 


3S79 


75 20 11 


957X 


76 59 46 


956a 


78 


39 


33 


3554 




Saturn 


E. 


41 56 52 


3574 


40 17 2X 


3366 


38 37 40 


3SS9 


36 


57 


49 


8551 




a Aquils 


E. 


81 47 7 


3076 


80 18 28 


3073 


78 49 45 


3071 


77 


ai 





3069 


30 


Regulus 


W. 


87 I 12 


3515 


88 42 4 


3507 


90 23 7 


8500 


92 


4 


20 


3492 




Spica 


W. 


32 57 52 


3517 


34 38 42 


3508 


36 19 44 


3499 


38 





58 


3491 




Saturn 


E. 


28 36 5 


85x9 


26 55 18 


35x3 


25 14 23 


3507 


23 


33 


20 


3502 




a Aquils 


E. 


69 57 19 


3a6x 


68 28 46 


3087 


67 20 


3095 


65 


32 


4 


3104 




Venus 


E. 


92 51 20 


3904 


91 19 6 


3896 


89 46 42 


9888 


88 


14 


8 


2880 




JFomalhaut 


E. 


95 25 


3947 


93 53 41 


3938 


9a 22 10 


3939 


90 


50 


28 


3921 


31 


Regulus 


W. 


100 3a 59 


3457 


102 15 13 


3450 


X03 57 36 


3443 


X05 


40 


9 


3437 




Spica 


W. 


46 30 I 


3451 


48 12 23 


3444 


49 54 55 


3436 


51 


37 


38 


3439 




a Aquilac 


E. 


58 X4 14 


3178 


56 47 39 


330Z 


55 21 31 


3226 


53 


55 


53 


3357 




Venus 


E. 


80 28 50 


3R43 


78 55 X7 


3835 


77 21 35 


3828 


75 


47 


43 


989X 




Fomalhaut 


E. 


83 9 49 


3894 


81 37 22 


1891 


80 4 52 


3889 


78 


32 


19 


9887 




Sun 


£. 


X22 3 xa 


3793 


120 28 33 


3783 


118 53 43 


8775 


117 


18 


42 


3766 

1 



56 



APRIL^ 1899. 





AT GREENWICH APPARENT NOON. 






1 

1 

■s 


a 

o 

ja 

«M 

o 
Q 


THE SUN'S 


Sidereal 
Time of 
Semi- 
diameter 
Passing 
Meridian 


Equation of 

Time, 

to be 

Added to 


1 

Diff. for 
I Hoar. 


Apparent 
Right Ascensioa 


Diff. for 
X Hour. 


Apparent 
Declination. 


Diff. for 
z Hoar. 


Semi- 
diameter. 


Subtracted 

from 
Apparent 

Time. 


Sat. 

SUN. 

Mon. 


I 
2 

3 


h m a 
42 28.37 

46 6.81 

49 45-39 


■ 
9.099 

9.105 

9. II I 


t tt 

N. 4 34 13-5 

4 57 19-0 

5 20 19.3 


+57.83 
57.62 

57.40 


1 m 
16 2.18 
16 1.90 
16 1.62 


8 
64.52 

6454 
64.56 


m 8 

3 57.04 
3 38.98 
3 21.06 


■ 

0.755 
0.749 

0.743 


Tues. 
Wed. 
Thur. 


4 

5 
6 


53 24.14 

57 307 

1 42.20 


9. 1 18 
9.126 

9-135 


5 43 14-2 

6 6 3.1 

6 28 45.9 


+57- 16 
56.91 
56.64 


16 1.34 
16 1.06 
16 0.78 


64.58 
64.61 
64.64 


3 3.30 

2 45-73 
2 28.36 


0.736 
0.728 
0.719 


Frid. 

Sat. 

SUN. 


7 
8 

9 


I 4 21.56 
I 8 1. 14 
I II 40.97 


9.145 

9.155 
9.165 


6 51 22.0 

7 13 51.2 
7 36 13.0 


+56.36 
56.06 

55-75 


16 0.50 
16 0.22 

15 59.94 


64.67 
64.70 
64.74 


2 11.20 
I 54.28 
I 37.60 


0.710 
0.700 
0.689 


Mon. 
Tues. 
Wed. 


lO 

II 

12 


I 15 21.06 
I 19 1.43 
I 22 42.09 


9.176 
9.188 
9.200 


* 7 58 27.2 
8 20 33.3 
8 42 31.0 


+5542 
55.08 

54.72 


15 59.67 
15 59.40 
15 59.13 


64.78 
64.82 
64.86 


I 21.18 

I 5.05 
49.19 


0.678 
0.667 
0.655 


Thur. 

Frid. 

Sat. 

SUN. 

Mon. 

Tues. 


13 
H 

i6 

17 
i8 


I 26 23.04 

I 30 4-31 
I 33 45-91 

I 37 27.84 
I 41 10.13 
I 44 52.78 


9.213 
9.226 
9.240 

9.254 
9.269 
9.285 


9 4 19.9 
9 25 59-8 
9 47 30.2 

10 8 50.8 
10 30 12 
10 51 1.2 


+54-35 
5396 
53.56 

+53.15 
52.72 

52.28 


15 58.86 
15 58.60 

15 58.34 

15 58.08 
15 57.82 
15 57.56 


64.91 
64.96 
65.01 

65.07 
65.12 
65.18 


33.64 
18.39 

3.47 


0.642 
0.629 
0.615 

0.600 
0.585 
0.570 


II.IO 

25.33 
39.20 


Wed. 
Thur. 
Frid. 


19 

20 
21 


I 48 35.81 
I 52 19.23 

I 56 3-07 


9.301 
9.318 

9.335 


II II 50.4 
II 32 28.5 
II 52552 


+51.82 

51.35 
50.86 


15 57.30 
15 5705 
15 56.79 


65-23 

65.28 

6533 


52.69 

1 5.78 
I 18.46 


0.554 

0.537 
0.520 


Sat. 

SUN. 

Mon. 


22 
23 

24 


1 59 47.33 

2 3 32.03 

2 7 17.18 


9.353 
9.372 
9.391 


12 13 lO.I 
12 33 13.1 
12 53 3-6 


+50.37 
49.86 

49.34 


15 56.54 
15 56.29 

15 56.04 


6539 
65.46 

65.54 


I 30.72 

I 42.55 
I 53.92 


0.502 
0.483 
0.464 


Tues. 
Wed. 
Thur. 


25 
26 

27 


2 II 2.81 
2 14 48.92 
2 18 35.53 


9.411 

9.432 
9.453 


13 12 41.6 
13 32 6.5 
13 51 18.2 


-1-48.81 
48.27 

47.71 


15 55.79 

15 55-54 
15 55.29 


65.62 
65.70 

65.27 


2 4.82 
2 15.23 
2 25.14 


0.444 
0.424 

0.403 


Frid. 

Sat. 

SUN. 


28 
29 

30 


2 22 22.66 
2 26 10.31 
2 29 58.50 


9.475 

9.497 
9.519 


14 10 16.4 
14 29 0.6 
14 47 30.6 


+47.14 
46.55 
45-95 


15 55.04 
15 54-79 
15 54.55 


65.85 
65.92 

66.00 


2 34-55 
2 43.43 
2 51.77 


0.381 

0.359 
0.336 


Mon. 


31 


2 33 47.24 


9.542 


N.15 546.1 


+45.34 


15 54.30 


66.07 


2 59.56 


0.313 


NoT«.— The me 


an time of aamidiametar paasi 


ng may be found by tubtractinil o*.i8 from thtf aidoreal t 


ime. 




The sigi 


Q + prefixed to the hourly cha 


mge of deolhiation indicates that north declinations are 


increasing. 


1 



II. 



APRIL, 1899. 



67 











AT GREENWICH MEAN NOON. 






1 

«M 

o 


4 

a 
o 

« 

•s 

«M 

o 

CO 






THE 


SUN'S 




Equation of 

Time, 

to be 
Subtracted 

from 


Diff. for 
X Hour. 


Sidereal 

Time, 

or 

Right Aacenaion 

of 

Mean Sun. 


Apparent 
Right Ascension. 


Diff. for 
z Hour. 


Apparent 
Declination. 


Piff. for 
X Hour. 


Added to 
Mean Time. 


Sat. 

SUN. 

Mon. 


I 
2 

3 


h 







m ■ 
42 27.77 

46 6.25 

49 44.88 


■ 
9.101 

9.107 
9. "3 


• » m 

N. 4 34 9.7 

4 57 15-5 

5 20 16.1 


m 

+5784 
57.63 
57.41 


m B 

3 57.09 
3 39.02 

3 21.10 


■ 
0.756 

0.750 
0.743 


h m 8 
38 30.68 

42 27.23 

46 23.78 


Tues. 
Wed. 
Thur. 


4 

5 
6 




X 


53 23.67 

57 2.65 

41.83 


9.Z20 
9. 128 

9.X37 


5 43 "-3 

6 6 0.5 

6 28 43.5 


+57-17 
56.92 
56.65 


3 3.34 
2 45.76 
2 28.39 


0.736 
0.728 
0.719 


50 20.34 
54 16.89 
58 13.44 


Frid. 

Sat. 

SUN. 


7 
8 

9 




4 21.22 

8 0.85 

II 40.72 


9.146 
9.156 
9.167 


6 51 20.0 

7 13 49-4 
7 36 11.5 


+56.37 
56.07 

55.76 


2 11.23 

I 54-30 
I 37.62 


0.710 
0.700 
0.690 


I 2 10.00 

I 6 6.55 
I 10 3.10 


Mon. 
Tues. 
Wed. 


lO 

II 

12 




15 20.86 
19 1.27 
22 41.96 


9.178 
9.190 
9.202 


7 58 25.9 

8 20 32.3 
8 42 30.3 


+55-43 
55.09 
54.73 


I 21.20 
I 5.06 
49.20 


0.679 
0.667 
0.655 


I 13 59.66 

I 17 56.21 

I 21 52.76 


Thur. 

Frid. 

Sat. 

SUN. 

Mon. 

Tues. 


13 

15 

i6 

17 
i8 




26 22.96 
30 4.27 

33 45-90 

37 27.87 
41 10.20 

44 52.88 


9.215 
9.228 
9*242 

9.256 
9.271 
9.287 


9 4 19-5 
9 25 59-6 
9 47 30-2 

10 8 51.0 
10 30 1.6 
10 51 1.8 


+54.36 
53.97 
53.57 

+53.16 

52.73 
52.29 


33.64 
18.40 
3.48 


0.642 
0.629 
0.615 

0.600 
0.585 
0.570 


I 25 49.32 
I 29 45.87 
I 33 42.42 

I 37 38.98 

I 41 35.53 
I 45 32.08 


II. II 
25.34 
39.21 


Wed. 
Thur. 
Frid. 


19 

20 
21 




48 35-94 
52 19.40 
56 3-27 


9303 
9-320 

9.337 


II II 51.2 
II 32 29.5 
II 52 56.3 


+51.83 
51.36 
50.87 


52.69 

1 5-79 
I 18.48 


0.554 

0.537 
0.520 


I 49 28.64 

I 53 25.19 
I 57 21.75 


Sat. 

SUN. 

Mon. 


22 

23 

24 


I 
2 
2 


59 47-56 
3 32.30 

7 17-48 


9.355 
9.373 
9.392 


12 13 11.4 

12 33 14-5 
12 53 5-2 


+50.38 
49.87 
49.35 


I 30.74 
I 42.56 

I 53-93 


a 502 
0.483 
0.464 


2 I 18.30 
2 5 14.86 
2 9 11.41 


Tues. 

Wed. 
Thur. 


25 
26 

27 


2 
2 
2 


II 3.14 
14 49.27 
18 35.91 


9.412 
9.433 
9.454 


13 12 43.3 
13 32 8.4 
13 51 20.2 


+48.82 
48.27 

47.71 


2 4.83 
2 15.24 
2 25.16 


0.444 
0.424 
0.403 


2 13 7.96 
2 17 4.52 
2 21 1.07 


Frid. 

Sat. 

SUN. 


28 
29 

30 


2 
2 
2 


22 23.06 
26 10.74 

29 58.95 


9.476 

9.498 
9.520 


14 10 18.4 
14 29 2.7 
14 47 32.9 


+47.14 
46.55 
45.95 


2 34-57 
2 43-44 
2 51-79 


0.381 
0.359 
0.336 


2 24 57.63 
2 28 54.18 

2 32 50.74 


Mon. 


31 


2 


33 47-71 


9-543 


N.15 5 48.4 


+45.34 


2 59-58 


0.313 


2 36 47.29 


NoT«.— T 

Tl 

1. 


beiei 
tiesig 
incre 


nidiameter for meai 
n -f prefixed to the 
asing. 


1 nooQ may 
hourly chai 


be assamed the 8«in< 
ige of declination in 


9 as that for 
dicates that 


apparent noon 
north declinati 


• 

ions are 


Diff. for z Hour, 

+ 9'.8565. 
(Table HI.) 



58 



APRIL, 1899. 



IIL 



AT GREENWICH MEAN NOON. 



a 

o 



I 

2 

3 

4 

5 
6 

7 
8 



lO 

II 

12 

13 

15 

i6 

17 
i8 

20 
21 

22 

23 
24 

25 
26 

27 

28 
29 

30 
31 



o 



91 
92 

93 

94 

95 
96 

97 
98 

99 

00 
01 
02 

03 
04 

05 

06 
07 
08 

09 
10 
II 

12 

13 

H 

15 
16 

17 

18 

19 
20 



121 



THE SUN'S 



TRUE LONGITUDE. 



" 33 9-5 

12 32 17.3 

13 31 23.3 

14 30 27.6 

15 29 30.1 

16 28 30.8 

17 27 29.7 

18 26 26.8 

19 25 22.0 

20 24 15.2 

21 23 6.4 

22 21 55.6 

23 20 42.7 

24 19 27.6 

25 18 10.3 

26 16 50.9 

27 15 29.3 

28 14 5.2 



29 
30 
31 

32 
33 

34 



39.1 
10.8 



12 
II 
9 40.2 



8 7.7 
6 33- 1 
4 56.5. 



35 3 18.1 

36 I 37.8 

36 59 55-7 

37 58 12.0 

38 56 26.7 

39 54 39-9 

40 52 51.6 



32 40.2 

31 48.0 

30 53-9 

29 58.1 

29 0.5 

28 I.I 

26 59.9 

25 56.9 

24 52.0 

23 45- 1 

22 36.2 

21 25.2 

20 12.2 

18 57.0 

17 39-5 

16 20.0 

14 58.3 

13 34-1 

12 7.9 

10 39-5 

9 8.7 

7 36.1 

6 1.4 

4 24.7 

2 46.2 

I 5-7 

59 23.5 

57 39-7 

55 54-2 

54 7-3 

• 

52 18.9 



X>jtf. for 
1 Hour. 



7.86 
7.78 
7.71 

7.64 

7-57 
7.50 

7.42 

7-34 
7.26 

7.18 
7.09 
7.01 

6.92 
6.83 

6.73 

6.64 
6.55 
6.45 

6.36 
6.27 
6.19 

6.10 
6.02 

5-94 

5.86 
5.78 
5.71 

5.64 
5.58 
5-51 



45-45 



LATITUDE. 



— 0.13 
0.00 

+ 0.13 

+ 0.26 

0.37 
0.46 

+ 0-53 
0.56 

0'57 

+ 0-55 
0.50 

0.43 

+ 0.31 
0.19 

+ 0.07 

— 0.06 
0.20 

0-33 

— 0-43 
0.51 

0.58 

— 0.62 
0.61 
0.58 

-0-53 
045 
0.34 

— 0.22 

— O.IO 

-f 0.04 

+ 0.17 



Logarithm 

of the 

Radius Vector 

of the 

Earth. 



9-9999154 
0.0000433 

O.OOOI7II 

0.0002989 
0.0004262 
0.0005532 

0.0006795 
0.0008051 
0.0009297 

0.0010535 
O.OOII763 
0.001298 1 

O.OOI4188 
0.0015387 
0.0016576 

0.0017756 
0.0018928 
0.0020094 

0.0021256 
0.0022410 
0.0023561 

0.00247 1 1 
0.0025853 
0.0026996 

0.0028136 
0.0029274 
0.0030408 

0.0031538 
0.0032663 
0.0033782 

0.0034894 



Diff. for 
X Hour. 



Mean Time 

of 

Sidereal Nooa 



+53-2 
53-2 
53-2 

+53.1 

52-9 
52.7 

+52.5 
52.2 

51.8 

+51.4 
51.0 

50-6 

+50.2 
49.8 
49.4 

+49«o 
48.7 

48.4 

+48.2 
48.0 

47-9 

+47.8 

47-7 
47.6 

+47-5 

47-4 
47.2 

•f-47.0 
46.8 
46.5 

+46.1 



o m a 
23 17 39.72 
23 13 43.82 

23 9 47.91 

23 5 52.00 
23 I 56.09 
22 58 0.19 

22 54 4.28 
22 50 8.37 
22 46 12.46 

22 42 16.56 
22 38 20.65 
22 34 24.74 

22 30 28.84 
22 26 32.93 
22 22 37.02 

22 18 41. II 
22 14 45.20 
22 10 49.30 

22 6 53.39 
22 2 57.48 
21 59 1.57 

21 55 5-66 

21 51 9.75 
21 47 13.84 

21 43 17.94 
21 39 22.03 
21 35 26.12 

21 31 30.21 
21 27 34.30 
21 23 38.39 

21 19 42.48 



NoTS.— The numbers in column A correspond to the 
equinox of January o'ja 



rue equinoi of the date; in eolnmn A' to the mean 



Di£F. for x Hour, 
— 9*.8296. 
(Table 11.) 



IV. 



APRIL, 1899. 



69 






GREENWICH MEAN TIME. 



THE MOON'S 



a 
o 



o 



SBMIDIAMBTBR. 



I 

2 

3 

4 

5 

6 

7 

8 



lo 
II 

12 

13 
14 
15 

i6 

17 
i8 

20 
21 

22 

23 
H 

25 
26 

27 

28 

29 
30 

31 



Nooo. 



5 56.0 

6 2.4 
6 8.1 

6 12.8 

6 16.1 

6 17.3 



6 
6 
6 

5 
5 
5 



5 
5 



4 
4 
4 

5 
5 
5 

5 
5 
5 

6 
6 
6 



16.2 

12.3 
5.6 

56.5 
45-7 
33-9 



22.1 
II. I 

5 1.8 



4 54-7 
4 50.3 
4 48.6 



49.8 
53-6 
59.8 

8.0 

175 
27.7 

38.0 

47-4 
55-8 

2.2 
6.9 

9-9 



Midniiht 



16 II.2 



5 59-3 

6 5-4 
6 10.7 

6 14.7 

6 17.0 

6 17.1 

6 14.6 

6 9-3 

6 1.4 



5 
5 
5 

5 
5 
4 



5 
5 
5 

6 
6 
6 



513 

39-8 
27.9 

16.4 
6.2 

58.0 



4 52.2 

4 49- 1 
448.8 

4 51-3 

4 56.4 

5 3-7 

5 12.6 

5 22.6 

5 32.9 



42.8 

517 
59-2 

4.8 

8.7 
10.8 



HORIZONTAL PARALLAX. 



Noon. 



58 21.8 

58 45 6 

59 6-6 

59 23.8 

59 35-7 

59 40- 3 

59 36- 1 

59 21.8 

58 57-3 

58 23.9 

57 44-1 

57 0.7 

56 17.3 

55 37.1 

55 3.0 

54 37 o 

54 20.6 

54 H-4 

54 18.7 

54 32.7 

54 55-6 

55 25.6 

56 0.6 
56 38.2 



57 
57 

58 



15.7 

50.5 
20.7 



58 44-8 

59 2.2 
59 I3-I 



Diff. foi 
I Hour. 



16 1 1.3 59 17.9 



+X.03 
0.94 
0.80 

-fo.62 

0.35 
•fo.02 

-0.38 
0.81 
Z.2X 

1-75 
1.83 

-1.75 
Z.56 
X.26 

-0.89 

0.47 

-0.04 

40.38 
0.78 
z.ii 

-••x-37 
1-53 
1.58 

+1.52 
1.36 

X.X3 

40.87 

0.59 
0.32 

-H>.o8 



llidnitbt 



58 340 

58 5^-5 

59 15-8 

59 30-6 
59 390 
59 39.4 

59 302 
59 10.8 
58 41-7 

58 4-6 
57 22.6 
56 38.8 

55 56.6 
55 192 
54 48.9 

54 27.5 
54 16.2 

54 15-3 

54 24.5 

54 43.2 

55 9-8 

55 42.6 

56 19.2 

56 57-1 

57 33-5 

58 6.3 

58 33.6 

58 54-4 

59 8.5 
59 16.2 

59 18.2 



Diff. for 
I Hour. 



+0.99 
0.88 
0.72 

+0.49 

+0.19 
-0.18 

-0.60 
Z.02 

1.39 

-1.66 
Z.81 
1.80 

-1.67 
1.42 
1.08 

-0.68 
-0.25 
-K>.i8 

40.58 
0.95 
X.25 

•4-X.46 
1.56 
X.56 

41.45 
x.25 

1. 00 

+0-73 

0.45 
40.20 

-0.03 



UPPER TRANSIT. 



Meridian of 
Greenwich. 



h m 

16 59.2 

17 58.1 

18 55-5 

19 50-7 

20 43.6 

21 34.8 

22 25.0 

23 151 
6 

o 5.9 

57-7 

1 50-6 



2 

3 
4 

5 
6 

6 



44.0 

370 
28.7 

18.2 

5-3 
50.2 



7 33-3 

8 15-4 

8 57.3 

9 40.0 

10 24.3 

11 11.3 

12 1.7 

12 55-9 

13 53-4 

14 530 

15 52.8 

16 51. 1 

17 46.8 



DiflL for 
I HoQr. 



2.46 

2.43 
2.35 

2.25 
2.x6 

2.IX 

2.08 
2.10 



2.14 

2.x8 

2.22 



2.22 

2.19 
2.XI 

2.0X 
X.9X 
X.83 

1.77 

1-74 
1-75 

X.81 
X.90 
2.03 

2.18 
2.33 
2.45 

2.50 
2.47 
2.38 

2.26 



AGS. 



N00& 

d 
20.7 

21.7 

22.7 

237 
24.7 

25.7 

26.7 
27.7 
28.7 

0.2 
1.2 
2.2 

3.2 
42 

5-2 

6.2 

7.2 

8.2 

9.2 

10.2 

1 1.2 

12.2 

13-2 
14.2 

15-2 

16.2 
17.2 

18.2 

19.2 
20.2 

21.2 



60 



APRIL, 1899. 



V. 











GREENWICH 


MEAN 


TIME. 








THE MOON'S RIGHT ASCENSION AND DECLINATION. 


Hour. 




Right 


Oiff.for 


Decllnatlan. 


DIff. for 


Hoar. 




Right 


DifLfor 


DeeliiuitioiL 


DIff. for 




Ascensioii. 


X Minute. 






X Minate. 




AscenaioiL 


X Minate. 




zMinntau 






SA 


LTURDi 


\Y X, 


1 








MONDAY 3. 






h 


m t 


t 


• 


» • 


• 




h 


m t 


8 


• t m 


• 


O 


l6 


57 40.95 


8.5xax 


S.24 


10 43.1 


0.794 





18 


58 29.97 


8.4850 


S.2I 50 9.1 


6.555 


z 


17 


11.73 


«.5i38 


24 


II 26.1 


0.639 


I 


19 


58.99 


8.4888 


21 43 31.5 


6.698 


2 


17 


2 42.61 


8.5x56 


24 


II 59.8 


0.485 


2 


19 


3 27.84 


«.4794 


21 36 45-3 


6.840 


3 


17 


5 13-60 


8.5x73 


24 


12 24.3 


0.330 


3 


19 


5 56.52 


a. 4767 


21 29 50.7 


6.980 


4 


17 


7 44.68 


8.5x87 


24 


12 39.4 


O.X74 


4 


19 


8 25.04 


8.4738 


21 22 47.7 


7.1x9 


5 


17 


10 15.84 


8*5800 


24 


12 45.2 


- 0.019 


5 


19 


10 53.38 


8.4708 


21 15 36.4 


7.358 


6 


17 


12 47.08 


a.5ax3 


24 


12 41.7 


+ O.X37 


6 


19 


13 21.54 


8.4678 


21 8 16.8 


7.396 


7 


17 


15 18.40 


8.5885 


24 


12 28.8 


0.893 


7 


19 


15 49.52 


8.4648 


21 48.9 


7.533 


8 


17 


17 49.78 


8.5836 


24 


12 6.6 


0.449 


8 


'9 


18 17.31 


8.46x7 


20 53 12.8 


7.669 


9 


17 


20 21.23 


8.5346 


24 


" 34.9 


0.606 


9 


19 


20 44.92 


8.4586 


20 45 28.6 


7.803 


lO 


17 


22 52.73 


8.5954 


24 


10 53-9 


0.768 


10 


19 


23 12.34 


a.4553 


20 37 36.4 


7.938 


II 


17 


25 24.28 


i.5868 


24 


xo 3-5 


0.9x8 


II 


19 


25 39.56 


a.45ai 


20 29 36.1 


8.071 


12 


17 


27 55.87 


8.5868 


24 


9 3.7 


1.075 


12 


19 


28 6.59 


8.4488 


20 21 27.9 


8.8Q3 


13 


17 


30 27.50 


8.5873 


24 


7 54-5 


X.838 


13 


19 


30 33.42 


«.4455 


20 13 II. 8 


8.333 


H 


17 


32 59.15 


a.5878 


24 


6 35.9 


X.388 


M 


19 


33 0.05 


8.443a 


20 4 47.9 


8.46s 


15 


17 


35 30.83 


8.5888 


24 


5 7-9 


X.545 


15 


19 


35 26.48 


8.4388 


19 56 16.2 


8.593 


i6 


17 


38 2.53 


8.5383 


24 


3 30.5 


X.708 


16 


19 


37 52.70 


3.4353 


19 47 36.9 


8.7x9 


I? 


17 40 34.23 


8.5884 


24 


I 43.7 


X.859 


17 


19 


40 18.72 


8.43x9 


19 38 49.9 


8.846 


z8 


17 


43 5.94 


a. 5885 


23 


59 47.4 


8.0X6 


18 


19 


42 44.53 


8.4884 


19 29 55-4 


8.973 


19 


17 45 37-65 


8.5884 


23 


57 41-8 


8.X78 


19 


19 45 10.13 


8.4348 


19 20 53.3 


9.097 


20 


17 


48 9.35 


8.5388 


23 


55 26.8 


8.338 


20 


19 47 35.51 


8.43x3 


19 II 43.8 


9.8x9 


21 


17 


50 41.03 


8.5878 


23 


53 2.4 


8.484 


21 


19 


50 0.68 


8.4x78 


19 2 27.0 


9.34X 


22 


17 


53 12.69 


8.5875 


23 


50 28.7 


8.640 


22 


19 


52 25.64 


8.4143 


18 53 2.9 


9.46s 


23 


17 


55 44.33 


8.5871 


S.23 47 45.6 


■.797 


23 


19 


54 50.38 


8.4105 


S.18 43 31.5 


9.58s 






c 


>UNDA^ 


^ 2. 










T 


UESDA 


Y4. 




O 


17 


58 15.94 


8.5865 


S.23 


44 53-1 


«.93S 





19 


57 14-90 


8.4068 


S.18 33 52.9 


9.703 


I 


18 


47.51 


8.5358 


23 


41 51.3 


3.X08 


I 


19 


59 39-20 


8.4033 


18 24 7.3 


9.8x8 


2 


18 


3 19.03 


8.5349 


23 


38 40.2 


3.863 


2 


20 


2 3.29 


8.3996 


18 14 14.7 


9*955 


3 


18 


5 50.50 


8.5340 


23 


35 19.7 


3*4X8 


3 


20 


4 27.15 


3.3958 


18 4 15. 1 


10.050 


4 


18 


8 21. 91 


8.5330 


23 


31 50.0 


3. 573 


4 


20 


6 50.79 


3.3988 


17 54 8.7 


xo.z6s 


5 


18 


10 53.26 


3.5880 


23 


28 II. 


3.797 


5 


20 


9 14.21 


8.3885 


17 43 55.5 


ZO.876 


6 


18 


13 24.55 


8.5808 


23 


24 22.8 


3.880 


6 


20 


" 37-41 


8.3848 


17 33 35.6 


10.387 


7 


18 


15 55.76 


a. 5195 


23 


20 25.4 


4.033 


7 


20 


14 0.38 


8.38x0 


17 23 9.1 


xo.497 


8 


18 


18 26 89 


8.5181 


23 


16 18.8 


4.X87 


8 


20 


16 23.13 


3.3773 


17 12 36.0 


10.606 


9 


18 


20 57.93 


8.5x67 


23 


12 3.0 


4.339 


9 


20 


18 45.66 


3.3737 


17 I 56.4 


10.7x3 


10 


18 


23 28.89 


8.5x58 


23 


7 38.1 


4.491 


10 


20 


21 7-97 


8.3699 


16 51 10.4 


XO.88O 


IZ 


18 


25 59.75 


a.5134 


23 


3 4-1 


4*643 


II 


20 


23 30.05 


8.s66x 


16 40 18.0 


10.934 


12 


18 


28 30.50 


a-5"7 


22 


58 21.0 


4.793 


12 


20 


25 51-90 


8.3683 


16 29 19.5 


ZI.0S7 


13 


18 


31 1.15 


8.5099 


22 


53 28.9 


4.944 


13 


20 


28 13.53 


3.3587 


16 18 14.8 


XZ.X89 


14 


18 


33 31-69 


1.5081 


22 


48 27.7 


5*094 


14 


20 


30 34-95 


t.355x 


16 7 4.0 


XI.8SX 


15 


18 


36 2.12 


a. 5062 


22 


43 17.6 


5.t43 


X5 


20 


32 56.14 


3.35x3 


15 55 47- X 


ix.SSO 


i6 


18 


38 32.43 


8.5041 


22 


37 58.6 


5.39s 


16 


20 


35 17-" 


3.3476 


15 44 24.4 


II.4SB 


17 


18 


41 2.61 


8.50x9 


22 


32 30.6 


5.540 


17 


20 


37 37-85 


3.3439 


15 32 55-8 


XX.535 


i8 


18 


43 32.66 


a.4997 


22 


26 53.8 


5.688 


18 


20 


39 58.38 


3.3403 


15 21 21.4 


xx.6ax 


19 


18 


46 2.57 


a. 4974 


22 


21 8.1 


5.834 


19 


20 


42 18.69 


3.3367 


15 9 4X-3 


XI.7X5 


20 


18 


48 32.35 


a.4951 


22 


15 13-7 


5.980 


ao 


20 


44 38.78 


3.3330 


«4 57 55.6 


zx.808 


21 


18 


51 1.98 


8.4936 


22 


9 10.5 


6.xa6 


21 


20 


46 58.65 


3.3394 


14 46 4.4 


XZ.899 


22 


18 


53 31.46 


8.49OX 


22 


2 58.6 


6.370 


22 


20 


49 18.31 


3.3359 


14 34 7-7 


IX.9B9 


«3 


18 


56 0.79 


8.4876 


21 


56 38.1 


6.4x3 


23 


20 


51 37-76 


8.3333 


14 22 5.7 


13.078 


r 


18 


58 29.97 


8.4850 


S.2I 


50 9.1 


6.555 


24 


20 


53 56.99 


8.3x88 


S.14 9 58.4 


a. 164 



VI. 



APRIL, 1899. 



61 



GREENWICH MEAN TIME. 



THE MOON'S RIGHT ASCENSION AND DECLINATION, 



Hour. 



Right 
Ascanaion. 



Diff.for 
X Minnte. 



Declinadoii. 



Diff.for 
X Minnta. 



O 
I 

2 

3 

4 

5 
6 

7 
8 

9 

lO 
IX 
12 

13 

15 
i6 

17 
i8 

19 

20 
21 
22 
23 



O 

I 
2 

3 

4 

5 
6 

7 
8 

9 

lO 
XX 
X2 

13 

14 

15 
i6 

17 
i8 

19 

20 
21 
22 
23 

a4 



h m 
20 53 
20 56 
20 58 
o 

3 

5 

7 
10 

12 

14 
16 

19 

21 

23 

26 

28 
30 
32 

35 
37 
39 
41 
44 
46 



2 
2 
2 

2 
2 
2 
2 

2 
2 
2 
2 

2 
2 
2 
2 
2 
2 
2 
2 
2 
2 



22 
22 
22 



WEDNESDAY 5. 

a 
56.99 3.3x88 S. 
X6.0I 
34.81 



53-41 
IX. 80 

29.98 

47.96 

5-74 

23-31 
40.69 

57.87 
14.86 

31-65 
48.25 

4.67 

20.90 

36.94 
52.81 

8.50 

24.01 

39-35 

54-53 

9.53 

24-37 



a 
3.3x88 

8.3x53 

8.3117 
3.3083 
3.3048 
3.30x3 
8.3980 
3.3946 
3.3913 
3.3880 
3.3848 
3.38x3 
a. 3783 
3.3753 

3.373X 

a. 3689 
3.3659 
3.3630 
a. 3600 
3.357X 

3.3543 
3.35x5 

3.3487 
3.3460 



s. 



9 

57 

45 

33 
20 

8 

55 
42 
2 30 
2 17 

4 
51 
38 

25 

II 

58 
45 

31 

x8 

4 

51 

37 

23 
xo 



3 

3 

3 

3 
2 

2 



9 
9 
9 
9 



THURSDAY 6. 



2X 48 
21 50 
21 53 
21 55 

21 57 
ax 59 

22 2 

4 
6 

8 

22 xo 

22 13 

22 15 

22 17 

22 19 

22 22 
22 24 
22 26 
22 28 
22 30 
22 33 

22 35 
22 37 
22 39 
22 41 



39.05 


3.3433 


53.57 


3.3408 


7-94 


3.3383 


22.15 


3.3356 


36.2X 


3.3333 


50.13 


8.3308 


3-90 


3.3383 


17-53 


a. 3360 


3X.02 


a. 3338 


44.38 


3.33X6 


57.61 


8.3x93 


10.70 


3.3x73 


23.67 


3.3XS3 


36.52 


3.3x33 


49.25 


3.3XX3 


1.87 


3.3093 


14-37 


3.3073 


26.77 


3. 3058 


39.06 


3.3040 


51.25 


3.3033 


3.34 


3.aoo8 


15.34 


S.X993 


27-24 


3.X977 


39.06 


S.X963 


50.79 


3.X948 



s. 



8 56 
8 42 
8 28 
8 X4 
o 
46 
32 



S. 



8 

7 
7 
7 

7 

6 

6 
6 
6 

5 
5 
5 
5 
4 
4 
4 
4 
3 
3 
3 
3 



x8 

4 
50 

35 
21 

7 

52 
38 
24 

9 

55 
40 
26 
II 

57 
42 

27 
13 



58.4 
46.0 

28.4 

5.8 

38.3 
6.0 

28.9 

47.1 

0.7 

9.8 

14.5 
14.9 

II.O 

3.0 

50-9 
34.8 
14.8 

5X-I 
23.6 

52.5 
17.9 

39.8 

58.4 

X3.7 



25.8 

34.9 
40.9 

44-1 

44-4 
42.0 

37-0 

29.4 

19.4 

7.0 

52.4 

35-5 
16.6 

55.7 
32.8 

8.x 

41.7 

13.7 
44.x 

13.0 

40.6 

6.9 

32.0 

56.0 

X9.0 



xa.x64 
13.350 

13.335 
13.4x8 

xa.498 

X3.578 
X3.6s8 

W.735 
xa«8xx 

13.885 
X3.938 
X3.039 

13.099 

X3.168 

X3-335 

X3.30X 

X3.364 

X3.4a7 

X3.488 

X3.548 
X3.606 

13.663 
X3.718 

xs.77a 



13*833 

13.874 

13.933 

X3.971 
14.0x8 

X4.063 

X4.105 

14.147 
X4.187 

X4.M5 
X4.363 

X4.398 
14.333 
14-363 
14.397 
X4.436 

14.453 
14.480 
14-506 

14.539 
X4.55X 
X4.573 

14.591 
X4.608 

X4.624 



Hour. 



Right 
Aacanaion. 



Diff.for 
X Minute. 



DaclioatioiL 



DilLfor 
I Minute. 



O 
X 
2 

3 

4 

5 
6 

7 

8 

9 
10 

IX 
12 

13 

14 

15 
16 

17 
18 

19 
20 

21 

22 

23 



O 

X 
2 

3 

4 

5 
6 

7 
8 

9 
xo 

IX 

12 

13 

14 

15 
16 

X7 
x8 

19 
20 

2X 
22 
23 

24 



FRIDAY 7. 



h m 
22 41 

22 44 

22 46 

22 48 

22 50 

22 52 

22 54 
22 57 
22 59 



23 
23 
23 
23 



X 

3 

5 
8 



23 lO 
23 12 

23 14 
23 16 

23 19 
23 21 

23 23 
23 25 
23 27 
23 29 
23 32 



23 34 
23 36 

23 38 
23 40 
23 42 
23 45 
23 47 
23 49 
23 51 
23 53 
23 56 
23 58 
o o 

O 2 

o 4 
o 6 

o 9 

O XI 

o 13 

o 15 
o 17 
o 20 

O 22 

o 24 
o 26 



• 

50.79 


a 
3.1948 


S. 


3 


m 
13 19.0 


2.44 


a.X935 




2 


58 41.1 


14.01 


3.X933 




2 


44 2.3 


25.51 


3. X91O 




2 


29 22.8 


36.93 


3.X898 




2 


14 42.7 


48.29 


3.X888 




2 


2.0 


59.59 


3.X878 




X 


45 20.9 


X0.82 


3.X868 




I 


30 39.4 


22.00 


a.x858 




I 


15 57.6 


3312 


a.x849 




X 


X 15.6 


44.19 


3.X84X 







46 33.5 


55.21 


«.x833 







31 51.4 


6.19 


a.x837 







17 9.4 


17-13 


3.X830 


s. 





2 27.6 


28.03 


3. x8x4 


N. 





12 14.0 


38.90 


3.1809 







26 55.3 


49.74 


3.1804 







41 36.1 


0.55 


3.X800 







56 16.4 


".34 


a.x797 




X 


10 56.0 


22.11 


3.X793 




I 


25 35.0 


32.86 


8.X79X 




X 


40 13.2 


43.60 


3.X789 




X 


54 50.5 


54.33 


3.X788 




2 


9 26.8 


5.05 


3.X787 


N. 


2 


24 2.1 



SATURDAY 8. 

N. 2 

a 

3 
3 

3 

3 

4 

4 

4 

4 

5 

5 

5 

5 

5 
6 

6 

6 

6 

7 
7 

7 

7 

8 

N. 8 



15.77 


3.X787 


26.49 


3.X786 


37.20 


a. 1787 


47.93 


3.X788 


58.66 


3.X789 


9.40 


3.X793 


20.16 


a.x795 


30.94 


a.x798 


41.73 


3.X80X 


52.55 


8.X806 


3.40 


3.18XX 


14.28 


3. 18x6 


25.19 


3.X883 


36.14 


8.X838 


47.12 


3.1834 


58.15 


8.X843 


9.22 


3.1848 


20.33 


■.X857 


31-50 


3.1865 


42.71 


3.X873 


53-98 


a.x883 


5.31 


S.X893 


16.70 


3.X909 


28.15 


3.X9XS 


39.66 


3.X934 



38 36.3 

53 9.2 
40.8 

II.O 

39-7 
6.8 

32.3 
56.0 

17.9 

37-8 

55.7 

".5 
25.1 

36.5 

45.5 
52.0 

56.0 

57.4 
56.1 
52.1 
45.2 

35.3 
22.5 

6.5 
47.3 



7 

22 
36 
51 

5 

19 

34 

48 

2 

17 
31 

45 

59 

13 

27 

41 

55 

9 

23 

37 

51 

5 
18 



14.634 
X4.639 
14.653 

X4.6^ 
X4.673 
X4.683 
X4.688 
14. 694 
X4.698 
X4.70X 
X4.703 
X4.70X 
X4.698 

X4.695 

X4.69X 
X4.684 
X4.676 
X4.666 

X4.655 
X4.643 
X4.6a9 
14.6x3 

X4.597 
X4.579 



14. 559 
14.538 

X4.515 

X4.49X 

X4.465 
X4.438 
X4.410 
X4.380 
X4.348 

14.315 
X4.38X 

X4.345 
X4.308 
X4.X70 
14.X39 
14.088 
X4.045 
X4.00X 

X3.956 
X3.909 
X3.860 
X3.8XX 
X3.760 

X3.707 
X3.653 



62 



APRIL, 1899. 



VIL 



GREENWICH MEAN TIME. 



THE MOON'S RIGHT ASCENSION AND DECLINATION. 



Hoar. 



Right 
Ascension. 



Diff.for 
z Minute. 



Declination. 



Diff.for'H^^ 
z Mmate. 



SUNDAY 9. 



o 
I 
2 

3 

4 

5 
6 

7 

8 

9 
10 

II 

12 

13 

14 

15 
16 

17 
18 

19 
20 

21 

22 

23 



o 
I 

2 

3 

4 

5 
6 

7 
8 

9 
10 

II 

12 

13 

14 

15 
16 

17 

18 

19 
20 

21 

22 

23 
24 



h 
O 
o 
o 
o 
o 
o 
o 
o 
o 
o 
o 
o 
o 
o 
o 
o 
I 
I 
I 
I 
I 
I 
I 
I 



m 
26 

28 

31 

33 
35 
37 
39 
42 

44 
46 
48 

50 

53 

55 

57 

59 
I 

4 
6 

8 

10 

12 

15 
17 



9 
39.66 

51.24 

2.89 

14.61 

26.40 

38.26 

50.21 

2.23 

14-33 
26.52 

38.79 

51.15 

3.59 
16.12 

28.75 

41.47 
54.28 

7.19 

20.20 

33.30 

46.50 
59.80 

13.21 
26.72 



8 

a. 1924 
S.1936 
a. 1948 

a. 1959 
a. 1971 

a.l9S4 
a. 1998 
3.2010 
a.aoa4 
a.aosS 
a.ao53 
a.aoG7 
a.ao8i 

a. 3097 
a.2113 
a.aiaS 
a. 2143 
a. 2160 
a.2176 
2.2192 
a. 2208 
2.2226 
a.aa43 
2.2260 



N. 8 
8 
8 
8 

9 

9 

9 

9 
o 

o 

o 

o 

o 

I 

I 

I 

I 

2 
2 
2 

2 
2 

3 

3 



N. 



19 
21 

24 
26 
28 
30 
33 
35 
37 
39 
42 

44 
46 
48 
51 
53 
55 
57 

2 O 
2 2 

2 4 
2 6 

2 9 
2 II 
2 13 



MONDAY 10. 

3 

3 

3 

4 

4 

4 

4 

4 

5 

5 

5 

5 

5 

5 
6 

6 

6 

6 

6 

6 

7 
7 
7 
7 
7 



40.33 


2.2278 


N.I 


54-05 


a. 2295 




7.87 


2.2313 




21.80 


2.2331 




35-84 


a. 2^8 




49.98 


2.23C6 




4.23 


2.2384 




18.59 


2.2403 




33.06 


2.3420 




47.63 


2.2433 




2.32 


9.H57 




17.11 


2.2474 




32.01 


2.2493 




47.02 


2.2511 




2.14 


2.2529 




17.37 


2.2548 




32.71 


a. 2566 




48.16 


3.2583 




3.71 


a. 2601 




19.37 


a.a6i8 




35.14 


3.3636 




51.00 


a. 2654 




6.98 


3.2672 




23.06 


2.268S 




39.24 


2.3706 


N.I 



18 
32 

45 

59 
12 

26 

39 

52 

6 

19 
32 

45 

58 
II 

23 
36 

49 
I 

14 

26 

39 

51 

3 

15 



27 

39 

51 

3 

14 
26 

38 

49 
o 

12 
23 

34 

45 

55 
6 

17 

27 

38 
48 
58 
8 
18 
28 
38 
48 



47.3 
24.9 

59.1 
29.9 

57.1 
20.8 

40.8 

57.1 
9.6 

18.2 

22.8 

23.3 
19.7 

II. 9 

59.8 

43.4 
22.5 

57.1 
27.1 

52.5 
13.2 
29.1 
40.1 
46.1 



47.2 
43.2 
340 
19.6 

59.9 

34.9 

4-5 
28.6 

47-1 
0.0 

7.3 

8.8 

4.6 

54.5 

38.4 
16.4 

48.3 
14.2 

33-9 
47.4 
54.6 

55.5 
50.1 
38.2 
19.8 



13.653 
13.598 
13.543 
13.483 
13.424 
13.364 
13.303 
13. 240 

13.176 
13. no 

X3.043 
12.974 
12.905 

12.834 
12.763 
12.689 
12.614 

12.538 

12.46a 

Z2.384 

12.305 
Z2.2a4 

13. 14a 

12.059 



11.976 
11.890 
IX. 803 
II. 716 
11.628 
11.538 
11.448 

11.355 
11.262 
11.X68 

11.073 
10.978 
10.881 
10.782 
10.683 
10.583 
10.4S2 
10.380 

10.377 
10. 173 
ZO.068 

9.963 
9.856 

9.748 
9.639 



RiRht 

Ascension. 



Diff. for 
I Minute. 



Declination. 



Diff. for 
1 Minute. 



TUESDAY II. 



o 
I 
2 

3 

4 

5 
6 

7 

8 

9 
10 

II 

12 

13 

14 

15 
16 

17 

18 

19 
20 

21 

22 

23 



o 
I 
2 

3 

4 

5 
6 

7 

8 

9 

10 

II 

12 

13 

14 

15 
16 

17 
18 

19 
20 

21 

22 

23 

24 



h 

2 
2 
2 
2 
2 
2 
2 
2 
2 



m 

13 

15 
18 

20 

22 

25 

27 
29 

31 



a 34 
36 
38 
41 
43 
45 
47 
50 
52 
45 
57 

59 
I 

3 
6 



2 
2 
2 
2 

2 
2 
2 

2 
2 
2 
2 

3 
3 

3 



a 

39.24 

55.53 
11.92 

28.41 

44.99 

1.68 

18.46 

35.33 

52.30 

9.36 

26.50 

43.74 
1.05 

18.45 

35-94 
53-50 
II. 14 
28.86 
46.64 

4.50 
22.43 
40.42 
58.48 
16.59 



8 
2.2706 

2.2723 

2.2740 

2.2756 

2.2773 
2.2789 
2.2804 
2.2820 

a. 2836 
2.2850 
2.2865 
2.2879 
2.2893 
2.2908 
2. 2921 
a. 2933 
2.2947 
2.2958 
2.2970 
a. 2982 
a. 2993 
a. 3004 
a. 3014 
a. 3023 



N.17 

7 
8 

8 

8 

8 

8 

8 

9 

9 

9 

9 

9 

9 

9 
20 

20 

20 

20 
20 
20 
20 
20 
N.20 



48 

57 

7 
16 

26 

35 

44 

53 
I 

10 

19 
27 
35 
44 
52 
o 
8 

15 
23 
30 
38 

45 
52 

59 



WEDNESDAY la. 



3 
3 
3 
3 
3 
3 
3 
3 
3 
3 
3 
3 
3 
3 
3 
3 
3 
3 
3 
3 
3 
3 
3 
4 
4 



8 
10 

13 

15 

17 
20 

22 

24 
27 
29 
31 
33 
36 
38 
40 
43 
45 
47 
50 
52 
54 
57 

59 
I 

4 



34.76 


a. 3033 


52.99 


a. 3043 


11.27 


a. 3051 


29.60 


a. 3059 


47.98 


a. 3067 


6.40 


a. 3073 


24.86 


a. 3079 


43.35 


a. 3085 


1.88 


8.3091 


20.44 


3.3096 


39-03 


3.3101 


57.65 


3.3104 


16.28 


a.3107 


34.93 


3.3109 


53-59 


3.311Z 


12.26 


a.3113 


30.94 


3.3114 


49.63 


a. 3114 


8.31 


3.3113 


26.98 


a.3iia 


45.65 


8.3111 


4.31 


8.3108 


22.95 


a. 3106 


41.58 


a. 3103 


0.18 


•.3098 



N.2I 

21 
21 
21 
21 
21 
21 
21 
21 
22 
22 
22 
22 
22 
22 
22 
22 
22 
22 
22 
22 

23 

23 

23 
N.23 



6 

13 

19 
26 

32 

39 

45 

51 

57 
2 

8 

13 
19 
24 
29 
34 
39 
44 
48 

53 

57 
I 

5 

9 

13 



19.8 

54.9 

23-4 

45-3 
0.6 

9.1 

10.8 

5.7 
53.8 

34.9 
9.1 

36.3 

56.4 

9.5 

15.4 
14.2 

5.8 
50.2 

27.3 
57.1 
19.5 
34.6 

42.3 
42.6 



35.4 
20.7 

58.5 
28.7 

51.4 

6.5 
14.0 

13-8 
6.0 

50.5 

27.3 

56.4 
17.8 

31.4 
37.2 

35.3 
25.6 

8.0 

42.7 

9-5 
28.5 

39.7 
43.0 

38.5 
26.1 



9.639 
9.530 
9.420 
9.310 
9.198 
9.085 
8.973 
8.85B 

8.743 
8.628 
8.512 

8.394 
8.277 
8.158 

8.099 
7.9*0 
7.800 
7.679 
7.558 
7.435 
7.313 
7.190 
7.067 

6.943 



6.81B 
6.693 
6.567 
6.441 

6.315 
6.188 
6.060 

5.933 
5.806 

5.678 
5.549 
5.421 

5.892 

5.163 
S.033 
4.903 
4.773 
4.643 
4.513 
4.382 
4.25a 

4. 121 
3.990 

S.859 

S.7«8 



VIII. 



APRIL, 1899. 



63 



GREENWICH MEAN TIME. 



Hoar. 



O 

I 
2 

3 

4 

5 
6 

7 
8 

9 

lO 

II 

12 

13 
14 

15 

i6 

17 
i8 

19 

20 
21 
22 

23 



O 
I 

2 

3 

4 

5 
6 

7 
8 

9 

lO 

II 

12 

13 

14 

15 
i6 

17 
i8 

19 

20 
21 
22 

23 
24 



THE MOON^S RIGHT ASCENSION AND DECJ.INATION. 



Right 
Ascension. 



Diff. for 
t Minute. 



DeclinatloiL 



THURSDAY 13. 



h 
4 
4 
4 
4 
4 
4 
4 
4 
4 
4 
4 
4 
4 
4 
4 
4 
4 
4 
4 
4 
4 
4 
4 
4 



4 
5 
5 
5 
5 
5 
5 
5 
5 
5 
5 
5 
5 
5 
5 
5 
5 
5 
5 
5 
5 
5 
5 
5 
5 



4 
6 

8 

10 

»3 
15 
17 

20 
22 

24 

27 
29 
31 

33 
36 
38 
40 

43 
45 
47 
50 
52 

54 
56 



59 
I 

3 

5 

8 

10 
12 

15 

17 

19 
21 

24 

26 

28 

30 

33 

35 

37 

39 

42 

44 
46 

48 
50 
53 



■ 
0.18 

18.75 
37-30 
55.81 
14.28 

32.71 
51.09 

9.42 

27.71 

45.93 
4.09 

22.19 

40.22 

58.17 
16.05 

33.85 

51.56 
9.18 

26.71 

44.15 

1.49 

18.72 

35.85 
52.87 



8 
•.9098 

•.9093 

S.90B8 
3.9089 

1.3075 
1.3067 
a. 3059 
9.305a 
a. 3049 
a. 3039 
a.3oaa 
a. 30x1 
8.1998 
a. 3986 
a.9973 

a.a9S9 
a. 9944 
9.9999 

9.9914 
9.9898 
9.988X 
9.9863 
9.9846 
9.9897 



N, 



23 13 

23 17 
23 20 

23 24 

23 27 

23 30 

23 33 
23 36 

23 39 
23 41 
23 44 
23 46 
23 48 
23 50 
23 52 
23 54 
23 56 
23 57 

23 59 

24 o 



N 



24 
24 

24 
24 



FRIDAY 14. 

N.24 

24 
24 
24 
24 
24 
24 
24 
24 
24 
24 
24 
24 
24 
24 
24 
23 
23 
23 
23 
23 
23 
23 
23 
N.23 



9.77 


9.9806 


26.56 


9.9788 


43.22 


9.9767 


59.76 


9.9746 


16.17 


9.9794 


32.45 


9.9709 


48.59 


9.9679 


4.60 


9.9656 


20.46 


9.963X 


36.17 


9.9607 


51.74 


9.9589 


7.16 


9.9556 


22.41 


9.9599 


37.51 


9.9503 


52.45 


9.9477 


7.23 


9.9449 


21.84 


9.9491 


36.28 


9.9399 


50.54 


9.9363 


4.63 


a. 9333 


18.54 


9.9303 


32.27 


9.9973 


45.82 


9.9943 


59.18 


9.99X9 


12.36 


9.9x80 



I 

2 

3 

4 



5 

5 
6 

6 

6 

6 

6 

6 

6 

5 
4 
4 

3 

2 

I 
o 
58 
57 
55 
54 
52 
50 
48 

46 
43 



26.1 

5.8 

37.7 

1.7 
17.8 

26.1 

26.5 

19. 1 

3.8 

40.6 

9.5 
30.6 

43.9 

49.3 
46.9 

36.7 
18.7 

52.9 

19.3 
38.0 

48.9 

52.1 

47.6 

35.4 



15.5 

47.9 
12.7 

29.9 

39.4 
41.4 

35.8 
22.7 
2.1 
34.0 
58.4 

15.4 
25.0 

27.2 

22.0 

9.5 

49.7 
22.7 

48.4 

6.9 

18.2 

22.4 

19.5 

9.5 

52.4 



Dlff.for 
I Minate. 



3.7a8 

3.597 
3.466 

3.334 
3.903 

3.073 
9.949 
9.81X 
9.679 
9.548 
9.417 
9.987 
8.X56 
9.095 

X.895 
X.765 

X.635 
X.505 
1.376 

x.«47 
X.XX8 
0.989 
o.66x 
0.733 



0.604 

0.477 
0.350 
0.993 
•f 0.096 
— 0.030 
0.156 
0.98X 
0.406 
0.531 
0.655 
0.778 
0.90a 
X.095 
X.X48 
X.969 

X.390 
X.5XX 

X.63S 
x.75« 
X.87X 

X.989 
8.X08 
8.996 
••943 



Hour. 



Right 
Ascension. 



O 

z 

2 

3 

4 

5 
6 

7 
8 

9 
10 

II 

12 

13 

14 

15 
16 

17 

18 

19 
20 

21 

22 

23 



o 
I 

2 

3 

4 

5 
6 

7 
8 

9 

10 

II 
12 

13 

14 

15 
16 

17 

18 

19 
20 

21 

22 

23 
24 



Diff. for 
X Minate. 



DeclinatioiL 



Diff. for 
X Minute. 



SATURDAY 



h 

5 

5 

5 

5 
6 

6 

6 

6 

6 

6 

6 

6 

6 

6 

6 

6 

6 

6 

6 

6 

6 

6 

6 

6 



6 

6 
6 
6 
6 
6 
6 



53 
55 
57 

59 

2 

4 
6 

8 

10 

13 

15 

17 

19 
21 

23 

26 

28 
30 
32 

34 
36 

39 
41 
43 



45 
47 
49 
51 
53 
56 
58 
o 

2 

4 
6 

8 

10 

12 

14 

17 

19 
21 

23 
25 
27 
29 
31 
33 
35 



a 
12.36 

25.34 

38.13 

50.73 
3.12 

15.32 

27.31 
39.10 

50.69 

2.07 

13.24 

24.20 

34.94 

45.47 

55.79 

. 5.89 

15.77 

25.43 
34.88 

44.10 

53.09 
1.87 

10.42 
18.74 



8 
9.9x80 

9.9x48 

9.9116 

9.9083 
9.9049 
9.9016 
9.X989 
9.1948 

9.19x4 
9.1879 

9.XR44 
8.1808 

«.I773 

a. 1738 

8.X709 
8.X665 
9.1698 

8.1593 
8.X556 
8.15x8 
8. X481 

a.X444 
8.X406 
9.X368 



N. 



N 



15* 
• » 

23 43 
23 41 
23 38 
23 36 

23 33 
23 30 

23 27 
23 24 
23 21 
23 18 

23 14 
23 XI 

23 7 
23 3 
22 59 
22 55 
22 51 

22 47 
22 43 
22 38 

22 34 
22 29 
22 25 
.22 20 



3 

4 

7 
I 



52.4 
28.3 

57.3 

19 

34 
42 

44 

38.7 
26.5 

7.6 
42.0 

9.8 

31.0 

45-6 

53.7 
55.2 

50.3 
39.0 
21.3 

57.3 
27.0 

50.4 
7.6 

18.6 



SUNDAY 16. 



26.83 

34.70 

42.34 
49.76 

56.94 

3.90 

10.63 

17.13 

23- 39 

29.43 

35.24 
40.82 

46.17 

51.29 
56.18 

0.84 

5.28 

9.48 
13.46 
17.21 
20.74 
24 04 
27.11 
29.96 
32.58 



9.X330 

9.X993 
9.X955 

9. X9X7 
9. XX78 
9.XX4X 

9.XIO3 
9.XO63 
8.1085 

a. 0988 

a. 0949 
a.09ix 
«.o873 
a. 0834 
a. 0796 
a. 0758 
8.0730 
a. 068a 

a.0644 
a. 0607 
a.0569 
8.0531 
a. 0493 
a. 0456 
8.04x9 



N.22 
22 
22 
22 
21 
21 
21 
21 
21 
21 
21 
21 
21 
21 
20 
20 
20 
20 
20 
20 
20 
20 
20 

19 
N.I9 



15 23.4 
10 22.2 



5 
O 

54 
49 
43 
38 
32 
26 
20 

14 

8 

2 

56 
49 
43 
36 
30 

23 
16 

9 
2 

55 
48 



14.9 

1.6 

42.4 

17.2 

46.1 

9.2 

26.5 

38.0 

43.8 

43.9 

38.4 

27.3 
10.6 

48.5 
20.8 

47.7 
9.3 
25.5 
36.4 
42.0 

42.4 

37.7 
27.8 



>.349 

a.459 
a. 575 
a.69x 
a. 805 
8.9x9 
3.033 
3.147 
3.as9 
3.371 
9.48a 

3.59a 
9.70a 
3.8x1 
3.9ao 
4.098 

4.135 
4.a43 
4.34B 
4.453 
4.558 
4.669 

4.765 
4.868 



4.970 
5.07X 

5.x7a 
5.971 

5.370 
5.469 
5.567 
5.663 
5.760 
5.856 

5-951 
6.045 

6.138 

6.932 

6.393 j 

6.415 ' 
6.507 I 

6.596 

6.683 

6.774 
6.863 

6.950 ; 
7.036 
7.199 
7.907 



64 



APRIL, 1899. 



IX. 











GREENWICH 


MEAN TIME. 










THE MOON'S RIGHT ASCENSION AND DECLINATION. 


Hour. 




Right 


Diff.for 


Declination. 


Diff.for 


Hoar. 




Right 


Diff. for 


Declina'*""- 


Diff. for 




Ascension. 


I Minute. 




X Minate. 




Ascension. 


X Minote. 






X Minate. 






M 


0NDA1 


^ 17. 








WEDNESDAY 19. 










m ■ 


s 


• m 


m 




h 


m 1 


8 


• f 


m 


• 


O 




35 32.58 


8.0419 


N.I9 48 27.8 


7.ao7 





9 


9 46.08 


1.8975 


N.I2 37 


18.7 


xo.s<q 


z 




37 34-99 


3.0383 


19 41 12.9 


7.891 


I 


9 


II 39.87 


1.8955 


12 26 


46.9 


10.557 


2 




39 37-17 


a.034S 


19 33 52.9 


7-375 


2 


9 


13 33.54 


X.8936 


12 16 


II. 9 


xo.608 


3 


7 41 39-13 


S.0308 


19 26 27.9 


7.458 


3 


9 


15 27.10 


1.8917 


12 5 


33.9 


X0.660 


4 




43 40.87 


a.oa73 


19 18 57.9 


7.541 


4 


9 


17 20.54 


X.8898 


" 54 


52.7 


xo.7xa 


5 


7 45 42.40 


t.oa37 


19 II 23.0 


7.6*3 


5 


9 


19 13.87 


X.8879 


II 44 


8.5 


X0.768 


6 




47 43.71 


t.O10O 


19 3 43.2 


7.703 


6 


9 


21 7.09 


X.886X 


" 33 


21.3 


xo.8xx 


7 




49 44.80 


f.0164 


18 55 58.6 


7.783 


7 


9 


23 0.20 


1.8844 


II 22 


31.2 


X0.860 


8 




51 45-68 


s.oxa8 


18 48 9.2 


7.863 


8 


9 


24 53.22 


X.8838 


II II 


38.1 


X0.909 


9 




53 46-34 


S.0093 


18 40 15.0 


7.943 


9 


9 


26 46.13 


x.88xx 


II 


42.1 


X0.958 


lO 




55 46.80 


8.0058 


18 32 16. 1 


8.031 


10 


9 


28 38.95 


1.8795 


10 49 


43.2 


1X.004 


XI 




57 47.04 


S.0033 


18 24 12.5 


8.098 


II 


9 


30 31.67 


X.8780 


10 38 


41.6 


xi.osx 


12 




59 47-07 


X.9988 


18 16 4.3 


8.175 


12 


9 


32 24.31 


X.8766 


10 27 


37.1 


X1.09B 


13 


8 


I 46.90 


X.99S4 


18 7 51.5 


8.333 


13 


9 


34 16.86 


X.8758 


10 16 


29.9 


11.143 


14 


8 


3 46.52 


1.9920 


17 59 34.1 


8.338 


14 


9 


36 9.33 


X.8738 


10 5 


20.0 


XX.X87 


15 


8 


5 45-94 


1.9887 


17 51 12.2 


B.403 


15 


9 


38 1.72 


X.8735 


9 54 


7.5 


XT.8SX 


i6 


8 


7 45-16 


X.9853 


17 42 45.9 


8.476 


16 


9 


39 54.03 


1.8715 


9 42 


52.3 


ix.a75 


I? 


8 


9 44.18 


Z.9890 


17 34 15- 1 


8.550 


17 


9 


41 46.27 


X.870X 


9 31 


34.5 


XX.3X8 


i8 


8 


II 43.00 


1.9788 


17 25 39.9 


8.633 


18 


9 


43 38.44 


X.8689 


9 20 


14. 1 


XX.360 


19 


8 


13 41-63 


X.9755 


17 17 0.4 


B.695 


19 


9 


45 30.54 


X.8678 


9 8 


51.3 


X1.408 


20 


8 


15 40.06 


1.9733 


17 8 16.5 


8.767 


20 


9 


47 22.58 


1.8668 


8 57 


25.9 


11.443 


21 


8 


17 38.29 


X.9690 


16 59 28.4 


8.838 


21 


9 


49 14-56 


X.8658 


8 45 


58.1 


11.483 


22 


8 


19 36.34 


X.9659 


16 50 36.0 


8.908 


22 


9 


51 6.48 


X.8648 


8 34 


27-9 


XX. 583 


23 


8 


21 34.20 
TI 


X.9638 

JESDA 


N.16 41 39.5 
Y 18. 


8.977 


23 


9 


52 58.34 
TH 


X.8639 

[URSDy 


N. 8 22 

\n 20. 


55.4 


XX.S68 


O 


8 


23 31.87 


X.9596 


N.16 32 38.8 


9.046 





9 


54 50.15 


X.8633 


N. 8 II 


20.5 


IX.60X 


I 


8 


25 29.35 


X.9565 


16 23 34.0 


9.1x4 


I 


9 


56 41.92 


X.8684 


7 59 


43-3 


XX.638 


a 


8 


27 26.65 


X.9535 


16 14 25.1 


9.183 


2 


9 


58 33.64 


X.86X7 


7 48 


3-9 


11.675 


3 


8 


29 23.77 


1.9506 


16 5 12.2 


9.848 


3 


10 


25.32 


X.86XX 


7 36 


22.3 


XX. 7x8 


4 


8 


31 20.72 


1.9477 


15 55 55-3 


9.314 


4 


10 


2 16 97 


X.860S 


7 24 


38.5 


X1.74B 


5 


8 


33 17.49 


1.9448 


15 46 34-5 


9.380 


5 


10 


4 8.58 


1.8599 


7 12 


52.5 


11.784 


6 


8 


35 14-09 


X.9418 


15 37 9.7 


9.446 


6 


10 


6 0.16 


1.8595 


7 I 


4.4 


xx.Bx8 


7 


8 


37 10.51 


Z.9390 


15 27 41.0 


9.510 


7 


10 


7 51.72 


X.8591 


6 49 


14-3 


11.853 


8 


8 


39 6.77 


1.9363 


15 18 8.5 


9.573 


8 


10 


9 43.25 


X.8588 


6 37 


22.1 


xi.887 


9 


8 


41 2.87 


X.9336 


15 8 32.2 


9.636 


9 


10 


" 34.77 


1.8585 


6 25 


27.9 


XX.9X9 


lO 


8 


42 58.80 


X.9308 


14 58 52.2 


9.698 


10 


10 


13 26.27 


x.8588 


6 13 


31.8 


11.951 


II 


8 


44 54-56 


X.938X 


14 49 8.5 


9.759 


II 


10 


15 17.75 


x.8s8o 


6 I 


33-8 


11.983 


12 


8 


46 50.17 


X.9356 


14 39 21.1 


9.831 


12 


10 


17 923 


1-8579 


5 49 


33.9 


I8.0X3 


13 


8 


48 45-63 


X.93SO 


14 29 30.0 


9.883 


13 


10 


19 0.70 


X.8578 


5 37 


32.2 


X8.04S 


14 


8 


50 40.93 


X.9104 


14 19 35.3 


9.941 


14 


10 


20 52.17 


X.8578 


5 25 


28.7 


18. 073 


15 


8 


52 36.08 


X.9179 


14 9 37-1 


XO.000 


15 


10 


22 43.64 


1.8579 


5 13 


23-4 


18. 103 


i6 


8 


54 31.08 


1.9134 


13 59 35-3 


XO.059 


16 


10 


24 35.12 


X.8580 


5 I 


16.4 


18.130 


17 


8 


56 25.93 


1.9131 


13 49 30.0 


XO.117 


17 


10 


26 26.60 


X.8583 


4 49 


7.8 


18.X58 


i8 


8 


58 20.65 


X.9X08 


13 39 21.3 


10.X73 


18 


10 


28 18.10 


X.8585 


4 36 


57-5 


X3. XB5 


19 


9 


15.22 


1.9084 


13 29 9.2 


X0.830 


19 


10 


30 9.62 


x.8588 


4 24 


45.6 


X8.8X8 


20 


9 


2 9.66 


X.9062 


13 18 53.7 


X0.887 


20 


10 


32 I.I5 


1.8591 


4 12 


32.1 


X8.a37 


21 


9 


4 3.96 


1.9039 


13 8 34.8 


10.34a 


21 


10 


33 52.71 


1.8595 


4 


17.2 


i3.«6x 


22 


9 


5 58.13 


1. 9018 


12 58 12.7 


XO.S96 


22 


10 


35 44-29 


1.8599 


3 48 


0.8 


18.886 


23 


9 


7 52.17 


1.8996 


12 47 47.3 


XO.450 


23 


10 


37 35-90 


1.8605 


3 35 42.9 


18.3x0 


,.- 


9 


9 46.08 


X.897S 


N.12 37 18.7 


10.503 


24 


10 


39 27.55 


1.86x8 


N. 3 23 


23.6 


n.933 



X. 



APRIL, 1899. 



65 



GREENWICH MEAN TIME. 



THE MOON'S RIGHT ASCENSION AND DECLINATION. 



Hoar. 



Right 
Ascension. 



Diff. for 
I Minate. 



Declination. 



Diff. for 
z Minute 



O 

I 
2 

3 

4 

5 
6 

7 
8 

9 

lO 

II 

12 

13 

14 

15 
i6 

I? 
i8 

19 
2o 

21 
22 
23 



o 

I 

2 

3 

4 

5 
6 

7 

8 

9 

lO 

II 

12 

13 

14 

15 
i6 

17 
i8 

19 

20 
21 
22 

23 
24 



FRIDAY 21. 



h 

o 
o 
o 
o 
o 
o 
o 
o 
o 
o 
o 
o 



m 
39 

41 

43 

45 
46 

48 

50 
52 
54 
56 

58 

59 
I 

3 

5 

7 

9 
II 

13 

15 
16 

18 

20 

22 



24 
26 
28 
30 
32 
33 
35 
37 
39 
41 
43 
45 
47 
49 
51 
53 
55 
57 
58 
2 o 
2 2 

2 4 
2 6 
2 8 
2 10 



8 

27.55 
19.24 

10.97 

2.74 

54.56 
46.43 

38.36 

30.35 
22.40 

14.52 
6.71 

58.97 

51.31 

43.74 
36.25 

28.85 

21.54 

14.33 
7.22 

0.22 
53.32 
46.54 
39.87 
33.32 



S 

i.86ia 
x.86z8 
X.8625 
X.8633 
1.8641 
1.8650 
Z.8660 
Z.8670 
1.868Z 

X.8693 
1.8704 

X.8717 
1.8731 
1.8745 

1.8759 
X.8774 
Z.8790 
X.8807 
1.8824 
1.8842 
1.8660 
1.8879 
1.8898 
1.89x9 



N. 



N. 
S. 



S. 



3 

3 
2 

2 

2 

2 
2 
I 
I 
I 
I 
I 
o 
o 
o 
o 
o 
o 
o 
o 
o 
o 
I 
I 



23 

II 

58 
46 

33 
21 



23.6 

3.0 
41. 1 
18.0 

53.6 
28.0 



1.2 

33.4 
4.5 

34.6 
3.8 

32.0 

59.3 
25.8 

51.5 
16.5 

40.8 

55.6 
32.6 
10. 1 
46 48.2 
59 26.7 
12 5.7 
24 45.0 



9 
56 

44 

31 

19 
6 

53 

41 
28 

16 

3 
8 

21 
34 



SATURDAY 22. 



26.90 


1.8940 


20.60 


1.8963 


14.44 


1.8984 


8.41 


1.9006 


2.51 


1.9029 


56.76 


X.9054 


51.16 


Z.9078 


45.70 


Z.9X03 


40.40 


I. 9130 


35.26 


X.9I57 


30.28 


X.9I83 


25.46 


Z.92II 


20.81 


Z.9240 


16.34 


1.9269 


12.04 


1.9299 


7.92 


X.9328 


3.98 


1-9359 


0.23 


1.939X 


56.67 


1.94*3 


53.30 


1.9455 


50.13 


X.9488 


47.16 


1.9523 


44.40 


1.9558 


41.85 


x.959a 


39.50 


X.9628 



S. I 

I 

2 
2 
2 
2 
2 

3 
3 
3 

3 

3 

4 

4 

4 

4 

5 

5 

5 

5 

5 
6 

6 

6 

S. 6 



37 

50 

2 

15 

28 

40 

53 
6 

18 

31 
44 
56 

9 
22 

34 

47 
o 

12 

25 
37 
50 

3 

15 

28 

40 



24.6 

4.5 

44-7 
25.0 

5.5 
46.0 

26.5 

7.0 

47.5 
27.8 

7.9 
47.7 
27.3 

6.5 

45.4 
23.8 

1.6 

38.9 
15.6 
516 
26.9 

1.3 

34.9 

7.6 

39.3 



m 

M.333 
ia.354 
ia.375 
12. 396 

12.4x7 
Xa.437 
12.455 
ia.473 
Xa.490 
12.506 
12.522 
ia.538 

xa.ssa 

ia.565 

ia.578 
ia.589 
ia.6ox 
ta.6x2 

Z2.62I 

ia.630 
xa.638 
13.646 
za.653 
ia.658 



la. 663 
ia.668 
12.671 
ia.673 

ia.675 
xa.675 
18.675 

ia.675 
ia.673 
12.670 
12.666 
ia.662 
ia.657 
ia« 65 x 
12.644 

12. 635 
12.626 
12.6x7 
12.606 

ia.594 
Xa.581 

ia.567 

la. 553 
X2.537 
12.520 



Hour. 



Right 
AscensioxL 



Diff. for 
1 Minute. 



DeelinatioiL 



Diff. for 
X Minate. 



O 
I 
2 

3 

4 

5 
6 

7 

8 

9 

10 

II 
12 

13 

14 

15 
16 

17 

18 

19 
20 

21 

22 

23 



o 

I 
2 

3 

4 

5 
6 

7 
8 

9 
10 

II 

12 

13 

14 

15 
16 

17 
18 

19 
20 

21 

22 
23 

24 



h 
12 
12 
12 
12 
12 
12 
12 
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 
13 
13 
13 
13 
13 
13 
13 
13 
13 
13 
13 
13 
13 
13 
13 



10 
12 

14 
16 

18 

20 

22 

24 
26 

28 

30 

32 

34 
36 

38 

40 
42 

44 
46 
48 

50 
52 

54 
56 



58 
I 

3 

5 

7 

9 
II 

13 

15 

17 

19 
21 

24 
26 

28 

30 
32 

34 
36 

39 
41 
43 
45 
47 
50 



SUNDAY 23. 

• 

S. 6 

6 

7 
7 
7 
7 

7 

8 

8 
8 
8 
8 

9 
9 

9 

9 

9 
10 

10 

10 

10 

10 

II 

S.I I 



B 


B 


39.50 


1.9628 


37.38 


1.9664 


35.47 


X.97OI 


33.79 


1*9739 


32.34 


X.9777 


31. II 


1.98x5 


30.12 


X.9855 


29.37 


1.9895 


28.86 


1.9935 


28.59 


1.9976 


28.57 


2.00x8 


28.80 


a.oo59 


29.28 


a. 0x02 


30.02 


a. 0146 


3103 


a.0190 


32.30 


a. 0233 


33.83 


2.0278 


35.64 


a.0324 


37.72 


a. 0370 


40.08 


8.0417 


42.72 


a. 0463 


45.64 


8.05x1 


48.85 


a. 0558 


52.34 


2.0607 



40 

53 

5 
18 

30 

43 

55 

7 
20 

32 

44 

57 

9 
21 

33 
45 
58 
10 
22 

34 
46 
58 
10 
21 



MONDAY 24. 



56.13 


8.0656 


S.I 


0.21 


2.0706 




4.60 


8.0756 




9.28 


2.0806 




14.27 


2.0857 




19.56 


a. 0908 




25.16 


a. 0959 




31.07 


8. 10x2 




37.30 


a.xo65 




43.85 


a.xxi8 




50.71 


a. 1170 




57.89 


a. X823 


* 


5.39 


8.1878 




13.22 


a. 1333 




21.38 


8. 1388 




29.87 


a. 1443 




38.70 


a. 1499 




47.86 


8.X554 




57.35 


a.x6xo 




7.18 


2.X667 




17.36 


8.1724 




27.87 


8.178X 




38.73 


8. 1838 




49.93 


3.X896 




1.48 


a. 1954 


S.I 



I 33 
I 45 

1 57 

2 8 

2 20 
2 32 
2 43 

2 55 

3 6 



3 

3 

3 

3 

4 

4 

4 

4 

4 

4 

5 

5 

5 

5 

5 
6 



18 

29 
40 

51 
3 
14 
25 
36 

47 

57 
8 

19 
29 

40 

51 
I 



39.3 

lO.O 

39.6 
8.0 

35.2 
I.I 

25.7 
49.0 
10.7 

30.9 
49.5 

6.5 

21.8 

35.3 
46.9 

56.5 
4.2 

9.9 
13.4 

14.7 

13.7 
10.4 

4.7 
56.5 



45.8 

32.5 
16.4 

57.6 

35.9 
II. 4 

43.8 
13.2 

39-4 
2.4 

22.1 

38.5 

51.4 
0.8 

6.6 

8.7 
7.0 

1.5 
52.1 
38.6 
21. 1 

59.5 
33.6 

3.4 
28.7 



IV 
18.520 
18.503 
ia.483 
12.463 

18.443 
12.421 

la. 399 
12.375 
18.349 
12.323 

12.297 
12.269 

12.240 
12.809 
12.177 

12.144 
i2.iia 

12.077 

12.040 

12.003 

11.964 
11.925 
11.884 

1X.843 



X1.800 

11.755 
11.709 

IX.663 
XX. 6x5 
11.566 

11.5x5 

11.4^ 

11.410 

1X.356 

11.301 
11.844 
XX. 186 
1X.X27 
XX.066 
11.003 
10.940 
X0.876 
X0.809 

10.74a 

10.674 
X0.604 

IP. 533 
XO.459 

XO.383 



m0 



66 



APRIL, 1899. 



XL 



GREENWICH MEAN TIME. 



Hour. 



O 

I 
2 

3 

4 

5 
6 

7 

8 

9 

10 

II 

12 

13 

14 

15 
16 

17 
18 

19 

20 

21 
22 
23 



THE MOON'S RIGHT ASCENSION AND DECLINATION. 



Right 
Ascension. 



Diff. for 
X Minute. 



Declination. 



Diflf. for 
X Minute. 



TUESDAY 25. 



h 
13 
13 
13 
13 
13 
14 
14 
14 
14 
14 
14 
14 
14 
14 
14 
14 
14 
14 
14 
14 
14 
14 
14 
14 



m 
50 
52 

54 

56 

58 

I 

3 

5 

7 
10 

12 

14 
16 

19 
21 

23 

25 
28 

30 
32 

35 

37 

39 
42 



8 
1.48 

13.38 
25.62 
38.22 
51.16 

4.46 
18. I I 
32.11 
46.47 

I.I8 
16.25 
31.67 

47.45 

3.58 

20.07 

36.91 

54." 
11.67 

29.58 

47.84 

6.45 

25.42 

44.74 
4.41 



8 

2.X954 
s.soia 
S.8070 
8.2x28 
8.2187 
8.2246 
2.2304 
2.2363 
2.2423 
2.2482 

2.2541 

2.2600 
8.2659 
2.2718 
2.2778 
2.2837 
2.2897 
2.2956 
8.30x4 
a. 3073 
2.3132 
2. 3 191 

2.3249 

2.3308 



S. 



S. 



I 28.7 

II 49.6 

22 6.0 

32 17.7 

42 24.6 

52 26.7 

2 24.0 

12 16.2 



22 

31 

41 

50 
O 

9 
18 

28 

37 
46 

54 

3 
12 

20 

29 
37 






14 44 


I 


14 46 


2 


14 49 


3 


14 51 


4 


14 53 


5 


14 56 


6 


14 58 


7 


15 


8 


15 3 


9 


15 5 


10 


15 8 


II 


15 10 


12 


15 12 


13 


15 15 


14 


15 17 


15 


15 20 


16 


15 22 


17 


15 24 


18 


15 27 


19 


15 29 


20 


15 32 


21 


15 34 


22 


15 37 


23 


15 39 


H 


15 42 



WEDNESDAY 26. 

S.19 46 

19 54 

20 2 

20 10 
20 17 
20 25 
20 33 
20 40 
20 48 

55 
2 

9 
16 

22 

29 

36 
42 

48 

54 
o 

6 

12 

17 



24.43 


2.3366 


44.80 


2.3433 


5.51 


2.3481 


26.57 


a. 3538 


47.97 


2.3595 


9.71 


a. 3653 


31.80 


a. 3709 


54.22 


2.3764 


16.97 


2.3820 


40.06 


a. 3875 


3.47 


a. 3929 


27.21 


2.3984 


51.28 


2.4038 


15.67 


2.409a 


40.38 


3.4x44 


540 


a. 4197 


30.74 


2.4248 


56.38 


2.4299 


22.33 


a. 4350 


48.58 


a. 4399 


15.12 


2.4448 


41.96 


2.4497 


9.09 


a. 4545 


36.50 


a. 4592 


4.19 


8.4638 



20 

21 
21 
21 
21 
21 
21 
21 
21 
21 
22 
22 
22 
22 
22 23 
S.22 28 



3-4 

45.5 
22.3 

53.8 
19.9 
40.6 

55.7 

5.1 

8.8 

6.7 

58.7 

44-7 

24.7 
58.6 

26.2 
47.5 



2.4 
10.9 
12.8 

8.0 
56.6 

38.4 

13.3 

41.3 
2.2 

16.0 

22.7 

22.1 

14.2 

58.9 
36.0 

5.6 
27.6 

41.8 

48.3 
46.9 

37.6 
20.3 

55.0 
21.5 

39.9 



10.385 

X0.31X 

X0.234 

10.155 
X0.075 

9*995 
9.9x3 
9.828 

9.744 
9.658 

9.569 
9.480 

9.390 
9.298 
9.204 
9.109 
9.0x3 
8.916 
8.817 

8.717 
8.616 

8.513 
8.408 
8.302 



8.195 
8.087 

7.976 
7.865 
7.753 
7.639 
7-524 

7.407 

7.289 

7. 171 
7.051 
6.929 
6.807 
6.682 
6.556 
6.430 
6.302 
6.X73 
6.043 
5.9" 
5.778 

5.645 
5.5x0 

5.374 
5.238 



Hour. 



O 

I 
2 

3 

4 

5 
6 

7 
8 

9 
10 

II 

12 

13 

14 

15 
16 

17 
i8 

19 
20 

21 

22 

23 



o 

I 

2 

3 

4 

5 
6 

7 

8 

9 
10 

II 

12 

13 

14 

15 
16 

17 
18 

19 
20 

21 

22 

23 

24 



RiRhk 
Ascensioa 



Diff. for 
I Minute. 






Declinatioa 



Diff. for 
X Minute. 



THURSDAY 27. 



h 
15 
15 
15 
15 
15 
15 
15 

15 

16 

16 
16 
16 
16 
16 
16 
16 
16 
16 
16 
16 
16 
16 
16 
16 



16 
16 
16 
16 
16 
16 
i6 

17 
17 
17 
17 
17 
17 
17 
17 
17 
17 
17 
17 
17 
17 
17 
17 
17 
17 



m 
42 
44 
47 
49 
51 
54 
56 

59 
I 

4 
6 

9 
II 

14 
16 

19 
22 

24 
27 

29 
32 

34 
37 
39 



42 

44 
47 
49 
52 

55 

57 
o 

2 

5 

7 
10 

13 

15 
18 

20 

23 

25 
28 

30 

33 

36 
38 
41 
43 



e 
S.22 
22 
22 
22 
22 
22 
22 

23 

23 

23 

23 

23 

23 

23 

23 

23 

23 

23 

23 

23 

23 

23 

23 
S.23 

FRIDAY 28. 



B 


8 


4.19 


2.4638 


32.16 


2.4684 


0.40 


2.4728 


28.90 


a. 477a 


57.66 


a. 4815 


26.68 


a. 4858 


55.95 


2.4899 


25-47 


2.4939 


55-22 


2.4978 


25.21 


2.5017 


55-43 


2.5055 


25.87 


2.509X 


56.52 


8.5x27 


27.39 


2.5162 


58.46 


a. 5x95 


29.73 


2.5228 


1. 19 


a. 5258 


32.83 


2.5288 


4.65 


2.5318 


36.65 


a. 5347 


8.82 


a. 5374 


41.14 


a. 5399 


13.61 


a. 5424 


46.23 


2.5448 



28 

33 

38 

43 
48 

53 

57 

I 

6 
10 



39-9 
50.0 

51.8 

45.2 
30.1 

6.5 

34.4 

53.7 

4.3 
6.1 



13 59.2 

17 43.4 
21 18.8 



24 

28 

31 
34 
37 
39 
42 

44 
46 
48 



45.2 

2.6 

II. o 

10.4 

0.6 

41.6 

f3-5 
36.1 

49.4 
53.5 



50 48.2 



18.98 

51.87 

24.88 

58.00 

31.24 

4.58 

38.01 

11.53 

45-13 
18.80 

52.54 
26.33 

0.17 
34.06 

7.98 
41.93 
15.90 
49.89 
23.88 

57.87 

31.85 
5.81 

39-75 
13.66 

47.53 



a. 5470 
8.5492 
8.55x1 
a. 5530 
a. 5548 
a. 5564 
a. 5579 
a. 5593 
3.5606 
8.5618 
8.5628 
2.5636 
2.5644 
2.5651 
2.5656 
2.5660 
8.5663 
a. 5665 
2.5665 
8.5664 
2.5662 
2.5658 

a. 5654 
a. 5648 

8.5642 



S.23 

23 

23 

23 

23 

23 

23 

24 

24 

24 

24 

24 
24 

24 

24 

23 

23 

23 

23 

23 

23 

23 

23 

23 
S.23 



52 

54 
55 
56 

58 



33.5 

9.4 

35.9 

53.0 

0.6 

58 58.6 

59 47.2 
26.2 

55-6 

15.4 

25.7 
26.3 

17.3 

58.7 

30.5 
52.6 

5.1 
S.o 

1.2 

44.8 
18.7 
430 

57-8 
2.9 

58.4 



o 
o 
I 
I 
I 
I 
o 
o 

59 
59 
58 

57 
55 
54 
52 
50 

49 
46 



5-238 

5.099 

4.960 

4.819 

4.678 

4.536 

4.393 

4.249 

4.103 

3.958 

3.8x1 

3.663 

3.515 

3.365 

3.8x5 

3.065 

8.9x3 

8.760 

a.6o8 I 

a. 454 ; 

2.299 ' 

a.X45 I 

1.990 I 

1.833 



1.677 
1.320 

X.363 
i.ao6 
X.047 
0.888 
0.730 
0.570 
0.4x0 

0.851 

- 0.091 

+ 0.070 

0.830 
0.390 i 
0.551 

0.7x8 
0.878 
1.033 

X.X93 

«.354 
1.5x5 

1.674 
1.834 

1*995 
8.135 



XII. 



APRIL, 1899. 



67 



GREENWICH MEAN TIME. 



THE MOON'S RIGHT ASCENSION AND DECLINATION. 



Hour. 



O 

I 
2 

3 

4 

5 
6 

7 

8 

9 

lO 

II 

12 

13 

14 

15 
i6 

17 
i8 

19 

20 
21 
22 

23 



Right 
Ascension. 



Diff. for 
I Minute. 



SATURDAY 29. 



h 

7 
7 
7 
7 
7 
7 
7 
8 

8 
8 
8 
8 



m 

43 
46 

48 

51 

54 

56 

59 
I 

4 
6 

9 
II 



8 14 
8 17 
8 19 
8 22 
8 24 
8 27 
8 29 
8 32 

8 34 
8 37 
8 39 
8 42 



■ 

47.53 
21.36 

55-13 

28.84 

2.49 
36.06 

9.55 
42.96 

16.28 

49.49 

22.60 

55-59 
28.46 

1. 21 

33.82 

6.30 

38.63 

10.82 

42.85 
14.72 
46.42 

17.95 

49- 30 
20.47 



8 
8.5643 

a. 5633 

2«s6a3 
a. 5613 
a.s6o> 
a. 5588 

a. 5575 
3.5561 
3.5544 
a. 5537 
a. 5508 
a. 5488 
a. 5468 
a. 5447 
3.5434 
3,540X 

3.5377 
3.5353 

3.5335 
2.5298 

3.5369 

a. 5240 
2.52x0 
2.5180 



S.23 

23 
23 
23 
23 
23 
23 
23 
23 
23 
23 
23 
23 
23 
23 

22 
22 
22 
22 
22 
22 
22 
22 
22 



46 58.4 

44 44.3 

20.7 
47.6 

4.9 
12.7 

II. O 

59-9 

39.4 

9.4 
30.1 

41.5 

43.6 
36.4 

19.9 

54.3 

19.5 

35-6 
42.6 

40.6 

29.6 

9.7 
40.9 

3.3 



42 

39 

37 

34 

31 

27 

24 
21 

17 

13 

9 

5 

I 

56 
52 

47 
42 

37 
32 

27 
21 

16 



SUNDAY 30. 






18 44 


I 


18 47 


2 


18 49 


3 


18 52 


4 


18 54 


5 


18 57 


6 


18 59 


7 


19 2 


8 


19 4 


9 


19 7 


ID 


19 9 


II 


19 12 


12 


19 14 


13 


19 17 


14 


19 19 


15 


19 22 


16 


19 24 


17 


19 27 


18 


19 29 


19 


19 31 


20 


19 34 


21 


19 36 


22 


19 39 


23 


19 41 


24 


19 44 



51.46 


3.5148 


22.25 


2. 51 16 


52.85 


3.5083 


23.25 


2.5050 


53.45 


3.5015 


23.43 


3.4979 


53.20 


3.4944 


22.76 


2.4908 


52.09 


2.4870 


21.20 


3.4833 


50.08 


3.4793 


18.72 


3.4754 


47.13 


3.4715 


15.30 


3.4675 


43.23 


3.4635 


10.92 


3.4594 


38.36 


3.4553 


5.55 


a. 45" 


32.49 


3.4468 


59.17 


a. 4436 


25.60 


3.4383 


51.77 


3.4340 


17.68 


3.4397 


43.33 


3.4353 


8.71 


a. 4208 



S.22 

22 
21 
21 
21 
2: 
21 
21 
21 
21 
21 
20 
20 
20 
20 
20 
20 
20 
20 

19 

19 

19 

19 

19 
S.I9 



Diff. for 
I Minute. 



10 16.9 


5.847 


4 21.7 


5.993 


58 17.9 


6.136 


52 5.4 


6.279 


45 44.4 


6.421 


39 14.9 


6.563 


32 36.9 


6.703 


25 50.6 


6.842 


18 55.9 


6.98X 


II 52.9 


7.1x8 


4 41.7 


7.354 


57 22.4 


7.S88 


49 55.1 


7.533 


42 19.7 


7.656 


34 36.4 


7.788 


26 45.2 


7.9x8 


18 46.2 


8.048 


10 39.5 


8*176 


2 25.1 


8. SOS 


54 3.2 


B.438 


45 33.7 


6.554 


36 56.7 


8.678 


28 12.4 


8. 800 


19 20 7 


8.931 


ID 21.9 


9.040 



a. 155 

a. 314 
3.473 
a. 633 

3.791 
1.949 
3.X07 

3.363 
3.431 
3.578 

3*733 
3.888 

4.043 
4.X98 
4.3SX 
4.503 
4.656 
4.808 
4.958 
5.108 

5.S58 
5.406 

S.553 

5.700 



Hour. 



Right 
AscensioiL 



Diff. for 
X Minute. 



Declination. 



Diff. for 
I Minute. 



MONDAY, MAY x. 

a I s I • » • 

O ) 29 44 8.71 I a.4ao8 |S.I9 ID 21. 9 ] 



ll m a IS 



9-040 



PHASES OF THE MOON, 



o 



d h m 

Last Quarter . • • April a 23 55.7 

New Moon 9 18 20.8 

First Quarter . . , , . 17 10 43.0 

Full Moon 25 7 ai.8 



d h 
( Perigee •••••• April 6 i.z 

C Apogee 18 3.2 



68 



APRIL, 1899. 



XIII. 





• 






GREENWICH MEAN TIME. 








1 


LUNAR DISTANCES. 


• 










P. L. 




P. L, 




P. L 






P. L. 


"sl 


Name and Direction 1 


Noon. 


of 


Illh- 


of 


Vlh. 


of 


IXh. 




of 


Q 


of Object 








Diff. 




DiflF. 




DiflL 






Diff. 


. 







* m 




f m 




* m 




• » 


m 




I 


Spica 


W. 


53 


20 31 


243a 


55 3 35 


2415 


56 46 49 


8408 


58 30 


13 


3401 




Jupiter 


W. 


37 


41 45 


2435 


39 24 30 


2424 


41 7 30 


2415 


42 50 


44 


8405 




Venus 


E. 


74 


13 42 


28x3 


72 39 31 


2807 


71 5 12 


2800 


69 30 


44 


8793 




Fomalhaut 


E. 


76 


59 44 


2887 


75 27 9 


2887 


73 54 34 


2890 


72 22 


2 


2892 




a Pegasi 


E. 


96 


24 25 


2556 


94 44 29 


2548 


93 4 22 


2540 


91 24 


5 


2534 




Sun 


E. 


"5 


43 30 


a759 


114 8 8 


2750 


112 32 35 


2743 


HO 56 


52 


2735 


a 


Spica 


W. 


67 


9 42 


2366 


68 54 5 


2360 


70 38 37 


2354 


72 23 


18 


2347 




Jupiter 


W. 


51 


30 14 


2361 


53 14 45 


2353 


54 59 27 


2346 


56 44 


20 


2338 ' 




Venus 


E. 


6i 


36 12 


2761 


60 53 


2754 


58 25 25 


2749 


56 49 


50 


2743 




Fomalhaut 


E. 


64 


40 43 


2925 


63 8 56 


2937 


61 37 24 


2950 


60 6 


8 


2965 




a Pegasi 


E. 


83 


25 


2503 


81 19 16 


«498 


79 38 


2493 


77 56 


37 


2489 




Sun 


E. 


102 


55 45 


2698 


lOI 19 2 


2690 


99 42 9 


2684 


98 5 


7 


2677 


3 


Spica 


W. 


81 


9 4 


2316 


82 54 40 


23x0 


84 40 25 


2304 


86 26 


18 


2299 




Jupiter 


W. 


65 


31 25 


2303 


67 17 20 


2296 


69 3 25 


2291 


70 49 


38 


2284 




Antares 


W. 


35 


35 12 


2322 


37 20 39 


2316 


39 6 15 


2309 


40 52 


I 


2303 




Venus 


E. 


48 


50 4 


2717 


47 13 47 


2712 


45 37 23 


2708 


44 


54 


2704 




a Pegasi 


E. 


69 


28 22 


2473 


67 46 31 


2472 


66 4 38 


2470 


64 22 


43 


2470 




Sun 


E. 


89 


57 39 


2643 


88 19 43 


2637 


86 41 38 


2631 


85 3 


25 


2625 

1 


4 


Jupiter 


W. 


79 


42 57 


2256 


81 30 I 


22SX 


83 17 12 


2246 


85 4 


31 


j 

2242 




Antares 


W. 


49 


43 3 


2274 


51 29 40 


2270 


53 16 24 


2264 


55 3 


16 


2260 




Saturn 


W. 


33 


58 51 


2277 


35 45 24 


227a 


37 32 5 


2266 


39 18 


54 


2261 




a Pegasi 


E. 


55 


53 18 


2480 


54 II 36 


2484 


52 30 


2490 


50 48 


33 


2498 




Sun 


E.. 


76 


50 21 


2597 


75 II 22 


2592 


73 32 16 


2588 


71 53 


4 


2583 


5 


Antares 


W. 


63 


59 12 


2240 


65 46 40 


2237 


67 34 13 


2234 


69 21 


50 


2231 




Saturn 


W, 


48 


14 46 


2239 


50 2 15 


2236 


51 49 49 


2233 


53 37 


28 


2230 




Sun 


E. 


63 


35 39 


8564 


61 55 55 


2562 


60 16 8 


2559 


58 36 


17 


2558 


6 


Antares 


W. 


78 


20 49 


2223 


80 8 43 


2221 


81 56 39 


222X 


83 44 


35 


2220 j 




Saturn 


W, 


62 


36 37 


2220 


64 24 34 


2219 


66 12 33 


22X8 


68 


33 


82X8 




Sun 


E. 


50 


16 32 


a553 


48 36 33 


2553 


46 56 34 


2555 


45 16 


37 


2556 


7 


Antares 


W, 


92 


44 7 


2227 


94 31 55 


2229 


96 19 40 


2231 


98 7 


21 


t235 




Saturn 


W. 


77 


24 


2223 


78 48 17 


2225 


80 36 7 


2228 


82 23 


53 


2231 




Sun 


E. 


36 


57 44 


•575 


35 18 15 


2581 


33 38 54 


2588 


31 59 


43 


2597 


II 


Sun 


W. 


i6 


18 39 


3005 


17 48 45 


2993 


19 19 6 


2987 


20 49 


35 


2985 




Pollux 


E. 


74 


18 20 


2546 


72 38 II 


2561 


70 58 22 


2576 


69 18 


54 


259a , 




Mars 


E. 


81 


II 48 


2630 


79 33 34 


2646 


77 55 41 


fl66o 


76 18 


8 


2675 


12 


Sun 


W. 


28 


21 29 


3014 


29 51 25 


3023 


31 21 9 


3Q34 


32 50 


39 


3047 




Pollux 


E. 


61 


7 


9673 


59 29 44 


2689 


57 52 50 


2707 


56 16 


20 


2725 




Mars 


E. 


68 


15 30 


2753 


66 40 I 


2769 


65 4 53 


2786 


63 30 


7 


2801 




Regulus 


E. 


97 


51 34 


2626 


96 13 14 


2640 


94 35 14 


2655 


92 57 


34 


2670 . 


13 


Sun 


W. 


40 


14 19 


3x12 


41 42 14 


3X25 


43 9 53 


3x39 


44 37 


15 


3153 




Pollux 


E. 


48 


19 43 


2816 


46 45 36 


2835 


45 II 54 


2855 


43 38 38 


2875 




Mars 


E. 


55 


41 27 


2882 


54 8 45 


2898 


52 36 24 


2914 


51 4 


23 


2931 




Regulus 


E. 


84 


54 13 


2744 


83 18 32 


2759 


81 43 10 


2773 


80 8 


7 


2788 



XIV. 



APRIL, 1899. 



69 







GREENWICH MEAN TIME. 










LUNAR DISTANCES. 


• 








P.L. 




P. L. 






P.I* 




P. L. 


°l 


Name and Direction 


Midnight 


of 


XVb. 


of 


XVIIIh. 


of 


XXIh. 


of 


Q 


OX Object 




• 


Diff. 




Diff. 






Diff. 




Diff, 






• m 




• t m 




• 1 


m 




* m 




I 


Spica 


W. 


6o 13 47 


2394 


61 57 31 


8387 


63 41 


25 


• 2380 


65 25 29 


8373 




Jupiter 


W. 


44 34 12 


3396 


46 17 53 


2386 


48 r 


48 


8378 


49 45 55 


8369 




Venus 


E. 


67 56 7 


9786 


66 21 21 


8779 


64 46 


26 


8773 


63 II 23 


3767 




Fomalhaut 


E. 


70 49 33 


0896 


69 17 9 


3901 


67 44 


51 


3908 


66 12 42 


3916 




a Pegasi 


E. 


89 43 39 


2527 


88 3 3 


3521 


86 22 


19 


3515 


84 41 26 


3509 




Sun 


E. 


109 20 59 


2728 


107 44 56 


3719 


106 8 


42 


3712 


104 32 18 


3705 


2 


Spica 


W. 


74 8 9 


«34X 


75 53 9 


8335 


77 38 


18 


2328 


79 23 37 


8333 




Jupiter 


W. 


58 29 24 


8331 


60 14 39 


2334 


62 


4 


2316 


63 45 40 


3310 




Venus 


E. 


55 14 7 


a738 


53 38 17 


2732 


52 2 


19 


2727 


5*5 26 15 


2722 




Fomalhaut 


E. 


58 35 II 


3982 


57 4 36 


3003 


55 34 


27 


3026 


54 4 46 


3052 




a Pegasi 


E. 


76 15 8 


3485 


74 33 33 


2482 


72 51 


54 


2478 


71 10 10 


8475 




Sun 


E. 


96 27 56 


1^69 


94 50 35 


2663 


93 13 


5 


S656 


91 35 26 


3650 


3 


Spica 


W. 


88 12 19 


8294 


89 58 28 


2288 


91 44 


45 


2383 


93 31 10 


8^78 




Jupiter 


W. 


72 36 r 


2278 


74 22 33 


2272 


76 9 


13 


2267 


77 56 I 


2262 




Antares 


W. 


42 37 56 


2297 


44 24 


229X 


46 10 


13 


3285 


47 56 34 


2280 




Venus 


E. 


42 24 20 


270Z 


40 47 41 


3698 


39 10 


59 


8695 


37 34 13 


2694 




a Pegasi 


E. 


62 40 47 


8470 


60 58 51 


3471 


59 16 


57 


8473 


57 35 6 


8475 




Sun 


E. 


83 25 4 


3619 


81 46 35 


26x3 


80 7 


58 


3607 


78 29 13 


3603 


4 


Jupiter 


W. 


86 51 56 


2237 


88 39 28 


8233 


90 27 


6 


2230 


92 14 49 


3226 




Antares 


W. 


56 50 15 


2256 


58 37 20 


2251 


60 24 


32 


2247 


62 II 49 


8243 




Saturn 


W. 


41 5 51 


2256 


42 52 55 


2251 


44 40 


6 


2247 


46 27 23 


2243 




a Pegasi 


E. 


49 7 17 


2507 


47 26 14 


2518 


45 45 


26 


2532 


44 4 57 


2548 




Sun 


E, 


70 13 46 


8579 


68 34 22 


8575 


66 54 


53 


257X 


65 15 18 


3568 


5 


Antares 


W. 


71 9 32 


2229 


72 57 17 


3227 


74 45 


5 


2225 


76 32 56 


8323 




Saturn 


W. 


55 25 II 


2227 


57 12 58 


2225 


59 


48 


2223 


60 48 41 


3221 




Sun 


E. 


56 56 24 


a556 


55 16 28 


8554 


53 56 


30 


8553 


51 56 31 


8553 


6 


Antares 


W, 


85 32 32 


3221 


87 20 28 


3222 


89 8 


23 


2223 


90 56 16 


323S 




Saturn 


W. 


69 48 33 


2219 


71 36 32 


2219 


73 24 


31 


3320 


75 12 28 


3321 




Sun 


E. 


43 36 42 


«559 


41 56 50 


2562 


40 17 


3 


2565 


38 37 20 


2570 


7 


Antares 


W. 


99 54 57 


2238 


loi 42 28 


2242 


103 29 


53 


8847 


105 17 II 


3251 




Saturn 


W. 


84 II 34 


2235 


85 59 10 


2238 


87 46 


41 


8243 


89 34 5 


8247 




Sun 


E. 


30 20 44 


2607 


28 41 58 


2618 


27 3 


28 


2631 


25 25 15 


3646 


II 


Sun 


W. 


22 20 7 


2966 


23 50 37 


3989 


25 21 


3 


3996 


26 51 21 


3004 




Pollux 


E. 


67 39 48 


2607 


66 I 3 


3624 


64 22 


40 


2640 


62 44 39 


2656 1 




Mars 


E. 


74 40 55 


2691 


73 4 3 


3706 


71 27 31 


2722 


69 51 20 


2738 , 


12 


Sun 


W. 


34 19 54 


3059 


35 48 54 


3071 


37 17 


39 


3085 


38 46 7 


3098 




Pollux 


E. 


54 40 13 


2743 


53 4 30 


2760 


51 29 


10 


«779 


49 54 14 


2798 




Mars 


E. 


61 55 41 


28x8 


60 21 36 


3834 


58 47 


52 


2850 


57 14 29 


28G6 




Regulus 


E. 


91 20 14 


3685 


89 43 14 


3700 


88 6 


34 


87x5 


86 30 14 


3729 


13 


Sun 


W. 


46 4 21 


3x67 


47 31 10 


3x80 


48 57 


43 


3x94 


50 23 59 


3308 




Pollux 


E. 


42 5 47 


2896 


40 33 23 


3916 


39 I 


25 


3939 


37 29 55 


9962 




Mabs 


E. 


49 32 43 


2946 


48 I 23 


2962 


46 30 


23 


2978 


44 59 43 


2994 




RegAlua 


E. 


78 33 23 


3808 


76 58 58 


2816 


75 24 


51 


3830 


73 51 2 


2845 



70 



APRIL, 1899. 



XV. 









GRKKNWICH MEAN TIME. 










LUNAR DISTANCES. 










P.L. 




P.L. 




P.L 






P.L 


Name and Direction 


Noon. 


of 


Illh- 


of 


Vlh. 


of 


IXh. 




of 


of Object 






Diit 




Diff. 


• 


Diff. 






Diff. 








• * » 




r » 




* m 




e 


1* 




14 


Sum 


W. 


51 49 59 


3«x 


53 15 43 


3334 


54 41 12 


3«47 


56 6 


25 


39G0 




Pollux 


E. 


35 58 54 


^S 


34 28 23 


30x0 


32 58 23 


3037 


31 28 


56 


3065 




Mars 


E. 


43 29 23 


3010 


41 59 23 


Soas 


40 29 41 


3041 


39 


19 


3056 




RegoluB 


E. 


72 17 32 


2858 


70 44 19 


987X 


69 II 23 


9884 


67 38 


44 


3897 


15 


Sum 


W. 


63 8 54 


33x9 


64 32 43 


333X 


65 56 19 


334X 


67 19 


43 


3350 




Aldebaran 


W. 


20 50 47 


3«7 


22 16 24 


39Q3 


23 42 30 


3x84 


25 8 


58 


3x70 




Regulas 


E. 


59 59 26 


8957 


58 28 19 


99(9 


56 57 27 


«979 


55 26 


48 


3990 


i6 


Sun 


W, 


74 13 58 


3396 


75 36 19 


3403 


76 58 32 


341X 


78 20 


36 


3417 




Aldebaran 


W. 


32 24 28 


3x37 


33 51 53 


3x34 


35 19 21 


3x33 


36 46 


50 


3x3a 




Regulus 


E, 


47 56 44 


3038 


46 27 18 


3046 


44 58 2 


3055 


43 28 


57 


3063 




Spica 


E. 


loi 54 9 


3016 


100 24 16 


yna 


98 54 31 


3030 


97 24 


55 


3035 


I? 


Sun 


W. 


85 9 16 


3443 


86 30 44 


3446 


87 52 8 


3450 


89 13 


28 


3453 




Aldebaran 


W. 


44 4 «9 


3130 


45 32 2 


3x30 


46 59 35 


3x30 


48 27 


8 


3x29 




Regulus 


E. 


36 5 54 


3x00 


34 37 44 


3106 


33 9 42 


3x14 


31 41 


49 


3X90 




Spica 


E. 


89 58 38 


3060 


88 29 39 


3064 


87 45 


30G6 


85 31 


54 


3069 




Jupiter 


E. 


104 I 10 


3031 


102 31 36 


3035 


loz 2 7 


3038 


99 32 


41 


3040 


i8 


Sun 


W. 


95 59 36 


3458 


97 20 47 


3457 


98 41 59 


3456 


100 3 


12 


3455 




Aldebaran 


W. 


55 45 II 


3x23 


57 12 53 


3xax 


58 40 37 


3xx8 


60 8 


25 


31X5 




Spica 


E. 


78 8 17 


3075 


76 39 37 


3074 


75 10 56 


3073 


73 42 


14 


3079 




Jupiter 


E. 


92 6 3 


3045 


90 36 46 


3044 


89 7 28 


3043 


87 38 


9 


3041 


19 


Sun 


W. 


106 49 52 


3439 


108 iz 24 


3436 


109 33 


343X 


no 54 42 


34a6 




Aldebaran 


W. 


67 28 23 


3096 


68 56 38 


3091 


70 24 59 


3086 


71 53 


26 


3079 




Pollux 


W. 


26 16 39 


saga 


27 41 


3965 


29 5 53 


3a40 


30 31 


15 


39x8 




Spica 


E. 


66 18 7 


3058 


64 49 6 


3055 


63 20 I 


3050 


6z 50 


50 


3046 




Jupiter 


£. 


80 ID 57 


3099 


78 41 20 


3015 


77 II 38 


3090 


75 41 


50 


3016 


90 


Aldebaran 


W. 


79 17 40 


3046 


80 46 56 


3037 


82 16 23 


•^^•ar 


83 46 





309X 




Pollux 


W. 


37 43 53 


3x31 


39 II 25 


31x5 


40 39 16 


3XOX 


42 7 


25 


3087 




Mars 


w. 


26 46 II 


3831 


28 ZI 44 


39x6 


29 37 34 


S«>3 


31 3 


i«J 


3x89 




Spica 


E. 


54 23 16 


3PI4 


52 53 21 


3008 


51 23 18 




49 53 


5 


9992 




Jupiter 


E. 


68 zi 16 


3986 


66 40 46 


9980 


65 10 8 


907^ 


63 39 


20 


«965 




Antares 


E. 


99 57 4 


3011 


98 27 6 


3004 


96 56 58 


9996 


95 26 


40 


99S8 


az 


Aldebaran 


W. 


91 16 48 


■974 


92 47 33 


■964 


94 18 31 


■954 


95 49 


42 


«943 




Pollux 


W. 


49 32 27 


30x7 


51 2 Z9 


3004 


52 32 27 


9990 


54 2 


52 


■977 




Mars 


W. 


38 18 3 


3x96 


39 45 41 


3XX4 


41 13 34 


3x01 


42 41 


43 


3088 




Spica 


E. 


42 19 24 


3948 


40 48 6 


9939 


39 16 36 


0939 


37 44 


54 


9990 




Jupiter 


E. 


56 2 54 


9924 


54 31 5 


9915 


52 59 5 


8905 


51 26 


53 


■897 




Antares 


E. 


87 52 28 


394* 


86 21 2 


9931 


84 49 23 


9991 


83 17 


31 


X910 




Saturn 


£. 


Z03 20 17 


■930 


lOZ 48 36 


9990 


100 z6 42 


9909 


98 44 34 


9898 


22 


Pollux 


W. 


61 39 12 


9909 


63 zz 19 


a895 


64 43 44 


9882 


66 16 


26 


2869 




Mars 


W. 


50 6 23 


3023 


51 36 7 


3009 


53 6 8 


•996 


54 36 


26 


•983 




Regulus 


W. 


24 37 48 


«930 


26 9 29 


9910 


27 41 35 


989: 


29 14 


6 


aS73 




Jupiter 


E. 


43 42 59 


9850 


42 9 36 


9849 


40 36 2 


9832 


39 2 


16 


■B95 




Antares 


E. 


75 34 39 


•854 


74 I 21 


aSia 


72 27 47 


2829 


70 53 


57 


9818 




Saturn 


£. 


91 24 


9841 


89 26 49 


9899 


87 52 59 


98x7 


86 18 


53 


9805 



XVI. 



APRIL, 1899, 



71 



GREENWICH MEAN TIME. 








LUNAR DISTANCES. 










Day of the 
Month. 








P.L. 




P.L. 




P.L. 


1 


P.L. 


Name and Direction 
of Object 


Midnight 


of 
DifiE. 


XV^ 


of 
Diff. 


XVIIIh. 


of 
Diff. 


XXIb. 


of 
Diff. 








m t m 




f m 




f m 




e f m 




14 


Sun 


W. 


57 31 23 


3873 


58 56 7 


3385 


60 ao 36 


3396 


61 44 52 


3308 




Pollux 


E. 


30 3 


309s 


28 31 47 


3139 


27 4 12 


3164 


25 37 20 


3205 




Mars 


E. 


37 31 16 


307a 


36 2 32 


3088 


34 34 8 


3104 


33 6 3 


1 

3XX9 




Regulus 


E, 


66 6 21 


2909 


64 34 14 


3933 


63 2 23 


2934 


61 30 47 


2946 


15 


Sun 


W. 


68 42 56 


3361 


70 5 57 


3370 


71 28 48 


3379 


72 51 28 


3388 




Aldebaran 


W. 


a6 35 43 


31S9 


28 2 41 


3150 


29 29 50 


3144 


30 57 6 


3x39 




Regulus 


E. 


53 56 23 


3000 


52 26 10 


30x0 


50 56 10 


3019 


49 26 21 


3039 


x6 


Sun 


W. 


79 42 33 


3433 


81 4 23 


3430 


82 26 6 


3434 


83 47 44 


3439 




Aldebaran 


W. 


38 14 21 


3133 


39 41 52 


3x31 


41 9 24 


3131 


42 36 56 


3X3P 




Regulus 


E. 


42 2 


3070 


40 31 16 


3«>78 


39 2 40 


3086 


37 34 13 


3093 




Spica 


E. 


95 55 26 


304a 


94 26 5 


3047 


92 56 50 


3052 


91 27 41 


3056 


17 


Sun 


W. 


90 34 45 


34S4 


91 56 


3456 


93 17 13 


3457 


94 38 25 


3458 




Aldebaran 


W. 


49 54 42 


3129 


51 22 17 


3x38 


52 49 53 


3126 


54 17 31 


3x34 




Regulus 


E. 


30 14 4 


3128 


28 46 28 


3136 


27 19 2 


3x43 


25 51 45 


3152 




Spica 


E. 


84 3 7 


3071 


82 34 22 


3073 


81 5 39 


3074 


79 36 58 


3074 




Jupiter 


E. 


98 3 18 


3043 


96 33 57 


3<H3 


95 4 38 


3044 


93 35 20 


3045 


x8 


Sun 


W. 


10 I 24 26 


34S3 


102 45 43 


3451 


104 7 2 


3447 


105 28 25 


3444 




Aldebaran 


W. 


61 36 16 


3x1a 


63 4 II 


3109 


64 32 10 


3105 


66 14 


3XOX 




Spica 


E. 


72 13 30 


3070 


70 44 44 


3068 


69 15 55 


3065 


67 47 3 


3063 




Jupiter 


E. 


86 8 48 


3040 


84 39 25 


3038 


83 9 59 


3035 


81 40 30 


3032 


19 


Sun 


W. 


112 16 29 


3430 


113 38 23 


3414 


X15 24 


3407 


116 22 33 


3400 




Aldebaran 


W. 


73 22 I 


3«»73 


74 50 43 


3066 


76 19 34 


3060 


77 48 33 


3053 




Pollux 


W. 


31 57 3 


3198 


33 23 14 


3x80 


34 49 47 


3x63 


36 16 40 


3x47 




Spica 


E. 


60 21 34 


3040 


58 52 II 


3034 


57 22 40 


3038 


55 53 2 


3033 




Jupiter 


E. 


74 II 57 


3010 


72 41 57 


3005 


71 " 51 


2999 


69 41 37 


2993 


20 


Aldebaran 


W. 


85 15 47 


30x3 


86 45 45 


3003 


88 15 54 


2993 


89 46 15 


2984 




Pollux 


W. 


43 35 51 


3073 


45 4 34 


3058 


46 33 35 


3045 


48 2 52 


3030 




Mars 


W. 


32 30 2 


3x77 


33 56 39 


3163 


35 23 32 


3x51 


36 50 40 


3x38 




Spica 


E. 


48 22 42 


3984 


46 52 9 


3975 


45 21 25 


2966 


43 50 30 


2958 




Jupiter 


E. 


62 8 23 


2957 


60 37 16 


3949 


59 5 59 


3941 


57 34 32 


3932 




Antares 


E. 


93 56 12 


3979 


92 25 33 


3970 


90 54 43 


a96x 


89 23 41 


2952 


21 


Aldebaran 


W. 


97 21 6 


3933 


98 52 44 


3932 


100 24 35 


3910 


loi 56 41 


3899 




PoUux 


W. 


55 33 34 


3963 


57 4 33 


3930 


58 35 49 


3936 


60 7 22 


2923 




Mars 


W. 


44 10 7 


3075 


45 38 47 


3063 


47 7 43 


3049 


48 36 55 


3036 , 




Spica 


E. 


36 13 


3909 


34 40 53 


3899 


33 8 33 


3889 


31 36 


2879 




Jupiter 


E. 


49 54 30 


2887 


48 21 55 


3878 


46 49 8 


3869 


45 16 9 


3860 




Antares 


E. 


81 45 25 


3899 


80 13 5 


3888 


78 40 31 


3876 


77 7 42 


3866 




Saturn 


E. 


97 12 13 


3887 


95 39 38 


3876 


94 6 48 


3864 


92 33 43 


2853 


22 


Pollux 


W. 


67 49 25 


3855 


69 22 42 


3841 


70 56 17 


3838 


72 30 9 


38x4 




Mars 


W. 


56 7 


3969 


57 37 51 


99Sfi 


59 8 59 


2943 


60 40 23 


2929 




Regulus 


W. 


30 47 


2855 


32 20 17 


3838 


33 53 56 


382X 


35 27 57 


3805 




Jupiter 


E. 


37 28 20 


38x6 


35 54 13 


3808 


34 19 56 


2801 


32 45 30 


2795 




Antares 


E. 


69 19 52 


3805 


67 45 31 


3793 


66 10 54 


3780 


64 36 


3768 




Saturn 


E. 


84 44 31 


3793 


83 9 53 


•779 


81 34 58 


3767 


79 59 47 


2754 ■ 



72 



APRIL, 1899. 



XVII. 







GREENWICH MEAN TIME. 












LUNAR DISTANCES. 


of the 
mth. 








P.L. 




P.L. 






P.I* 






P. L. 


Name and Direction 1 


Noon. 


of 


Illh. 


of 


Vlh. 




of 


IX^ 




of 


Q 


of Object 






Diff. 




DiflL 






Diff. 






Diff. 








• » » 




• * » 




• 


m 




* 


m 




23 


Pollux 


W. 


74 4 19 


aSoo 


75 38 47 


2787 


77 13 


32 


2773 


78 48 


35 


2760 




Mars 


W. 


62 Z2 5 


99x6 


63 44 4 


2902 


65 i6 


20 


2889 


66 48 


53 


2875 




Regulus 


W. 


37 2 19 


2789 


38 37 I 


«773 


40 12 


4 


2759 


41 47 


26 


2744 




Antares 


E. 


63 50 


«755 


61 25 23 


8743 


59 49 


40 


2730 


58 13 


40 


2717 




Saturn 


E. 


78 24 19 


8741 


76 48 34 


2729 


75 12 


33 


27x6 


73 36 


14 


27P3 


24 


Pollux 


W. 


86 48 10 


•695 


88 24 57 


2683 


90 2 





2669 


91 39 


21 


a657 




Mars 


W. 


74 36 


aflo8 


76 10 17 


«795 


77 44 


51 


2782 


79 19 


42 


2770 




Regulus 


W. 


49 49 8 


3672 


51 26 25 


2658 


53 4 


I 


2645 


54 41 


55 


2<^2 




Antares 


E. 


50 9 28 


a655 


48 31 48 


8643 


46 53 


51 


263Z 


45 15 


38 


2618 




Saturn 


E. 


65 30 24 


9640 


63 52 23 


2627 


62 14 


5 


26x5 


60 35 


30 


2602 




aAquilas 


E. 


103 7 25 


3x65 


10 I 40 34 


3146 


100 13 


20 


3x28 


98 45 


44 


3ZXX 


25 


Pollux 


W. 


99 50 8 


•599 


loi 29 5 


2588 


103 8 


16 


2577 


104 47 


42 


2568 




Mars 


W. 


87 18 5 


3708 


88 54 34 


2696 


90 31 


19 


268s 


92 8 


19 


2674 




Regulus 


W. 


62 55 49 


2569 


64 35 27 


2556 


66 15 


22 


2545 


67 55 


33 


2533 




Antares 


E. 


37 34 


2563 


35 20 48 


assa 


33 40 47 


2543 


32 


33 


2533 




Saturn 


E. 


52 18 26 


8543 


50 38 13 


2532 


48 57 


44 


252Z 


47 17 





2510 




a Aquilae 


E. 


91 22 59 


3040 


89 53 36 


3028 


88 23 


58 


30x8 


86 54 


7 


3009 


a6 


Mars 


W. 


100 17 


2621 


loi 55 26 


26x2 


103 34 


5 


2602 


105 12 


57 


2593 




Regulus 


W. 


76 20 23 


2480 


78 2 5 


2470 


79 44 


I 


2460 


81 26 


II 


2450 




Spica 


W. 


22 18 I 


2495 


23 59 21 


248Z 


25 41 


I 


2468 


27 22 


59 


2457 




Saturn 


E. 


38 49 38 


2460 


37 7 28 


2451 


35 25 


6 


2442 


33 42 


31 


2433 




a Aquilae 


E. 


79 22 20 


2976 


77 51 37 


2972 


76 20 


49 


2970 


74 49 


59 


2969 




Fomalhaut 


E. 


105 5 32 


9945 


103 34 10 


9928 


102 2 


27 


2912 


100 30 


24 


2898 


27 


Regulus 


W. 


90 9 


S408 


91 43 32 


2401 


93 27 


5 


2394 


95 10 


49 


2387 




Spica 


W. 


35 56 39 


2407 


37 40 4 


2398 


39 23 


41 


«39o 


41 7 


30 


2382 




a Aquilae 


E. 


67 16 12 


2988 


65 45 44 


8997 


64 15 


28 


3009 


62 45 


26 


3021 




Fomalhaut 


E. 


92 46 4 


8843 


91 12 32 


2835 


89 38 


49 


2828 


88 4 


57 


282X 


28 


Spica 


W. 


49 49 II 


2349 


51 33 59 


3344 


53 18 


55 


2338 


55 3 


59 


2333 




Jupiter 


W. 


37 25 6 


4357 


39 9 43 


2348 


40 54 


32 


2340 


42 39 


33 


2332 




a Aquilae 


E. 


55 20 14 


S"5 


53 52 35 


3x57 


52 25 


34 


3X9X 


50 59 


14 


3231 




Fomalhaut 


E. 


80 14 8 


2808 


78 39 50 


280R 


77 5 


33 


2810 


75 31 


18 


2814 




a Pegasi 


E. 


99 46 8 


2482 


98 4 30 


2476 


96 22 


43 


2470 


94 40 47 


2465 




Venus 


E. 


109 26 53 


276Z 


107 51 34 


8755 


106 16 


7 


2749 


104 40 32 


2744 


29 


Spica 


W. 


63 50 58 


43x3 


65 36 39 


2310 


67 22 


24 


•307 


69 8 


14 


2304 




Jupiter 


W. 


51 27 14 


2302 


53 13 " 


2297 


54 59 


15 


2293 


56 45 


25 


2289 




Fomalhaut 


E. 


67 41 39 


2849 


66 8 15 


286Z 


64 35 


6 


2875 


63 2 


15 


289X 




a Pegasi 


E. 


86 9 29 


8445 


84 26 59 


3443 


82 44 


25 


244X 


81 I 


48 


2440 




Venus 


E. 


96 40 59 


272Z 


95 4 47 


27x8 


93 28 


31 


97x5 


91 52 


II 


27x2 


30 


Spica 


W. 


77 58 18 


2294 


79 44 27 


2291 


81 30 


39 


229X 


83 16 


52 


2290 




Jupiter 


W. 


65 37 29 


2275 


67 24 5 


2273 


69 10 


44 


2272 


70 57 


25 


2270 




Antares 


W. 


32 26 24 


•304 


34 12 18 


2300 


35 58 


17 


2298 


37 44 


19 


2296 




Fomalhaut 


E. 


55 23 59 


3005 


53 53 53 


3038 


5* 24 


27 


3073 


50 55 


45 


3114 




a Pegasi 


E. 


72 28 34 


2441 


70 45 58 


2443 


69 3 


25 


•445 


67 20 


55 


2449 




Venus 


E. 


83 49 40 


2702 


82 13 3 


270X 


80 36 


24 


2700 


78 59 


44 


2699 




Sun 


E. 


119 31 29 


26ZX 


117 52 49 


2609 


Z16 14 


6 


2607 


"4 35 


21 


2605 



XVIII. 



APRIL, 1899. 



73 









GREENWICH MEAN TIME. 










LUNAR DISTANCES. 


'1 








P.L. 




P.L. 






P.L, 




P.L. 


Name and Direction 


Midnight. 


of 


XV^' 


of 


XVI lib- 


of 


XXIii- 


of 


1* 


of Object 




%# 


Diff. 




Diff. 






Diff. 




Diff. 






9 » m 




t n 




e f 


t» 




r w 




23 


Pollux 


W. 


80 23 55 


8747 


81 59 33 


2734 


83 35 


28 


3731 


85 II 40 


3707 




Mars 


W. 


68 21 44 


2862 


69 54 52 


3848 


71 28 


17 


«835 


73 2 


3821 




Regulus 


W. 


43 23 8 


2739 


44 59 9 


3714 


46 35 


30 


3700 


48 12 10 


2687 




Antares 


E, 


56 37 23 


2704 


55 49 


2692 


53 23 


59 


3680 


51 46 52 


2667 




Saturn 


E. 


71 59 38 


9690 


70 22 45 


2678 


68 45 


35 


266s 


67 8 8 


2652 


24 


Pollux 


W. 


93 16 58 


3646 


94 54 51 


3633 


96 33 


I 


2621 


98 II 27 


36x0 




Mars 


W. 


80 54 49 


8757 


82 30 13 


2744 


84 5 


54 


3732 


85 41 51 


3719 




Regulus 


W. 


56 20 6 


3618 


57 58 36 


3606 


59 37 


23 


2593 


61 16 27 


2580 




Antares 


E. 


43 37 8 


2607 


41 58 23 


2596 


40 19 


22 


a5«5 


38 40 6 


2573 




Saturn 


E. 


58 56 38 


2591 


57 17 30 


3578 


55 38 


5 


2566 


53 58 24 


2554 




a AquilaB 


E. 


97 17 48 


3095 


95 49 32 


3080 


94 20 


58 


3066 


92 52 7 


3052 


25 


Pollux 


W. 


106 27 21 


2558 


108 7 14 


2548 


109 47 


21 


2538 


III 27 41 


2530 




Mars 


W. 


93 45 34 


2663 


95 23 4 


2652 


97 


49 


3641 


98 38 48 


2632 




Regulus 


W. 


69 36 I 


2522 


71 16 44 


2511 


72 57 


42 


3500 


74 38 55 


2489 




Antares 


E. 


30 20 5 


2523 


28 39 24 


25x5 


26 58 


32 


2507 


25 17 29 


2499 




Saturn 


E. 


45 36 


3499 


43 54 46 


8489 


42 13 


17 


2479 


40 31 34 


2470 




a Aquilae 


E. 


85 24 5 


3000 


83 53 52 


3992 


82 23 


29 


2985 


80 52 58 


29S0 


26 


Mars 


W. 


106 52 2 


3584 


108 31 19 


3576 


110 10 


47 


3368 


III 50 26 


2560 




Regulus 


W. 


83 8 34 


244X 


84 51 10 


2433 


86 33 


58 


2424 


88 16 58 


24x7 




Spica 


W. 


29 5 13 


2445 


30 47 43 


3435 


32 30 


28 


2425 


34 13 27 


3416 




Saturn 


E. 


31 59 44 


2426 


30 16 46 


3418 


28 33 


37 


2412 


26 50 19 


2405 




a Aquilae 


E. 


73 19 8 


3970 


71 48 18 


3973 


70 17 


31 


3976 


68 46 48 


2981 




Fomalhaut 


E. 


98 58 3 


2885 


97 25 25 


3873 


95 52 


32 


3863 


94 19 25 


2852 


27 


Regulus 


W. 


96 54 42 


2380 


98 38 45 


2374 


100 22 


57 


3368 


102 7 17 


3363 




Spica 


W. 


42 51 30 


2375 


44 35 40 


3368 


46 20 


I 


3363 


48 4 31 


2355 




a Aquilx 


E. 


61 15 39 


3036 


59 46 II 


3055 


58 17 


6 


3075 


56 48 26 


3098 




Fomalhaut 


E. 


86 30 57 


28x7 


84 56 51 


38x3 


83 22 


40 


38x0 


81 48 25 


3808 


28 


Spica 


W, 


56 49 10 


3338 


58 34 28 


3334 


60 19 


52 


3320 


62 5 22 


3316 




Jupiter 


W. 


44 24 46 


2325 


46 10 9 


3318 


47 55 


42 


23x2 


49 41 24 


3307 




a Aquilae 


E. 


49 33 41 


3275 


48 9 


3325 


46 45 


17 


3381 


45 22 39 


3446 




Fomalhaut 


E. 


73 57 8 


2818 


72 23 3 


3823 


70 49 


5 


2830 


69 15 16 


3839 




a Pegasi 


E. 


92 58 44 


2460 


91 16 34 


2455 


89 34 


17 


845 X 


87 51 55 


3448 




Venus 


E. 


103 4 50 


3738 


loi 29 I 


2734 


99 53 


6 


3729 


98 17 5 


3725 


29 


Spica 


W. 


70 54 8 


2301 


72 40 6 


3399 


74 26 


7 


3397 


76 12 II 


3395 




Jupiter 


W. 


58 31 41 


2285 


60 18 2 


3383 


62 4 


27 


2280 


63 50 56 


3377 




Fomalhaut 


E. 


61 29 44 


2909 


59 57 36 


2929 


58 25 


54 


2951 


56 54 40 


2977 




Pegasi 


E. 


79 19 10 


2439 


77 36 31 


2438 


75 53 


51 


2439 


74 II 12 


2440 




Venus 


E. 


90 15 47 


27x0 


88 39 20 


3707 


87 2 


49 


2705 


85 26 16 


3703 


30 


Spica 


W. 


85 3 6 


2289 


86 49 22 


2289 


88 35 


38 


2288 


90 21 55 


3288 




Jupiter 


W. 


72 44 9 


2269 


74 30 54 


2268 


76 17 


41 


22G7 


78 4 29 


2266 




Antares 


W. 


39 30 24 


2295 


41 16 31 


3294 


43 2 


40 


2293 


44 48 50 


2391 




Fomalhaut 


E. 


49 27 52 


3158 


48 53 


3208 


46 34 


53 


3264 


• 45 9 59 


3325 1 




a Pegasi 


E. 


65 38 30 


2453 


63 56 10 


2458 


62 13 


57 


2463 


60 31 52 


2469 




Venus 


E. 


77 23 3 


2699 


75 46 22 


2698 


74 9 


40 


2699 


72 32 59 


2699 


I 


Sun 


E. 


112 56 33 


2604 


III 17 44 


2604 


109 38 


54 


3603 


108 3 





74 



MAY, 1899. 



AT GREENWICH APPARENT NOON. 



4 






Q 



Mon. 
Tues. 
Wed. 

Thur. 

Frid. 

Sat 

SC/N. 

Mon. 

Tues. 

Wed. 
Thur. 
Frid. 

Sat. 

SC/N. 

Mon. 

Tues. 
Wed. 
Thur. 

Frid. 

Sat. 

SC/N. 

Mon. 
Tues. 
Wed. 

Thur. 

Frid. 

Sat. 

SC/N. 
Mon. 
Tues. 
Wed. 

Thur. 



a 

o 



Q 



I 
2 

3 

4 

5 
6 

7 
8 

9 

lO 

II 

12 

13 

15 

i6 

17 
i8 

19 

20 
21 

22 

23 
24 

25 
26 

27 

28 
29 

30 
31 

32 



THE SUN'S 



Apparent 
Right Ascensioa 



b m 8 

2 33 47.24 

2 37 36.53 
2 41 26.40 

2 45 16.83 
2 49 7.84 

2 52 59-43 

2 56 51.60 

3 o 44-35 
3 4 37.68 

3 8 31.59 
3 12 26.07 
3 16 21.13 

3 20 16.75 
3 24 12.93 
3 28 9.67 



3 32 
3 36 
3 40 



6.96 
4.80 

3.19 



3 44 2.10 
3 48 1.56 
3 52 1.54 



3 56 

4 o 
4 4 



2.05 
3.07 
4.61 



4 8 6.66 
4 12 9.21 
4 16 12.25 

4 20 15.78 

4 24 19-78 
4 28 24.25 
4 32 29.17 

4 36 34-53 



Diff.for 
s Hoar. 



B 
9.542 

9.566 

9.590 

9.613 

9.637 
9.661 

9.686 
9.710 

9.734 

9.758 
9.782 
9.806 

9.829 

9.853 
9.876 

9.899 
9.921 

9.944 

9.966 

9.988 

10.010 



0.032 
0.053 
0.075 

0.096 
O.II7 
0.137 

0.157 
0.176 
0.195 
0.214 

0.232 



Apparent 
Dedinatioo. 



N.15 5 46.1 

5 23 46.8 
5 41 32.2 

5 59 2.2 

6 16 16.4 

633 14-4 

6 49 56.0 

7 6 20.8 
7 22 28.5 

7 38 18.8 

7 53 51.3 

8 9 5.9 

8 24 2.1 

8 38 39.7 

8 52 58.4 

9 6 58.0 
9 20 38.2 
9 33 58.6 

9 46 59.1 

9 59 39.4 
20 II 59.3 

20 23 58.5 
20 35 36.7 
20 46 53.9 

20 57 49-6 

21 8 23.8 
21 18 36.1 

21 28 26.4 

21 37 54-5 
21 47 o,i 

21 55 43.1 
N.22 4 3.2 



DiflLfor 
X Hour. 



+45.34 
44.71 

44.07 

+4342 
42.76 
42.08 

+41.38 
40.67 

39-96 

+39-23 
38.48 

37-72 

+36.95 
36.17 

35.38 

+34.58 
3376 
32.93 

•4-32.10 
31-25 
30-39 

4-29.52 
28.65 
27.77 

f26.87 
25.96 

25.05 

+24.13 
23.20 

22.26 

21.31 

•f20.36 



Semi- 
diameter. 



15 54.30 
15 54.06 
15 5382 

15 53.58 

15 53.35 
15 53.12 

15 52.89 
15 52.67 
15 52.45 

15 52.23 
15 5202 
15 51-82 

15 51.62 
15 51.42 
15 51-22 

15 51.03 
15 50.84 
15 50-66 

15 50.48 
15 50.30 
15 50.13 

15 49.96 

15 49.79 
15 49.62 

15 49-45 
15 49.29 

15 49.13 

15 48.97 
15 48.81 
15 48.66 

15 48.51 
15 48.37 



Sidereal 

Time of 

Semi- 

diameter 
Passing 

Meridian, 



8 
66.07 

66.15 

66.23 

66.31 
66.39 
66.47 

66.55 
66.63 

66.71 

66.79 
66.87 
66.96 

67.04 
67.12 
67.20 

67.29 
67.37 

67.45 

67.53 
67.60 

67.68 

67.76 

67.83 
67.90 

67-97 
68.04 

68.11 

68.17 
68.23 
68.29 
68.35 

68.41 



Bqnation of 

Time, 

to be 

Subtracted 

from 

Apparent 

Tima. 



m 

2 



59.56 

3 6.80 
3 13.48 

3 19-58 
3 25.11 
3 30.07 

3 34.44 
3 38.24 

3 41.45 

3 4409 
3 46.16 

3 47.66 

3 48-59 
3 48.96 

3 48.78 

3 48.04 
3 46-76 
3 44-94 

3 42.58 

3 39.69 
3 36-28 

3 32.34 
3 27.88 
3 22.91 

3 17.44 
3 11.46 
3 5.00 

2 58-04 
2 50.62 

2 42.73 
2 34-39 

2 25.61 



8 

0.313 
0.290 

0.266 

0.242 
0.218 

0.194 

0.170 
0.146 
0.122 

0.098 
0.074 
0.050 

0.027 
0.004 
0.019 

0.042 
0.065 
0.087 

0.109 
O.I3I 
0.153 

O.I75 
0.196 
0.218 

0.239 
0.260 
0.280 

0.300 
0.319 

o.33« 
0.357 

0.374 



Diff.for 
z Hour. 



NoTB.— The mean time of semidiameter passing may be found by subtractiag a^.18 from the sidereal time. 

The sign + prefixed to the hourly change of declination indicates that north declinations are increasing. 



I — 



IL 



MAY, 1899. 



75 











AT GREENWICH MEAN NOON. 














THE SUN'S 










o 

1 

1 


g 

« 

o 
Q 












Bqaation of 

Time, 

to be 

Added to 

Mean Time. 


Diitfor 
I Hoar. 


Sidereal 

Time» 

or 

Right Ascension 

of 

Mean Snn. 


Apparent 
Right Ascensioa 


Diff. for 
I Hoar. 


Apparent 
Declinatloa 


Diff. for 
X Hoar. 


Mon. 
Tues. 
Wed. 


I 

2 

3 


h m B 

2 33 4771 
2 37 3703 
2 41 26.91 


a 
9.543 
9.566 

9590 


9 f m . 

N.I 5 5 48.4 

15 23 49.1 
15 41 34.6 


w 

+45-34 
44.71 

44.07 


m s • 
2 59.58 

3 6.82 
3 13.49 


s 
0.313 
0.290 

0.266 


h m B 
2 36 47.29 

2 40 43.85 

2 44 40.40 


Thur. 

Frid. 

Sat 


4 

5 
6 


2 45 
2 49 

a 52 


17.36 
8.39 

59-99 


9.614 

9.638 
9.662 


15 59 4-7 

16 16 18.9 

16 33 16.9 


+43-42 
42.76 

42,08 


3 19-60 
3 25.13 
3 30.08 


0.242 
0.218 

0.194 


2 48 36.96 

2 52 33.52 
2 56 30.07 


SUN. 

Mon. 

Tues. 


7 
8 

9 


2 56 

3 
3 4 


52.17 

44-93 
38.28 


9.686 
9.710 

9-735 


16 49 58.5 

17 6 23.3 
17 22 31.0 


+41.38 
40.67 

3996 


3 34.46 
3 38.25 
3 41.46 


0.170 
0.146 
O.Z22 


3 26.63 
3 4 23.18 
3 8 19.74 


Wed. 
Thur. 
Frid. 


lO 

II 

12 


3 8 
3 12 
3 16 


32.19 
26.68 
21.74 


9.759 
9.782 

9.806 


17 38 21.2 

17 53 53.8 

18 9 8.3 


+39.23 
38.48 

37.72 


3 44- 10 
3 46.17 
3 47-66 


0.098 
0.074 
0.050 


3 12 16.29 
3 16 12.85 
3 20 9.40 


Sat 

SUN. 

Mon. 


13 
15 


3 20 
3 24 
3 28 


17-37 

13-55 
10.30 


9.829 

9.853 
9.876 


18 24 4.5 
18 38 42.1 
18 53 0.7 


+36.95 
36.17 
35.38 


3 48.59 
3 48.96 

3 48.77 


0.027 
0.004 
0.019 


3 24 5.96 
3 28 2.52 

3 31 59.07 


Tues. 
Wed. 
Thur. 


i6 

17 
i8 


3 32 
3 36 
3 40 


7.59 

5-43 
3.81 


9.899 

9.921 
9.944 


19 7 0.2 
19 20 40.3 
19 34 0.7 


+34.58 
33.76 
32.93 


3 48.04 
3 46.76 
3 44-93 


0.042 
0.065 
0.087 


3 35 5563 
3 39 52.18 

3 43 48.74 


Frid. 

Sat 

SUN. 


19 

20 
21 


3 44 
3 48 
3 52 


2.72 
2.17 
2.14 


9.966 

9.988 

10.010 


19 47 I.I 

19 59 41.4 

20 12 1.2 


+32.10 
31.25 
30.39 


3 42.58 
3 39.69 
3 36.27 


O.XO9 
0.131 

O.X53 


3 47 45.30 
3 51 41.86 

3 55 38.41 


Mon. 
Tues. 
Wed. 


22 

23 
24 


3 56 

4 
4 4 


2.64 

3-65 
5.18 


10.032 
10.053 
10.074 


20 24 0.3 
20 35 38.4 
20 46 55-5 


+29.52 
28.65 

27-77 


3 32.33 
3 27.87 
3 22.90 


0.175 
0.196 
0.218 


3 59 34.97 

4 3 31.53 
4 7 28.08 


Thur. 

Frid. 

Sat 


25 
26 

27 


4 8 
4 12 

4 16 


7.21 

9-75 
12.77 


10.095 
10. 1x6 
10.136 


20 57 51.2 

21 8 25.2 
21 18 37.5 


+26.87 
25.96 

25.05 


3 17.42 
3 11.45 
3 4-98 


0.239 
0.260 
0.280 


4 II 24.64 
4 15 21.20 

4 19 17-75 


SUN. 
Mon. 
Tues. 
Wed. 


28 
29 
30 
31 


4 20 

4 24 
4 28 

4 32 


16.28 
20.26 
24.71 
29.61 


10.156 
10.176 
10.195 

Z0.2I3 


21 28 27.7 

21 37 55-6 
21 47 1.2 
21 55 44.0 


+24.13 
23.20 
22.26 
21.31 


2 58.03 
2 50.60 
2 42.71 

2 34.37 


0.300 
0.319 
0.338 

0.357 


4 23 14-31 
4 27 10.87 

4 31 7-42 
4 35 3-98 


Thur. 


32 


4 36 


34-95 


10.231 


N.22 4 4.1 


+20.36 


2 25.59 


0.375 


4 39 0.54 




koaen 
leaicp 
incre 


nidiametor for mean 
1 + prefixed to the 

asing. 


\ noon may 1 
boarly chan 


36 assumed the same 
Ke of declination indi 


aa that for 
Lcates that n 


apparent noon, 
orth deciinatio 


nsaro 


DiflE. for I Hoar, 
+ 9"-8565. 
(Table Ug 



76 



MAY, 1899. 



III. 



AT GREENWICH MEAN NOON. 



i 

o 
o 



I 

2 

3 

4 

5 
6 

7 
8 

9 

lO 

II 

12 

13 

15 

i6 

17 
i8 

19 

20 
21 

22 
23 
24 

25 
26 

27 

28 
29 

30 
31 

32 



i 

o 



21 
22 

23 

24 

25 
26 

27 
28 
29 

30 
31 
32 

33 
34 
35 

36 

37 
38 

39 
40 

41 

42 

43 
44 

45 
46 

47 

48 

49 
50 
51 



152 



THE SUN'S 



TRUE LONGITUDE. 



40 52 51.6 

41 51 1.7 

42 49 10.6 

43 47 17-9 

44 45 23-8 

45 43 28.3 

46 41 31-3 

47 39 33-0 

48 37 330 

49 35 316 

50 33 28.5 

51 31 23.8 

52 29 17.5 

53 27 9-4 

54 24 59-8 

55 22 48.3 

56 20 35.2 

57 18 20.4 



58 

59 
60 

61 
62 
63 



16 3.9 

13 45-9 
26.4 



II 



9 5-3 
6 42.8 

4 I9-I 



64 I 54. 1 

64 59 28.0 

65 57 07 

66 54 32.6 

67 52 3-4 

68 49 33.5 

69 47 2.8 

70 44 31-3 



52 18.9 

50 28.9 

48 37-6 

46 44.8 
44 50.6 

42 54-9 

40 57.8 

38 59.3 
36 59-2 

34 57-6 
32 54-4 
30 49-5 

28 43.1 
26 34.8 
24 25.1 

22 13.4 
20 0.2 

17 45-2 

15 28.6 
13 10.4 
10 50.8 

8 29.5 
6 6.9 

3 430 

I 17.8 

58 516 
56 24.1 

53 55-8 

51 26.5 
48 56.4 
46 25.5 

43 53.8 



Diff.for 
X Hour. 



5-45 
5-39 
5.34 

5.28 

5.22 
5.16 

5- 10 
5.04 
4.98 

4.91 
4.84 

4-77 

4.70 
4-63 
4-56 

4-49 
4.42 

4-35 

4.28 
4.22 

4-15 

4.09 
4.03 
3.98 

3-93 

3.89 
3.85 

3.81 

3-77 

3.74 
3.70 



143-67 



LATITUDE. 



+ 0.17 
0.29 
0.38 

+ 0-45 
0.49 

0.51 

+ 0.48 
0.44 
0.37 

+ 0.27 

0.15 

+ 0.02 

— 0.1 1 
0.24 
0.37 

-0.49 

0.57 
0.64 

— 0.68 
0.68 
0.66 

— 0.60 
0.52 
0.41 

— 0.29 
0.17 

— 0.04 

+ 0.09 
0.21 
0.30 

0.37 
+ 0.42 



Lofrarithm 

of the 

Radius Vector 

of the 

Earth. 



0.0034894 
0.0035996 
0.0037088 

0.0038168 
0.0039233 
0.0040284 

O.OO41318 
0.0042336 
0.0043333 

0.0044312 
0.0045272 
0.0046214 

0.0047136 
0.0048039 
0.0048924 

0.0049794 
0.0050646 
0.0051485 

0.0052309 
0.0053 1 21 

0-0053921 

0.0054709 
0.0055486 
0.0056253 

0.005701 1 
0.0057758 
0.0058494 

0.0059218 
0.0059928 
0.0060626 
0.0061308 

0.006 1 97 1 



DiflLfor 
X Hoar. 



+46.1 

45.7 
45-2 

+44-7 
44.1 

43-5 

+42.8 
42.0 
41.2 

+40.4 
39-6 
38.8 

+38. X 
37-4 
36.7 

+36.0 

35-3 
34-7 

+34- X 
33-6 

331 

+32.6 
32.2 
31.8 

4-3I-4 
309 
30.4 

+29.9 

29.3 
28.7 

28.0 

+27.3 



Mean Time 

of 

Sidereal Noon. 



m 



21 19 42.48 
21 15 46.58 
21 II 50.67 



21 
21 
21 



7 
3 



5476 

58.85 

2.94 



20 56 7.03 

20 52 II. 12 

20 48 15.21 

20 44 19.30 

20 40 23.39 

20 36 27.48 

20 32 31.57 

20 28 35.66 

20 24 39.75 

20 20 43.84 

20 16 47.93 

20 12 52.02 

20 8 56.10 
20 5 0.19 
20 I 4.28 

19 57 8.37 

19 53 12.46 

19 49 16.55 

19 45 20.64 

19 41 24.73 

19 37 28.82 

19 33 32.91 

19 29 36.99 

19 25 41.08 

19 21 45.17 

19 17 49.26 



NoTBr-Th« immbers in column A correspond to the trae eqniaes of the date; in column X' !• the mean 
•qninoi of January o'.o. 



Diff. for X Hovr, 
— 9".8296. 
(Table ig 



IV. 



MAT, 1899. 



77 



GREENWICH MEAN TIME. 



B 
O 

a 



o 



THE MOON'S 



I 

2 

3 

4 

5 
6 

7 

8 



lO 

II 

12 

13 

15 

i6 

17 
i8 

19 

20 
21 

22 

23 
24 

25 
26 

27 

28 
29 

30 
31 

32 



SBMIDIAMBTBR. 



Noon. 



ICidaight 



16 II.2 
16 II. I 
16 9.6 


II 

II 

XI 


16 6.8 
16 2.8 


1 
I 


15 57-4 




15 50.7 
15 42.8 
15 34-0 




15 24.6 
15 15.2 
15 6.4 




14 58.8 
14 53.0 
H 49-4 




14 48.3 

14 500 
H 54-6 




15 1-7 
15 IX.3 

15 22.7 




15 35.2 
15 47.9 
15 59.7 




16 9.8 
16 17.1 
16 21.2 




16 22.1 




16 20.1 




16 15.7 
16 9.6 




16 2.3 


I 



6 11.3 
6 10.5 
6 8.3 



6 

6 

5 

5 
5 
5 



4 
4 

4 

5 
5 
5 

5 

5 
6 

6 
6 
6 



4.9 

0.2 

54-2 

46.9 

38.5 
29.3 



5 19.9 

5 IO-7 

5 2.4 

4 55.7 

4 509 

4 48.5 



48.8 
51.9 
57.8 

6.3 
16.8 

28.9 

41.6 

540 
5.0 

13.8 
19.6 
22.1 



6 21.5 

6 18.2 

6 12.8 

6 6.1 



15 58.4 



HORIZONTAL PARALLAX. 



Noon. 



59 
59 
59 



17.9 

173 

11.8 



59 1-6 
58 46.8 
58 27.1 

58 2.6 
57 33-6 
57 II 

56 26.7 
55 52.1 
55 199 



Diff. foi 
I Hoar. 



•fo.08 

-0.13 

0.33 

-0.52 
0.72 
0.92 

—1.12 
X.28 
1.40 

-1-45 
1.40 

I«26 



Midnight 



54 52.0 
54 30.6 
54 17-3 


-1.03 

0,73 

-0.36 


54 13-5 
54 197 
54 36.3 


+0.05 
0.48 
0.90 


55 2.7 

55 37.8 

56 19-7 


+X.29 
1.61 
X.84 


57 5.6 

57 52.2 

58 35-7 


+X.95 
X.90 

X.69 


59 12.5 
59 39-3 
59 54-6 


+1.34 
0.88 

+0.38 


59 58.0 
59 50-6 
59 34-4 
59 11.9 


-0.09 

o«50 
0.82 
X.03 


58 45.2 


-X.17 



59 18.2 
59 151 
59 7-3 

58 54-8 
58 37-5 
58 15-4 

57 48.6 

57 17.7 
56 44.0 

56 9-3 
55 35-6. 
55 5-2 

54 40.4 
54 22.8 

54 14-2 

54 15.3 
54 26.7 

54 48.3 

55 19.3 

55 58.0 

56 42.3 

57 29.0 

58 14.6 

58 55-1 

59 27.3 
59 48.5 
59 57-8 

59 55-5 
59 43-4 
59 23.8 
58 58.9 

58 30.9 



Diir.for 
I Hoar. 



-0.03 
0.23 
0.42 

-0.62 
0.82 
X.02 

-X.2X 

1-35 
1-43 

-x-44 

x-34 
x.x6 

-0.89 

0.55 

-o.x6 

•fo.26 
0.69 
x.io 

+X.46 

1.74 
X.91 

+1.94 
x.8x 

x.53 

4-X.X2 

0.63 
40.X4 

-0.31 

0.67 

0.94 

x.xx 
-1.20 



UPPBR TRANSIT. 



Meridian of 
Greenwich. 



m 



h 

17 46.8 

18 39.6 

19 30.1 



20 
21 
21 



19-3 
8.0 

57-2 



22 47.7 

23 39.6 

6 

32.7 

1 26.1 

2 18.8 



3 
3 

4 

5 
6 

6 



9-7 
58.2 

44.1 

27.8 
1 0.0 

SI'S 



7 33-2 

8 16.2 

9 1.6 

9 50.4 

10 43.2 

11 40.2 

12 40.5 

13 42.2 

14 43.0 

15 41.1 

16 35-9 

17 27.6 

18 17.1 

19 5-5 



Diff. for 
X Hour. 



m 
2.26 


d 
21.2 


a.15 


22.2 


2.07 


23.2 



2.03 
2.04 
2.07 

2.13 
2.19 



2.23 

2.22 

2.x6 

2.07 
1.97 

X.86 

X.78 

x.73 
1.73 

X.76 
X.83 
X.96 

2.XI 
2.29 

2-45 

2.56 
2.57 
2.49 

2.35 
2.22 

2.X0 

2.03 

2.0X 



AGB. 



Noon. 



24.2 
25.2 
26.2 

27.2 

28.2 
29.2 

0.8 

1.8 
2.8 

3.8 

4.8 

5.8 

6.8 
7.8 
8.8 

9.8 
10.8 
1 1.8 

12.8 
13.8 
14.8 

15.8 
16.8 
17.8 

18.8 
19.8 
20.8 
21.8 

22.8 



78 



MAY, 1899. 











GREENWICH 


MEAN 


TIME. 














THE MOON'S 


RIGHT 


ASCENSION AND DECLINATION. 






Hour. 




RiRht 


Diff. for 


Declinatioa 


DHL for 


Hoar. 




Right 


DiflLfor 


Doclina^ion. 


Diff. for 




Ascension. 


z Minate. 








X Minute. 




Aacenaion. 


X Minute. 






I Minute. 






1 


dONDA 


Y I. 












WEDNESDAY 3. 








h 


m ■ 


■ 


• 


t 


m 


m 




h 


m ■ 


a 


• 


• 


• 





19 


44 8.71 


t.4ao8 


S.19 


10 


21.9 


9.040 





21 


35 17.92 


3.3X93 


S.IO 3 


52.3 


13.199 


I 


19 


46 33-83 


3.4x64 


19 


I 


15.9 


9.X59 


I 


21 


37 30.98 


8.3x60 


9 50 38.8 


13. asa 


2 


19 


48 58.68 


8.4x20 


18 


52 


2.8 


9.276 


2 


21 


39 43.84 


3.3x97 


9 37 


22.1 


15-30Z 


3 


19 


51 23.27 


S.4076 


18 


42 


42.8 


9.39a 


3 


21 


41 56.50 


3.3094 


9 24 


2.4 


>3.SS3 


4 


19 


53 47-59 


8.4031 


18 


33 


15.8 


9.507 


4 


21 


44 8.97 


3.3063 


9 10 


39.7 


X3.403 


5 


19 


56 11.64 


a. 3986 


18 


23 


42.0 


9.620 


5 


21 


46 21.25 


3.3031 


8 57 


14. 1 


X3.449 


6 


19 


58 35.42 


a. 3941 


18 


14 


1.4 


9.733 


6 


21 


48 33.34 


3.1999 


8 43 


45.8 


X3.494 


7 


20 


58.93 


a. 3896 


18 


4 


14. 1 


9.843 


7 


21 


50 45.25 


3.1970 


8 30 


14.8 


XS.S39 


8 


20 


3 22.17 


3.3850 


17 


54 


20.2 


9.953 


8 


21 


52 56.98 


S.194X 


8 16 


41. 1 


13.583 


9 


20 


5 45.13 


3.3805 


17 


44 


19.8 


IO.06X 


9 


21 


55 8.54 


a.x9xa 


8 3 


4.9 


X3.623 


lO 


20 


8 7.83 


a. 3760 


17 


34 


12.9 


XO.Z68 


10 


21 


57 19.92 


a.x883 


7 49 


26.3 


X3.663 


II 


20 


10 30.25 


a. 3715 


17 


23 


59.7 


10.273 


II 


21 


59 31.14 


•.X856 


7 35 45.3 


13.703 


12 


20 


12 52.41 


3.3670 


17 


13 


40.2 


10.377 


12 


22 


I 42.19 


a.x8a6 


7 22 


1.9 


13.741 


13 


20 


15 14-29 


a. 3625 


17 


3 


14.5 


XO.479 


13 


22 


3 53.08 


8.X803 


7 8 


16.4 


13.777 


14 


20 


17 35.91 


a. 3580 


16 


52 42.7 


10.580 


14 


22 


6 3.81 


a.x776 


6 54 


28.7 


13. 813 


15 


20 


19 57-25 


a. 3534 


16 


42 


4.9 


X0.680 


15 


22 


8 14.39 


3.X751 


6 40 39.0 


X3.844 


i6 


20 


22 18.32 


a. 3489 


16 


31 


21. 1 


X0.779 


16 


22 


10 24.82 


•.X736 


6 26 


47.4 


13.877 


17 


20 


24 39-12 


a. 3444 


16 


20 


31.4 


10.877 


17 


22 


12 35.10 


3.X703 


6 12 


53.8 


13.908 


i8 


20 


26 59.65 


a. 3399 


16 


9 


35.9 


10.973 


18 


22 


14 45.24 


a.x678 


5 58 58.5 


13.937 


19 


20 


29 19.91 


a. 3354 


15 


58 


34.7 


IX. 067 


19 


22 


16 55.24 


3.1656 


5 45 


1.4 


13.965 


20 


20 


31 39.90 


a. 33x0 


15 


47 


27.9 


X1.X60 


20 


22 


19 5.11 


3.1^ 


5 31 


2.7 


13.992 


21 


20 


33 59-63 


3.3366 


15 


36 


15.5 


11.353 


21 


22 


21 14.84 


a.x6x3 


5 17 


2.4 


14.0x8 


22 


20 


36 19.09 


3.3233 


^ 15 


24 57.7 


ix.34a 


22 


22 


23 24.45 


3.X59X 


5 3 


0.6 


14.041 


23 


20 


38 38.29 


a.5178 


S.15 


13 34.5 


11.430 


23 


22 


25 33.93 


a.x57o 


S. 4 48 


57.5 


M.063 






T 


UESDA 


Y 2. 












TI 


lURSD. 


AY 4. 









20 


40 57.22 


1.3x33 


S.15 


2 


6.1 


11.5x8 





22 


27 43.29 


a.X55x 


S. 4 34 


53.0 


14.085 


I 


20 


43 15.89 


3.3091 


14 


50 


32.4 


xx.604 


I 


22 


29 52.54 


a.x533 


4 20 


47.3 


X4.X05 


2 


20 


45 34.31 


3.3048 


14 


38 


53.6 


IX.689 


2 


22 


32 1.68 


3.13x4 


4 6 


40.4 


X4.ias 


3 


20 


47 52.46 


3.3004 


14 


27 


9.7 


".773 


3 


22 


34 10.71 


a. 1496 


3 52 


32.5 


X4.140 


4 


20 


50 10.36 


3.3963 


14 


15 


20.9 


11.854 


4 


22 


36 19.63 


2.X479 


3 38 


23.6 


14. 157 


5 


20 


52 28.01 


3.3920 


14 


3 


27.2 


IX.935 


5 


22 


38 28.46 


a. 1463 


3 24 


13-7 


14.172 


6 


20 


54 45.40 


3.3878 


13 


51 


28.7 


13.014 


6 


22 


40 37.19 


a.x447 


3 10 


3.0 


X4.185 


7 


20 


57 2.54 


3.3836 


13 


39 


25.5 


13.093 


7 


22 


42 45.82 


a.x433 


2 55 


51.5 


14.197 


8 


20 


59 19-43 


3.3795 


13 


27 


17.7 


X2.i68 


8 


22 


44 54.37 


3.X4X8 


2 41 


39.4 


i4.ao8 


9 


21 


I 36.08 


a. 2755 


13 


15 


5.3 


xa.243 


9 


22 


47 2.83 


a.x403 


2 27 


26.6 


14.3x8 


lO 


21 


3 52.49 


«.a7X4 


13 


2 


48.5 


13.5x7 


10 


22 


49 II. 21 


a.x390 


2 13 


13.3 


14.336 


II 


21 


6 8.65 


■•a<S73 


12 


50 


27.3 


X3.389 


II 


22 


51 19.51 


a.x378 


I 58 


59.5 


14.233 


12 


21 


8 24.57 


a. 3633 


12 


38 


1.8 


13.460 


12 


22 


53 27.74 


3.1366 


X 44 


45.3 


14.338 


13 


21 


10 40.25 


3.3594 


la 


25 


3«.i 


13.339 


13 


22 


55 35.90 


a.x355 


I 30 


30.9 


14.343 


14 


21 


12 55.70 


3.2556 


12 


12 


58.3 


13. 597 


14 


22 


57 44.00 


a.x345 


X 16 


16.3 


X4.a45 


15 


21 


15 10.92 


3.35x8 


12 





20.5 


13. 6(^ 


15 


22 


59 52.04 


a.x335 


I 2 


1.5 


'4.247 


i6 


21 


17 25.91 


3.3480 


XI 


47 


38.7 


13.738 


16 


23 


2 0.02 


3.1336 


47 


46.7 


14.347 


17 


21 


19 40.68 


3.2443 


XI 


34 


53.x 


xa.79a 


17 


23 


4 7.95 


3.X318 


33 


31.9 


14.246 


i8 


21 


21 55.22 


a. 3405 


XI 


22 


3.7 


13.854 


18 


23 


6 15.83 


a.x309 


19 


17.2 


14.244 


19 


21 


24 9.54 


3.2368 


II 


9 


10.6 


13.9x6 


19 


23 


8 23.66 


3.X308 


S. 5 


2.6 


t4.34X 


20 


21 


26 23.64 


3.8333 


10 


56 


13.8 


X3.976 


20 


23 


10 31.45 


t.X295 


N. 9 


11.7 


I4.a36 


1 21 


21 


28 37.52 


3.2297 


10 


43 


13.5 


13.033 


21 


23 


12 39.20 


3.1289 


23 


25.7 


14.229 


, 22 


21 


30 51.20 


2,3a6a 


10 


30 


9.8 


13.090 


22 


23 


14 46.92 


3.x 284 


37 


39-2 


14.233 


23 


21 


33 4.66 


3.3227 


10 


17 


2.7 


X3.146 


23 


23 


16 54.61 


a.xa79 


51 


52.3 


X4.2I3 


24 


21 


35 1792 


3.3193 


S.io 


3 


52.3 


X3.X99 


24 


23 


19 2.27 


3.X375 


N. X 6 


4.8 


14.203 j 



Vh 



MAY, 1899. 



79 



Hour. 



O 

I 

a 

3 

4 

5 
6 

7 
8 

9 

lO 

II 

12 

13 

14 

15 
i6 

17 
i8 

19 

20 
21 
22 

a3 



GREENWICH MEAN TIME. 



THE MOON'S RIGHT ASCENSION AND DECLINATION. 



Right 

Ascensioa 



Diff. for 
X Minute. 



Declination. 



Diff. for 

X Minnte. 



FRIDAY 5. 



h m 
23 19 
23 21 
23 23 

23 25 
23 27 

23 29 

23 31 

23 33 
23 36 

23 38 

23 40 

23 42 

23 44 

23 46 

23 48 

23 50 

23 53 

23 55 

23 57 

23 59 
o z 

o 3 

o 5 
o 7 



■ 
2.27 

9.91 

17.53 

25-14 

32-74 

40-33 
47.92 

5550 

3-09 
10.69 

18.30 

25.92 

33-55 
41.21 

48.90 

56.61 

4-36 
12.14 
19.96 
27.82 

35-73 
43-69 
51-70 
59.76 



■ 
9,1975 

t.x37a 
3.1269 
S.X267 
S.X266 
8.1965 

9*176^ 

9.1964 

9.X966 
9. 1268 

9.X269 
9.I97X 

9.X974 
9.X979 

9.1983 
9.X288 

9.X994 

9.X300 

9.1307 
2.I3I4 

9.X393 
9.X33X 

a.X339 
a. 1348 



N. 



I 



9 

6 



I 20 

1 34 

I 48 

2 2 
2 16 



N. 



2 

2 
2 

3 

3 

3 

3 

4 

4 

4 

4 

5 

5 

5 

5 
6 

6 

6 



31 

45 

59 

13 

27 

41 

55 

9 

23 

37 

51 

4 
18 

32 

46 

o 

13 
27 



4.8 
16.7 
27.8 
38.2 

47-7 

56.3 

3.8 

10. 2 
15-5 

19-5 
22.2 

23-5 
23.2 
21.4 
18.0 
12.9 
6.0 

57-3 
46.6 

33-9 
19.2 

2.3 

43-1 
21.7 






10 


z 


12 


2 


14 


3 


16 


4 


18 


5 


20 


6 


22 


7 


25 


8 


27 


9 


29 


10 


31 


ZI 


33 


12 


35 


13 


38 


14 


40 


15 


42 


16 


44 


17 


46 


18 


48 


19 


50 


20 


53 


21 


55 


22 


57 


23 


59 


24 


z z 



SATURDAY 6. 

N. 6 
6 

7 

7 21 

7 34 

7 48 

8 I 
8 14 
8 28 
8 41 

8 54 

9 7 
9 20 

9 33 
9 46 
9 59 

10 12 

10 24 

10 37 
zo 50 

11 2 

" 15 

ZI 27 
iz 40 

N.ii 52 



7.88 


9.1358 


16.06 


9.1369 


24-31 


9.X380 


32.62 


a.i39x 


41.00 


2.1403 


49.46 


2.14x7 


58.00 


9.1429 


6.61 


a. 144a 


15-30 


2.X456 


24.08 


2.1470 


32.94 


9.X485 


41.90 


9.1500 


50.94 


9.15x5 


0.08 


9.x53a 


9.32 


2.X548 


18.65 


a. 1564 


28.09 


9.1582 


37.63 


9.1599 


47.28 


9.x6x8 


57.04 


9.X636 


6.91 


2.X654 


16.89 


9.X673 


26.99 


9.X693 


37.20 


9.17x3 


47-54 


a.x73S 



40 57.9 

54 31.6 
8 2.8 

31.4 

57-3 
20.5 

40.9 

58.3 

12.8 

24-3 
32.6 

37-8 

39.7 

38.3 

33-4 
25.1 

13.2 

57.7 
38.5 
15.6 
48.9 
18.3 

43-7 

5.0 

22.3 



X4.a03 
X4.>9a 
X4.X79 
X4.X66 
X4.X5X 

X4.X34 
X4.XX6 

14-098 
14. 078 
14.056 

14.033 
14. 008 

13.983 
X3.957 
X3.9a9 
X3.900 

13. 870 
X3.838 
13.805 
X3.77a 
13.737 
X3.699 
X3.669 

13.693 



X3.583 

X3.54X 
X3.498 
13.454 
X3.409 
13.363 

X3.3X5 
X3.266 
X3.ax7 
X3.X65 
13.113 

X3.059 
X3.004 

19.948 

19.890 

19. 833 

X2.77a 

X2.7XX 

X9.649 

X9.557 
19.593 
X9.457 
X9.389 
19. 393 

X3.353 



Hoar. 



O 
I 
2 

3 

4 

5 
6 

7 
8 

9 
10 

II 

12 

13 

14 

15 
16 

17 
18 

19 
20 

21 

22 
23 



O 

I 
2 

3 

4 

5 
6 

7 

8 

9 
10 

II 

12 

13 

14 

15 
16 

17 
18 

19 
20 

21 

22 

23 

24 



RiRht 
Ascensioa 



Diff. for 
X Minute. 



Declinatioa 



SUNDAY 7. 



h m 
I 

3 
6 

8 

10 

12 

14 

17 

19 
21 

23 

25 

28 

30 
32 
34 
36 

39 
41 
43 
45 
47 
50 
52 



t 


■ 




47.54 


3.1733 


N.I 


57.99 


3. 1759 




8.56 


a. 1773 




19.26 


3. 1794 




30.09 


3.18x5 




41.04 


a. 1835 




52.11 


3.X857 




3-32 


3.1879 




14.66 


S.I90X 




26.13 


3.X923 




37-73 


3.X945 




49-47 


3.X968 




1.34 


S.X990 




13-35 


3.2013 




25-49 


2.2036 




37-78 


2.2059 




50.20 


3.2082 




2.76 


3.2x05 




15.46 


2.2x28 




28.30 


3.3151 




41.27 


3.3174 




54-39 


3.3x99 




7.66 


3.2393 


J 


21.06 


9.3345 


N.I 



I 
z 
I 

2 
2 
2 

2 
2 
2 
2 
2 
2 
2 
2 
2 
2 
2 



54 
56 

59 
I 

3 

5 

7 
10 

12 

14 
16 

19 
21 

23 

25 

28 

30 
2 32 

2 35 
37 
39 
41 
44 
46 
48 



2 

2 

2 

a 
2 

2 



34.60 
48.28 
2. 1 1 
16.08 
30.18 

44-42 
58.81 

13-33 

27-99 
42.78 

57.71 
12.78 

27.98 

43.31 
58.78 

14.38 
30.10 

45.95 

1.93 
18.03 

34-26 

50.60 

7.07 

23.65 

40.35 



9.9968 

9.9993 
9.93x7 

3.3339 
3.3363 
3.3386 
3.3409 
3.3433 
3.3454 

«.a477 
3.9500 
9.9523 

9.2544 

9.9567 

9.9589 

9.96x0 
9.963X 
9.9653 
9.9673 
9.9694 
3.3714 

3.3734 
3.3754 

3.377s 
3.3793 



N. 



1 52 

2 4 
2 16 

2 28 



2 
2 

3 

3 

3 

3 

3 

4 

4 

4 

4 

4 

4 

5 

5 

5 

5 

5 
6 

6 



40 
52 

4 
16 

28 

39 

51 

2 

14 
25 
36 

47 

58 

9 
20 

31 
42 
52 
3 
13 



MONDAY 8. 



23 
34 

44 
54 
4 
13 
23 
33 
42 
52 
8 I 
8 10 
8 19 
8 a8 

8 37 
8 46 

8 55 



9 

9 

9 

9 

9 

9 

9 
N.20 



3 

12 

20 

28 

36 

44 

52 

o 



22.3 

35.4 
44-2 
48.7 

48.9 
44.6 

35.8 
22.4 

4.4 
41.6 

14.0 

41.6 

4.3 
22.0 

34.6 
42.1 

44-5 
41.6 

33.4 
19.9 

0.9 

36.5 

6.5 

30.9 



49.6 
2.6 

9.8 
II. 2 

6.7 
56.2 

39.7 
17. 1 

48.4 
13-5 
32.4 
45.0 
51.2 

51. 1 

44.5 

31.4 
II. 8 

45-6 
12.8 

33-3 
47-0 
54-0 
54.1 
47.4 
33-8 



DiSLfor 
x Minate. 



13.353 

X3.X83 

13. XXX 
X3.039 

XX.966 

XX.89X 
XX.8X5 
XX.738 
XI.660 
XX.580 
XX.500 

XX.4X9 
XX.337 
XX. 253 

XX.X68 
XX.083 
XO.996 
XO.908 
X0.8X9 
10.739 
10.638 
XO.547 
XO.453 

I0.3S9 



XO.S64 

XO.X68 

X0.073 

9*974 
9.875 

9.775 
9.674 
9.573 
9.470 

9.367 
9.363 

9.X57 
9.05X 
8.944 
8.836 
8.738 
8.6x8 
8.508 
8.398 
8.385 
8.173 
8.059 

7.945 
7.831 

7.7x5 



80 



MAY, 1899. 



VII. 











GREENWICH 


MEAN 


TIME. 















THE MOON'S 


RIGHT 


ASCENSION AND DECLINATION. 






Hour. 




Right 


DiflE. for 


Declinatioa 


DifE.for 


Hoar. 




Rii?ht 


Diff. for 


Declination. 


DifL for 


1 


Ascensioa 


z Minute. 






z Minute. 




Ascension. 


z Minute. 






z Minnte. 






T 


UESD^ 


lY 9. 










THURSDAY 11. 








b 


m ■ 


8 


• 


m 


m 




h 


zn s 


s 


• 9 


• 


m 


O 


2 


48 40.35 


a. 2793 


N.20 


33.8 


7.715 





4 


39 16.96 


a. 3054 


N.23 48 


1-4 


Z.648 


I 


2 


50 57.16 


a.28ix 


20 


8 13.2 


7.598 


I 


4 


41 35.25 


3.3043 


23 49 


36.3 


Z.518 


2 


2 


53 i4'08 


2.2828 


20 


15 45.6 


7.48a 


2 


4 43 53.47 


a. 3031 


23 51 


3-5 


Z.388 


3 


2 


55 31-10 


3.2846 


20 


23 II. 


7.364 


3 


4 


46 ZI.62 


3.30x8 


23 52 


22.8 


z.3s8 


4 


2 


57 48.23 


a. 2864 


20 


30 29.3 


7.246 


4 


4 


48 29.69 


3.3004 


23 53 


34.4 


z.iaS 


5 


3 


5-47 


2.a88i 


20 


37 40.5 


7.127 


5 


4 


50 47.67 


3.3990 


23 54 


38.2 


0.998 


6 


3 


2 22.80 


2.2897 


20 


44 44.5 


7.007 


6 


4 


53 5.57 


3.3976 


23 55 


34.2 


0.869 


7 


3 


4 40.23 


2.2913 


20 


51 41.3 


6.887 


7 


4 


55 23.38 


3.2960 


23 56 


22.5 


0.740 


8 


3 


6 57.76 


2.2929 


20 


58 30.9 


6.767 


8 


4 


57 41.09 


3.3943 


23 57 


3.0 


o.6z8 


9 


3 


9 15.38 


a.a944 


21 


5 13.3 


6.646 


9 


4 


59 58.70 


3.3937 


23 57 


35.9 


0.483 1 


10 


3 


II 33.09 


2.2958 


21 


II 48.4 


6.523 


10 


5 


2 16.21 


3.3909 


23 58 


I.O 


0.355 


II 


3 


13 50.88 


3.2973 


21 


18 16. 1 


6.4OZ 


II 


5 


4 33.61 


a. 3890 


23 58 


18.5 


0.827 


12 


3 


16 8.76 


2.2987 


21 


24 36.5 


6.278 


12 


5 


6 50.89 


•.387Z 


23 58 


28.2 


+ 0.098 


13 


3 


18 26.72 


2.3000 


21 


30 49.5 


6.155 


13 


5 


9 8.06 


a. 2852 


23 58 


303 


— 0.028 


14 


3 


20 44.76 


2.3012 


21 


36 55-1 


6.03Z 


14 


5 


11 25.11 


3.3833 


23 58 


24.8 


0.155 


15 


3 


23 2.86 


3.3023 


21 


42 53.2 


5.906 


15 


5 


13 42.04 


3.2810 


23 58 


11.7 


0.388 


i6 


3 


25 21.04 


a. 3036 


21 


48 43.8 


5.781 


16 


5 


15 58.83 


3.3788 


23 57 


51.0 


0.406 


17 


3 


27 39.29 


a. 3047 


21 


54 26.9 


5.656 


17 


5 


18 15.49 


8.3766 


23 57 


22.8 


0.533 


i8 


3 


29 57.60 


a. 3057 


22 


2.5 


5.530 


18 


5 


20 32.02 


a.^43 


23 56 


47.0 


0.659 


19 


3 


32 15.97 


8.3066 


22 


5 30.5 


5.403 


19 


5 


22 48.41 


3.3719 


23 56 


3.7 


0.784 


20 


3 


34 34.39 


a. 3075 


22 


10 50.9 


5.378 


20 


5 


25 4.65* 


a. 2695 


23 55 


12.9 


0.908 


21 


3 


36 52.87 


2.3083 


22 


16 3.8 


5.X51 


21 


5 


27 20.75 


3.2670 


23 54 


14.7 


X.033 . 


22 


3 


39 ".39 


a. 3091 


22 


21 9.0 


5.033 


22 


5 


29 36.69 


2.2644 


23 53 


9.0 


Z.Z57 


23 


3 


41 29.96 


2.3098 


N.22 


26 6.6 


4.895 


23 


5 


31 52.48 


2.a6i8 


N.23 51 


55.9 


z.38o 






WE 


DNESE 


>AY 10. 








F 


RIDAY 


12. 









3 


43 48.57 


a.3105 


N.22 


30 56.4 


4.767 





5 


34 8.10 


a. 3590 


N.23 50 35.4 


x.4tQ 


I 


3 


46 7.22 


a.3zzz 


22 


35 38.6 


4.639 


I 


5 


36 23.56 


3.2563 


23 49 


7.6 


1.535 


2 


3 


48 25.90 


a.3xx6 


22 


40 13. I 


4.5x1 


2 


5 


38 38.86 


3.2536 


23 47 


32.4 


1.647 


3 


3 


50 44.61 


2.3X2Z 


22 


44 39.9 


4.383 


3 


5 


40 53.99 


3.3508 


23 45 


49-9 


1.768 


4 


3 


53 3.35 


a.3135 


22 


48 59.0 


4.a53 


4 


5 


43 8.95 


3.3478 


23 44 


0.2 


1.889 


5 


3 


55 22.11 


3.3za8 


22 


53 10.3 


4.X23 


5 


5 


45 23.73 


2.3448 


23 42 


3.2 


8.009 


6 


3 


57 40.89 


3.3131 


22 


57 13.8 


3-994 


6 


5 


47 38.33 


3.3418 


23 39 


59.x 


a.z88 


7 


3 


59 59.68 


3.313a 


23 


I 9.6 


3.865 


7 


5 


49 52.75 


3.2388 


23 37 


47.8 


8.348 


8 


4 


2 18.48 


3.3133 


23 


4 57.6 


3.735 


8 


5 


52 6.98 


3.3356 


23 35 


29.3 


8.367 


9 


4 


4 37.28 


a. 3133 


23 


8 37.8 


3.605 


9 


5 


54 21.02 


2.2334 


23 33 


3.7 


8.48s 


lO 


4 


6 56.08 


3.3133 


23 


12 10.2 


3.475 


10 


5 


56 34.87 


3.3293 


23 30 


31. 1 


8.603 


II 


4 


9 14.88 


3.313a 


23 


15 34.8 


3.344 


II 


5 


58 48.53 


2.3360 


23 27 


51.4 


8.7Z9 


12 


4 


II 33.67 


3.S13Z 


23 


18 51.5 


3.313 


12 


6 


I 1.99 


3.3237 


23 25 


4.8 


«.835 


13 


4 


13 52.45 


8.3Z38 


23 


22 0.4 


3.083 


13 


6 


3 15.25 


8.3193 


23 22 


II. 2 


a. 951 


14 


4 


16 II. 21 


3.3135 


23 


25 1.5 


a. 953 


14 


6 


5 28.31 


3.3159 


23 19 


10.7 


S.066 


15 


4 


18 29.95 


a.sxaa 


23 


27 54.8 


a. 833 


15 


6 


7 41.16 


8.3Z34 


23 16 


3.3 


3.X80 


i6 


4 


20 48.67 


3.31x8 


23 


30 40.2 


3.691 


16 


6 


9 53-80 


3.3089 


23 12 


49.1 


3.993 


17 


4 


23 7.36 


3.31Z3 


23 


33 17.7 


3.56X 


17 


6 


12 6.23 


3.3054 


23 9 


28.1 


3.407 


i8 


4 


25 26.01 


3.3106 


23 


35 47.5 


3.43X 


18 


6 


14 18.45 


8.30Z9 


23 6 


0.3 


3.5«> 


19 


4 


27 44.63 


3.3099 


23 


38 9.4 


3.299 


19 


6 


16 30.46 


3.Z983 


23 2 


25.7 


3.633 


20 


4 


30 3.20 


3.3091 


23 


40 23.4 


3.Z69 


20 


6 


18 42.25 


a.z947 


22 58 


44.5 


3.74« 


1 ^^ 


4 


32 21.72 


3.3083 


23 


42 29.7 


«.039 


21 


6 


20 53.82 


8. Z9ZO 


22 54 


56.7 


3*853 


22 


4 


34 40.19 


a. 3073 


23 


44 28.1 


Z.908 


22 


6 


23 5.17 


8.Z873 


22 51 


2.2 


3.9^ 


23 


4 


36 58.60 


3.3064 


23 


46 18.6 


1.778 


23 


6 


25 16.29 


3. Z835 


22 47 


1.2 


4.071 


24 


4 


39 16.96 


3.3054 


N.23 


48 1.4 


Z.648 


24 


6 


27 27.19 


3. 1798 


N.22 42 


53.6 


4.t8o 



VliL 



MAT, 1899. 



81 



GREENWICH MEAN TTMR. 


THE MOON'S RIGHT ASCENSION AND DECLINATION. 


Hoar. 


Right 


Diff.for 


Declination. 


DilLfor 


1 

Honr. 


Right 


Diff.for 


DeclinatioiL 


Diftfor 




Ascension. 


I Minnte. 






X Minnte. 




AscensioiL 


X Minnte. 




X Minnte. 




SA 


TURD/ 


lY 13. 








MONDAY 15. 






h m s 


s 


• 


• 


• 




h m t 


8 


• t • 


• 


O 


6 27 27.19 


a. 1798 


N.22 42 


53.6 


4.X80 





8 7 29.38 


X.9894 


N.17 31 31.2 


8.504 


I 


6 29 37.86 


S.X760 


22 38 


39.6 


4.387 


I 


8 9 28.63 


X.9857 


17 22 58.8 


8.576 


2 


6 31 48.31 


S.1732 


22 34 


19.2 


4-394 


2 


8 II 27.66 


I.983X 


17 14 22.1 


8.647 


3 


6 33 58.52 


a. 1684 


22 29 


52-3 


4.50X 


3 


8 13 26.48 


X.9785 


X7 5 41.2 


8.7x7 


4 


6 36 8.51 


a. 1645 


22 25 


19. 1 


4.606 


4 


8 15 25.08 


1.9749 


16 56 56.1 


8.786 


5 


6 38 18.26 


a.z6o5 


22 20 


39-6 


4.7XX 


5 


8 17 23.47 


X.97X4 


16 48 6.9 


8.855 


6 


6 40 27.77 


8.ZS66 


22 15 


53.8 


4.8x4 


6 


8 19 21.65 


X.9678 


x6 39 X3.5 


8.933 


7 


6 42 37-05 


a.isa? 


22 II 


1.9 


4.9x8 


7 


8 21 19.61 


1.9643 


16 30 16. 1 


8.990 


8 


6 44 46.09 


a. 1487 


22 6 


3-7 


5.oax 


8 


8 23 17.37 


X.9609 


16 21 14.7 


9.057 


9 


6 46 54.89 


a. 1448 


22 


59-4 


5.133 


9 


8 25 14.92 


X.9575 


16 12 9.3 


9.X33 


lO 


6 49 3.46 


3.1408 


21 55 


49-0 


5.333 


10 


8 27 12.27 


1.9543 


16 2 59.9 


9.X89 


II 


6 51 11.78 


a. 1367 


21 50 


32.6 


5*334 


II- 


8 29 9.42 


1.9508 


15 53 46.6 


9.353 


12 


6 53 19.86 


a. 1337 


21 45 


10. 1 


5-424 


12 


8 31 6.37 


X.9475 


15 44 29.5 


9.3x7 


13 


6 55 27-70 


a.iaS7 


21 39 


41.7 


5.5a3 


13 


8 33 3.12 


X.9443 


15 35 8.6 


9.379 


14 


6 57 3530 


a. 1247 


21 34 


7-4 


5.63X 


14 


8 34 59.68 


X.94XX 


15 25 44.0 


9.44a 


15 


6 59 42.66 


a.iao6 


21 28 


27.2 


5.718 


15 


8 36 56.05 


X.9379 


15 16 15.6 


9.504 


i6 


7 I 49-77 


3.1x64 


21 22 


41-3 


5.8x4 


16 


8 38 52.23 


1.9348 


X5 6 43.5 


9.566 


17 


7 3 56.63 


8.1X33 


21 16 


49-5 


S.9" 


17 


8 40 48.22 


1.93x6 


X4 57 7.7 


9.626 


i8 


7 6 3.25 


8.1083 


21 10 


52.0 


6.006 


18 


8 42 44.02 


1.9386 


14 47 28.4 


9.685 


19 


7 8 9.63 


a. 1043 


21 4 


48.8 


6.100 


19 


8 44 39.65 


1.9357 


X4 37 45.5 


9.744 


20 


7 10 15.77 


8.1003 


20 58 


40.0 


6.X93 


20 


8 46 35.10 


1.9337 


14 27 59.1 


9.803 


21 


7 12 21.66 


3.0961 


20 52 


25.6 


6.387 


21 


8 48 30.37 


X.9197 


14 18 9.2 


9.861 


22 


7 14 27.30 


8.0930 


20 46 


5-6 


6.378 


22 


8 50 25.46 


1.9x68 


14 8 15.8 


9.9x8 


23 


7 16 32.70 
S 


«.o»79 

UNDAl 


N.20 39 

r 14. 


40.2 


6.468 


23 


8 52 20.39 
Tl 


1.9x40 

JESDA 


N.13 58 19.1 
Y 16. 


9.974 





7 x8 37.85 


8.0838 


N.20 33 


9-4 


A. 559 





8 54 15. X4 


X.9XX3 


N.13 48 19.0 


xo.oa9 


I 


7 20 42.75 


8.0797 


20 26 


33-1 


6.649 


I 


8 56 9.73 


X.9085 


13 38 15.6 


X0.084 


2 


7 22 47.41 


a.0757 


20 19 


51-5 


6.738 


2 


8 58 4.16 


X.9058 


13 28 8.9 


XO.X38 


3 


7 24 51.83 


8.0716 


20 13 


4.5 


6.837 


3 


8 59 58.43 


X.9033 


X3 X7 59.0 


xo.x9a 


4 


7 26 56.00 


a.0675 


20 6 


12.3 


6.914 


4 


9 X 52.54 


1.9006 


13 7 45-9 


xo.a46 


5 


7 28 59.93 


3.0635 


19 59 


14.8 


7. OCX 


5 


9 3 46.50 


X.898X 


X2 57 29.5 


X0.398 


6 


7 31 3.62 


3.0594 


19 52 


12.2 


7.087 


6 


9 5 40.31 


1.8956 


12 47 10. 1 


10.349 


7 


7 33 7.06 


«.055S 


19 45 


4-4 


7.X73 


7 


9 7 33.97 


X.893X 


12 36 47.6 


X0.40X 


8 


7 35 10.26 


8.05x3 


19 37 


51.5 


7. 857 


8 


9 9 27.48 


X.8907 


12 26 22.0 


X0.453 


9 


7 37 13.22 


8.0473 


19 30 


33-6 


7.340 


9 


9 II 20.85 


X.8883 


X2 15 53.4 


10.503 


lO 


7 39 15.94 


3.0434 


19 23 


10.7 


7.443 


10 


9 13 14.08 


X.886I 


12 5 21.8 


X0.55X 


II 


7 41 18.43 


a. 0394 


19 15 


42.9 


7.504 


II 


9 X5 7.X8 


X.8838 


XI 54 47.3 


X0.598 


12 


7 43 20.67 


8.0353 


19 8 


10.2 


7.586 


12 


9 X7 0.14 


x.88x6 


II 44 lO.O 


X0.646 


13 


7 45 22.67 


8.Q314 


19 


32.6 


7.667 


13 


9 18 52.97 


X.8795 


II 33 29.8 


X0.694 


14 


7 47 24.44 


a. 0375 


18 52 


50.2 


7.747 


14 


9 20 45.68 


X.8774 


II 22 46.7 


10.74a 


15 


7 49 25.97 


8.0836 


18 45 


3.0 


7.836 


15 


9 22 38.26 


X.8753 


II 12 0.8 


X0.788 


i6 


7 51 27.27 


8.0x97 


18 37 


II. I 


7.904 


16 


9 24 30.72 


1.8734 


II X 12.2 


X0.833 


17 


7 53 28.33 


8.0x58 


18 29 


14-5 


7-983 


X7 


9 26 23.07 


X.8715 


10 50 20.9 


X0.878 


i8 


7 55 29.17 


8.oxao 


18 21 


13-3 


8.058 


18 


9 28 15.30 


X.8696 


10 39 26.9 


X0.938 


19 


7 57 29.77 


8.008Z 


18 13 


7.5 


8.X35 


19 


9 30 7.42 


X.8678 


10 28 30.3 


10.965 


20 


7 59 30.14 


a.0043 


18 4 


57- X 


8.3X0 


20 


9 31 59.44 


X.866X 


10 17 31.1 


XX.008 


21 


8 I 30.29 


8.0006 


17 56 


42.3 


8.384 


21 


9 33 51-35 


X.8643 


10 6 29.3 


XX.05X 


22 


8 3 30.21 


1.9968 


17 48 


23.0 


8.358 


22 


9 35 43.16 


1.8637 


9 55 25.0 


XX.093 


23 


8 5 29.90 


X.993X 


17 39 


59-3 


8.43a 


23 


9 37 34.87 


X.86XX 


9 44 18.2 


XX.X34 


24 

1 


8 7 29.38 


X.9894 


N.17 31 


31.2 


8.504 


24 


9 39 26.49 


X.8596 


N. 9 33 8.9 


XX.X74 



82 



MAY, 1899. 



IX. 













GREENWICH 


MEAN TIME. 














THE MOON'S RIGHT 


• 

ASCENSION AND DECLINATION. 




Honr. 




Right 


DiflLfor 


Declinatloa 


Diff. for 


Hoar. 


Right 


Diff. for 




Diff. for 


*A^^>4S ■ 


Atcentioo. 


X Minute. 




X Minnte. 




Ascensioa 


X Minute. 




X Minnte. 








WE 


DNESE 


)AY Z7. 






FRIDAY 


19. 






b 


in 


■ 


■ 


* • 


m 




h m s 


8 


m t m 


• 


o 


9 


39 


26.49 


X.8596 


N. 9 33 8.9 


XX.X74 





II 8 5.35 


X.8586 


N. z 35.Z 


xa.4C8 


z 


9 


41 


18.02 


x.SsSz 


9 21 57-3 


XX. 3x3 


z 


II 9 56.91 


x.86oa 


S. zo 49.4 


ia.4X3 


2 


9 


43 


9.46 


1.8367 


9 10 43.3 


XX. 253 


2 


II II 48.57 


X.8618 


23 14.5 


xa.4a3 


3 


9 


45 


0.82 


1.8553 


8 59 26.9 


xx.a93 


3 


II 13 40.33 


X.8636 


35 40.2 


xa.433 


4 


9 


46 


52.10 


X.8540 


8 48 8.2 


XX. 330 


4 


II 15 32.20 


X.8654 


48 6.4 


xa.440 


5 


9 


48 


43-30 


1.8538 


8 36 47.3 


X1.368 


5 


II 17 24.18 


X.8673 


z 33.0 


X8.447 


6 


9 


50 


34-43 


1.85x6 


8 25 24.1 


X1.405 


6 


II 19 16.27 


X.8691 


z 13 0.0 


xa.453 


7 


9 


52 


25.49 


X.8505 


8 13 58.7 


X1.44X 


7 


II 21 8.47 


X.87XX 


I 25 27.4 


xa.459 


8 


9 


54 


16.49 


X.8494 


8 2 31.2 


XX.477 


8 


II 23 0.80 


X.8733 


I 37 55.1 


X3.464 


9 


9 


56 


7-42 


1.8484 


7 51 1-5 


XX. SIS 


9 


zz 24 53.26 


X.8753 


I 50 23. z 


xa.469 


10 


9 


57 


58.30 


X.8475 


7 39 29.8 


XX. 546 


zo 


ZI 26 45.84 


X.8775 


2 2 51.4 


x«.473 


II 


9 


59 


49.12 


X.8465 


7 27 56.0 


XX. '581 


ZI 


II 28 38.56 


X.8798 


2 15 19.8 


xa.476 


12 


10 


z 


39.88 


1.8457 


7 16 20.1 


XX. 6x4 


Z2 


II 30 31.42 


x.88aa 


2 27 48.5 


xa.478 


13 


zo 


3 


30.60 


X.8450 


7 4 42.3 


IX. 646 


13 


ZI 32 24.42 


X.8846 


2 40 17.2 


xa.479 


14 


lO 


5 


21.28 


X.8443 


6 53 2.6 


XX. 678 


14 


II 34 17.57 


X.8370 


2 52 46.0 


ia.480 


15 


lO 


7 


11.91 


X.8436 


6 41 20.9 


11.710 


15 


II 36 10.86 


X.8895 


3 5 14.8 


xa.480 


i6 


10 


9 


2.51 


1.8431 


6 29 37.4 


XI.74X 


16 


II 38 4.31 


x.Sgaa 


3 17 43.6 


xa.479 


17 


10 


10 


53.08 


x.84a6 


6 17 52.0 


11.77a 


17 


II 39 57.93 


X.8949 


3 30 12.3 


xa.478 


i8 


lO 


12 


43.62 


i.84ax 


6 6 4.8 


XX. Sox 


z8 


II 41 51.70 


X.8976 


3 42 40.9 


x«.475 


19 


lO 


14 


34.13 


1.84x7 


5 54 15.9 


XI. 830 


19 


II 43 45.64 


X.9004 


3 55 9.3 


xa.471 


20 


10 


16 


24.62 


X.8414 


5 42 25.2 


XI. 859 


20 


II 45 39.75 


X.9033 


4 7 37-4 


xa.467 


21 


lO 


18 


15.10 


X.84X2 


5 30 32.8 


IX. 887 


21 


II 47 34.04 


1.9063 


4 20 5.3 


xa.463 


22 


lO 


20 


5.56 


X.8409 


5 18 38.8 


XX.9I3 


22 


IZ 49 28.51 


1.9093 


4 32 32.9 


xa.457 


23 


lO 


21 


56.01 


X.8408 


N. 5 6 43.2 


XX.940 


23 


zz 51 23.16 


x.9ia4 


S. 4 45 0.Z 


ia.450 








TK 


lURSDi 


\Y z8. 






SA 


TURD^ 


LY 20. 




O 


10 


23 


46.45 


X.8407 


N. 4 54 46.0 


XX. 966 





zz 53 18.00 


X.9X56 


S. 4 57 26.9 


n.443 


I 


ZO 


25 


36.89 


X.8407 


4 42 47.3 


XX.993 


z 


II 55 13.03 


X.9188 


5 9 53.2 


xa.434 


2 


zo 


27 


27.33 


X.8408 


4 30 47.0 


X3.0I7 


2 


II 57 8.26 


x.93aa 


5 22 19.0 


xa.4a6 


3 


lO 


29 


17.78 


X.8409 


4 18 45.3 


xa.041 


3 


II 59 3.69 


i.9a55 


5 34 44.3 


xa.4x6 


4 


10 


31 


8.24 


X.84XX 


4 6 42.1 


xa.065 


4 


12 59.32 


X.9290 


5 47 8.9 


xa.404 


5 


lO 


32 


58.71 


1.84x3 


3 54 37.5 


xa.o88 


5 


12 2 55.17 


x.93a5 


5 59 32.8 


xa.s93 


6 


10 


34 


49.20 


X.84X7 


3 42 31.6 


xa.xxo 


6 


12 4 51.22 


X.9360 


6 II 56.0 


xa.380 


7 


lO 


36 


39.71 


X.8490 


3 30 24.3 


xa.x33 


7 


Z2 6 47.49 


X.9397 


6 24 18.4 


«a.367 


8 


lO 


38 


30.24 


x.84a4 


3 18 15.8 


X3.I53 


8 


Z2 8 43.98 


X.9434 


6 36 40.0 


ia.353 


9 


lO 


40 


20.80 


X.8499 


3 6 6.0 


xa.175 


9 


Z2 10 40.70 


X.9473 


6 49 0.7 


xa.S37 


10 


lO 


42 


11-39 


X.8435 


2 53 55.0 


X3.I93 


10 


12 12 37.65 


X.95XX 


7 I 20.4 


xa.3ao 


II 


zo 


44 


2.02 


x.844a 


2 41 42.8 


ia.ax3 


II 


12 14 34.83 


X.9550 


7 13 39.1 


xa.303 


12 


zo 


45 


52.69 


X.8449 


2 29 29.5 


xa.231 


12 


12 16 32.25 


X.9590 


7 25 56.8 


xa.a86 


13 


zo 


47 


43.41 


X.8457 


2 17 15.1 


xa.a49 


13 


12 18 29.91 


X.9631 


7 38 13.4 


xa.a66 


14 


lO 


49 


34.17 


x.8465 


2 4 59.6 


X3.a67 


14 


12 20 27.82 


x.967a 


7 50 28.7 


ia.t45 


15 


lO 


51 


24.99 


X.8474 


z 52 43.1 


xa.383 


15 


12 22 25.98 


X.97X3 


8 2 42.8 


la.aas 


i6 


10 


53 


15.86 


X.848S 


I 40 25.6 


xa.299 


16 


12 24 24.38 


X.9756 


8 14 55.7 


xa.ao4 


17 


lO 


55 


6.79 


1.8494 


I 28 7.2 


ia.315 


17 


12 26 23.05 


X.9800 


8 27 7.3 


xa.xSi 


i8 


lO 


56 


57.79 


1.8505 


I 15 47.8 


xa.330 


18 


12 28 21.98 


X.9S43 


8 39 17.4 


ia.156 


19 


zo 


58 


48.85 


1.85x7 


z 3 27.6 


xa.343 


19 


12 30 21.17 


1.9S88 


8 51 26.0 


xa.131 


20 


IZ 





39.99 


1.8529 


51 6.6 


xa.S57 


20 


12 32 20.63 


X.9933 


9 3 33.1 


13.105 


21 


ZI 


2 


31.20 


X.8543 


38 44.8 


xa.370 


21 


12 34 20.36 


X.9978 


9 15 38.6 


X2.078 


22 


zz 


4 


22.50 


X.8557 


26 22.2 


xa.s83 


22 


12 36 20.37 


a. 0025 


9 27 42.5 


xa.osi 


23 


ZI 


6 


Z3.88 


X.8571 


13 58.9 


xa.395 


23 


12 38 20.66 


s.oo7a 


9 39 44.7 


xa.oaa 


24 


IZ 


8 


5.35 


x.8s86 


N. I 35.1 


xa.403 


24 


12 40 21.23 


t.0119 


S. 9 51 45.1 


XX.991 



X. 



MAT, 1899. 



83 













GREENWICH 


MEAN TIME. 








1 








THE MOON'S 


RIGHT 


ASCENSION AND DECLINATION. 






Hoar. 




Wght 


Diftfor 


DeclinatiozL 


Diff.for 


Hour. 


Right 


Diff. for 


Decline tian. 


Diff. for 




Ascension. 


z Minute. 






zMinate. 




Ascenaioa 


1 Minute. 






xMinato. 








S 


UNDA^ 


' 21. 








TUESDAY 23. 


> 






h 


m 


fl 


• 


• 


9 » 


m 




h m t 


■ 


• 


t m 


m 


O 


12 


40 


21.23 


t.oiz9 


S. 9 


51 45.1 


II.99X 





14 23 27.63 


9.9999 


S.18 


29 40.2 


9.089 


z 


12 


42 


22.09 


a. 0x68 


10 


3 43.6 


IX.959 


I 


14 25 45.83 


9.3067 


18 


38 42.3 


8.987 


a 


12 


44 


23.25 


s.oai8 


ID 


15 40.2 


11.927 


2 


14 28 4.43 


9.3x33 


18 


47 38.6 


8.891 


3 


12 


46 


24.70 


9.0967 


10 


27 34-8 


XX. 893 


3 


14 30 23.43 


9.3900 


18 


56 29.2 


8.793 


4 


12 


48 


26.45 


t.Q3i7 


10 


39 27.4 


XX. 858 


4 


14 32 42.83 


9.3968 


19 


5 13.8 


8.693 


5 


12 


50 


28.50 


S.0368 


10 


51 17.8 


11.893 


5 


14 35 2.64 


9.3335 


19 


13 52.4 


8.593 


6 


12 


52 


30.86 


9.0419 


II 


3 6.1 


11.787 


6 


14 37 22.85 


8.3409 


19 


22 25.0 


8.499 


7 


12 


54 


33.53 


9.0473 


II 


14 52.2 


11.748 


7 


14 39 43.46 


8.3468 


19 


30 51.4 


8.388 


8 


12 


56 36.52 


9.0594 


II 


26 35.9 


11.709 


8 


14 42 4.47 


9.3534 


19 


39 II. 5 


8.983 


9 


12 


58 


39.82 


9.0578 


II 


38 17.3 


11.669 


9 


14 44 25.87 


9.360X 


19 


47 25.3 


8.X77 


lO 


13 





43.45 


9.0639 


II 


49 56.2 


11.638 


10 


14 46 47.68 


9.3668 


19 


55 32.7 


8.068 


II 


13 


2 


47.40 


9.068s 


12 


I 32.6 


11.584 


II 


14 49 9.88 


9.3733 


20 


3 33.5 


7.958 


12 


13 


4 


51-67 


9.0740 


12 


13 6.3 


11.540 


12 


14 51 32.48 


9.3800 


20 


II 27.6 


7.847 


13 


13 


6 


56.28 


9.0796 


12 


24 37-4 


11.496 


13 


14 53 55.48 


9.3865 


20 


19 15.1 


7.734 


14 


13 


9 


1.22 


9.0859 


12 


36 5.8 


11.449 


14 


14 56 18.86 


9.3930 


20 


26 55.7 


7.6ao 


15 


13 


II 


6.50 


9.0908 


12 


47 31-3 


I1.40Z 


15 


14 58 42.64 


9.3996 


20 


34 29.5 


7.505 


i6 


13 


13 


12.12 


9.0966 


12 


58 53.9 


11.353 


16 


15 I 6.81 


9.4060 


20 


41 56.3 


7.388 


17 


13 


15 


18.09 


8.1093 


13 


10 13.6 


11.303 


17 


15 3 31.36 


9.4194 


20 


49 16. 1 


7.970 


i8 


13 


17 


24.40 


9.Z089 


13 


21 30.3 


11.959 


18 


15 5 56.30 


9.4x88 


20 


56 28.7 


7.X49 


19 


13 


19 


31-07 


9.XZ4I 


13 


32 43.8 


IX. 199 


19 


15 8 21.62 


8.4959 


21 


3 34.0 


7.038 


20 


13 


21 


38.09 


9.XI99 


13 


43 54.2 


11.146 


20 


15 10 47.32 


3«43X4 


21 


10 32.1 


6.906 


21 


13 


33 


45.46 


9.Z958 


13 


55 1.3 


11.091 


21 


15 13 13.39 


a.4377 


21 


17 22.7 


6.789 


22 


13 


25 


53.19 


9.13x8 


14 


6 5.1 


11.034 


22 


15 15 39.84 


3*4439 


21 


24 5.9 


6.657 


a3 


13 


28 


1.28 


«.X379 


S.14 


17 5.4 


10.976 


23 


15 18 6.66 


9.450X 


S.2I 


30 41.5 


6.599 








M 


0NDA1 


{ 22. 








WE] 


DNESD 


AY 24. 




o 


13 30 


9.74 


9.1440 


S.14 


28 2.2 


10.917 





15 20 33.85 


9.456a 


S.21 


37 9.4 


6.4OX 


I 


13 


32 


18.56 


9.Z509 


14 


38 55.4 


10.857 


I 


15 23 1.40 


9.4629 


21 


43 29.6 


6.971 


2 


13 


34 


27.76 


9.1564 


14 49 45.0 


X0.795 


2 


15 25 29.31 


9.46?x 


21 


49 41.9 


6.X39 


3 


13 


36 


37-33 


9.1696 


15 


30.8 


X0.733 


3 


15 27 57.57 


9.4740 


21 


55 46.3 


6.007 


4 


13 


38 


47.27 


9.X688 


15 


II 12.9 


Z0.668 


4 


15 30 26.19 


9.4798 


22 


I 42.7 


5.873 


5 


13 


40 


57.58 


9.X75I 


15 


21 51.0 


XO.609 


5 


15 32 55.15 


9.4856 


22 


7 31.1 


5.738 


6 


13 


43 


8.28 


9.1815 


15 


32 25.1 


10.534 


6 


15 35 24.46 


9.49x3 


22 


13 11.3 


S.609 


7 


13 


45 


19.36 


9.1878 


15 


42 55.1 


10.466 


7 


15 37 54.10 


9.4968 


22 


18 43.3 


5.463 


8 


13 


47 


30.82 


9.1943 


15 


53 21.0 


10.396 


8 


15 40 24.08 


9.5024 


22 


24 6.9 


5.394 


9 


13 


49 


42.67 


9.9007 


16 


3 42.6 


10.395 


9 


15 42 54.39 


9.5078 


22 


29 22.2 


5.184 


lO 


13 


51 


54.90 


9. 9071 


16 


14 0.0 


10.953 


10 


15 45 25.02 


9.5139 


22 


34 29.0 


S.043 


II 


13 


54 


7.52 


9.9x36 


16 


24 12.9 


10. 178 


II 


15 47 55.97 


9.5185 


22 


39 27.3 


4.9OX 


12 


13 


56 


20.53 


9.9909 


16 


34 21.3 


10.Z09 


12 


15 50 27.24 


9.5937 


22 


44 17.1 


4.757 


13 


13 


58 


33.94 


9.9968 


16 


44 25.1 


10.095 


13 


15 52 58.81 


9.5288 


22 


48 58.1 


4.C11 


14 


14 





47.74 


9.9333 


16 


54 24.3 


9.947 


14 


15 55 30.69 


a. 5338 


22 


53 30.4 


4.464 


15 


14 


3 


1.93 


9.9398 


17 


4 18.7 


9.867 


15 


15 58 2.86 


9.5387 


22 


57 53.8 


4.317 


i6 


14 


5 


16.52 


9.946s 


17 


14 8.3 


9.785 


16 


16 35.33 


9.5435 


23 


2 8.4 


4.X68 


17 


14 


7 


31.51 


9.9539 


17 


23 52.9 


9.70a 


17 


16 3 8.08 


9.548a 


23 


6 14.0 


4.018 


i8 


14 


9 


46.90 


8.9598 


17 


33 32.5 


9.618 


18 


i6 5 41. II 


a.55a8 


23 


10 10.6 


3.868 


19 


14 


12 


2.69 


9.9664 


17 


43 7.1 


9.533 


19 


16 8 14.41 


2.5573 


23 


13 58.1 


3.7x5 


20 


14 


14 


18.87 


9.9731 


17 


52 36.5 


9.44s 


20 


16 10 47.98 


9. 5616 


23 


17 36.4 


3.563 


21 


14 


16 


35-46 


9.9798 


18 


2 0.5 


9.356 


21 


16 13 21.80 


9.5658 


23 


21 5.6 


3.409 


22 


14 


18 


52.45 


8.986s 


18 


II 19.2 


9.267 


22 


16 15 55.88 


9.5701 


23 


24 25.5 


3.954 


23 


14 


21 


9-84 


9.9939 


18 


20 32.5 


9.175 


23 


16 18 30.21 


a.574x 


23 


27 36.1 


3.099 


«4 


14 


23 


27.63 


••0999 


S.18 


29 40.2 


9.0B9 


24 


16 21 4.77 


a. 5779 


S.23 


30 37.4 


8.943 



84 



MAT, 1899. 



XL 



1 




























1 












GREENWICH 


MEAN 


TIME. 
















THE MOON'S RIGHT 


ASCENSION AND DECLINATION. 






Hour. 


Right 
Ascensioa 


Diflf.for 
z Minute. 


Declinatioa 


Diff. for 
I Minute. 


Hoar. 


Right 
Ascenaioa 


DiflP. for 
X Minute. 


Declinadoa 


Diff. for 
I Minute. 








TK 


lURSDi 


HY 25. 










SATURDAY 27. 








h 


m 


■ 


■ 


* 


m 


m 




h 


m s 


■ 


• t 


m 


m 


O 


l6 


21 


4.77 


a. 5779 


S.23 30 


37.4 


a.94S 





18 


26 44.04 


a. 6034 


S.22 42 


7.0 


4.978 


I 


l6 


23 


39.56 


«.58i7 


23 33 


29.2 


a.784 


I 


18 


29 20.16 


3.6006 


22 37 


3.6 


5.137 


2 


l6 


26 


14.58 


a. 5854 


23 36 


11.5 


3.626 


2 


18 


31 56.11 


a. 5976 


22 31 


50.6 


S.a94 


3 


i6 


28 


49.81 


t.5889 


23 38 


44.3 


3.467 


3 


18 


34 31.87 


a. 5945 


22 26 


28.3 


5.450 


4 


i6 


31 


25.25 


a.59«3 


23 41 


7.5 


2.307 


4 


18 


37 7.45 


a. 5914 


22 20 


56.6 


5.607 


5 


i6 


34 


0.89 


a. 5957 


23 43 


21. 1 


3.146 


5 


18 


39 42.84 


3.5883 


22 15 


15.5 


5.76a 


6 


i6 


36 36.73 


a. 5988 


23 45 


25.0 


X.984 


6 


18 


42 18.03 


3.5848 


22 9 


25.2 


5.915 


7 


i6 


39 


12.75 


8.60x8 


23 47 


19.2 


1.833 


7 


18 


44 5302 


3.5814 


22 3 


25.7 


6.068 


8 


i6 


41 


48.95 


a. 6047 


23 49 


3.7 


Z.660 


8 


18 


47 27.80 


3.5778 


21 57 


17. I 


6.8x9 


9 


i6 


44 


25.31 


a. 6074 


23 50 


38.4 


X.496 


9 


18 


50 2.36 


a. 5741 


21 50 


59.4 


6.370 


10 


i6 


47 


1.84 


a.6xoz 


23 52 


3.2 


x.33a 


10 


18 


52 36.69 


a. 5703 


21 44 


32.7 


6.530 


II 


i6 


49 


38.52 


a.Gzas 


23 53 


18.2 


X.X68 


II 


18 


55 10.80 


3.5665 


21 37 


57.0 


6.668 


12 


i6 


52 


15.34 


a. 6x48 


23 54 


23.3 


Z.003 


12 


18 


57 44.67 


3.5626 


21 31 


12.5 


6.8x6 


13 


i6 


54 


52.30 


a.6171 


23 55 


18.5 


0.837 


13 


19 


18.31 


2.5586 


21 24 


19.1 


6.963 


14 


i6 


57 


2939 


a.6i9x 


23 56 


3.7 


0.670 


14 


19 


2 51.70 


a. 5544 


21 17 


17.0 


7.X07 


15 


17 





6.59 


a. 6209 


23 56 38.9 


0.504 


15 


19 


5 24.84 


a. 5503 


21 10 


6.3 


7.351 


i6 


17 


2 


43.90 


3.6aa7 


23 57 


4.2 


0.338 


16 


19 


7 57.73 


3.5460 


21 2 


46.9 


7.394 


17 


17 


5 


21.32 


a.6244 


23 57 


19.4 


0.X70 


17 


19 


10 30.36 


3.5417 


20 55 


19.0 


7.536 


i8 


17 


7 


58.83 


a.G358 


23 57 


24.6 


— o,ooa 


18 


19 


13 2.73 


a. 5373 


20 47 


42.6 


7.676 


19 


17 


10 


36.42 


a.6a7a 


23 57 


19.7 


+ 0.166 


19 


19 


15 3483 


a.53a8 


20 39 


57.9 


7.8x4 


20 


17 


13 


14.09 


a. 6083 


23 57 


4.7 


0.333 


20 


19 


18 6.66 


3.5383 


20 32 


4.9 


7.95a 


21 


17 


15 


51.82 


a. 6294 


23 56 


39.7 


0.50X 


21 


19 


20 38.21 


3.5336 


20 24 


3.7 


8.088 


22 


17 


18 


29.62 


a. 6303 


23 56 


4.6 


0.669 


22 


19 


23 9.49 


8.5x89 


20 15 


54.3 


8.333 


a3 


17 


21 


7.46 
P 


a. 63x0 
'RIDAY 


S.23 55 

26. 


19.4 


0.838 


23 


19 


25 40.48 
S 


3.5X4X 

UNDA\ 


S.20 7 

' 28. 


36.9 


8.358 


o 


17 


23 


45.34 


a. 63x6 


S.23 54 


24.0 


X.007 





19 


28 II. 18 


a. 5093 


S.19 59 


II.4 


8.490 


I 


17 


26 


23.25 


a. 6331 


23 53 


18.5 


X.175 


I 


19 


30 41.60 


a. 5045 


19 50 


38.1 


8.630 


2 


17 


29 


1. 19 


a. 6334 


23 52 


3.0 


1.343 


2 


19 


33 11.72 


a. 4996 


19 41 


57.0 


8.749 


3 


17 


31 


39.14 


a. 6325 


23 50 37.3 


1.5x3 


3 


19 


35 41.55 


a. 4947 


19 33 


8.2 


8.877 


4 


17 


34 


17.09 


a.6325 


23 49 


1.5 


I.68Z 


4 


19 


38 11.08 


a.4897 


19 24 


II. 8 


9.003 


5 


17 


36 


55.04 


a. 6333 


23 47 


15.6 


X.850 


5 


19 


40 40.31 


8.4847 


19 15 


7.8 


9.138 


6 


17 


39 


32.97 


a. 6330 


23 45 


19.5 


3.018 


6 


19 


43 9.24 


a.4797 


19 5 


56.4 


9.353 


7 


17 


42 


10.88 


3.63x7 


23 43 


13.4 


a.x8s 


7 


19 


45 37.87 


3.4746 


18 56 


37.6 


9.374 


8 


17 


44 


48.77 


a.6311 


23 40 


57.3 


a. 353 


8 


19 


48 6.19 


8.4694 


18 47 


11.5 


9«495 


9 


17 


47 


26.61 


a. 6303 


23 38 


31.0 


3.523 


9 


19 


50 34.20 


3.4643 


18 37 


38.2 


9.6x3 


lO 


17 


50 


4.41 


3.6396 


23 35 


54.7 


3.688 


10 


19 


53 1.90 


a.459x 


18 27 


57.9 


9.73X 


II 


17 


52 


42.16 


3.6a86 


23 33 


8.4 


3.855 


II 


19 


55 29.29 


a.4539 


18 18 


10.5 


9.848 


12 


17 


55 


19.84 


a.6374 


23 30 


12. 1 


3.033 


12 


19 


57 56.37 


3.4487 


18 8 


16. 1 


9.963 


13 


17 


57 


57.45 


8.6a6x 


23 27 


5.8 


3.188 


13 


20 


23.13 


a. 44 33 


17 58 


15.0 


10.075 


14 


i8 





34.97 


3.6247 


23 23 


49.6 


3.353 


14 


20 


2 49.57 


a. 4379 


17 48 


7.1 


IO.Z87 


15 


i8 


3 


12.41 


a. 6333 


23 20 


23.4 


3.5x8 


15 


20 


5 15.70 


a. 4388 


17 37 


52.6 


10.396 


i6 


i8 


5 


49-75 


3.63X5 


23 16 


47.4 


3.683 


16 


20 


7 41.51 


3.4375 


17 27 


31.6 


10.404 


17 


i8 


8 


26.99 


3.6197 


23 13 


1-5 


3.848 


17 


20 


10 7.00 


a. 4333 


17 17 


4.1 


10.511 


i8 


i8 


II 


4. 1 1 


3.6177 


23 9 


5.7 


4.011 


18 


20 


12 32.17 


3.4168 


17 6 


30.3 


10.616 


19 


i8 


13 


41. II 


3.6156 


23 5 


0.2 


4.X73 


19 


20 


14 57.02 


3.4XX6 


16 55 


50.2 


XO.730 


20 


i8 


16 


17.98 


3.6x34 


23 


44.9 


4.336 


20 


20 


17 21.56 


3.4063 


16 45 


3.9 


10.833 


21 


i8 


18 


54-72 


3.6XZZ 


22 56 


19.9 


4.498 


21 


20 


19 45.78 


3.40x0 


16 34 


11.5 


10.933 


22 


i8 


21 


31.31 


3.6086 


22 51 


45.2 


4.658 


22 


20 


22 9.68 


3.3957 


16 23 


13*2 


xx.oaa 


23 


i8 


24 


7-75 


3,6o6x 


22 47 


0.9 


4.8x8 


23 


20 


24 33.26 


a.3903 


16 12 


8.9 


XX.IZ9 


«4 


i8 


26 


44.04 


3.6(^ 


S.22 42 


7.0 


4.978 


24 


20 


26 56.52 


a. 3850 


S.16 


58.9 


ii.tX4 



XII. 



MAY, 1899. 



85 



GREENWICH MEAN TIME. 



THE MOON'S RIGHT ASCENSION AND DECLINATION. 



Hour. 



O 

I 
2 

3 

4 

5 
6 

7 

8 

9 

lO 

II 

12 

13 

14 

15 
i6 

17 
i8 

19 

20 
21 
22 

23 



O 

I 
2 

3 

4 

5 
6 

7 

8 

9 

lO 

II 

12 

13 

14 

15 
i6 

17 
i8 

19 

20 
21 
22 

23 
24 



RiRht 

Ascension. 



Diff.for 
z Minate. 



Declination. 



Diff.for 
X Minate. 



MONDAY 29. 



h m 
20 26 

20 29 

20 31 

20 34 
20 36 
20 38 
20 41 

20 43 
20 45 
20 48 
20 50 
20 52 
20 55 
20 57 

20 59 

21 2 
21 4 
21 6 
21 9 
21 II 
21 13 
21 15 
21 18 
21 20 



21 
21 
21 
21 
21 
21 
21 
21 
21 
21 
21 
21 

21 
21 
21 
21 
21 
22 
22 
22 
22 
22 
22 
22 
22 



22 

24 
27 

29 
31 

33 
36 

38 
40 
42 

45 
47 
49 
51 
54 
56 
58 
o 
2 

4 

7 

9 
II 

13 
15 



■ 


s 


• » 


• 


m 


56.52 


3.3850 


S.16 


58.9 


ZZ.3X4 


19.46 


a. 3798 


15 49 


43.2 


IX.309 


42.09 


a. 3745 


15 38 


21.8 


XX. 403 


4.40 


3.3699 


15 26 


55.0 


IX. 493 


26.39 


2.3639 


15 15 


22.7 


XI. 583 


48.07 


a. 3588 


15 3 


45.1 


11.670 


9.44 


3.3536 


14 52 


2.3 


11.756 


30.50 


a. 3483 


14 40 


14.4 


IX. 840 


51.24 


3.343a 


14 28 


21.5 


11.933 


11.68 


3.338X 


14 16 


23.6 


X3.005 


31.81 


a. 3329 


14 4 


20.9 


13.085 


51.63 


3.3378 


13 52 


13.4 


13.164 


II. 14 


3.3aa8 


13 40 


1.2 


13.340 


30.36 


3.3178 


13 27 


44.6 


13.314 


49.27 


3.3x38 


13 15 


23.5 


13.388 


7.89 


3.3078 


13 2 


58.0 


13.461 


26.21 


3.3029 


12 50 


28.2 


X3.53X 


44.24 


3.3980 


12 37 


54.3 


X8.599 


1.97 


a. 3933 


12 25 


16.3 


13.666 


19.42 


3.3885 


12 12 


34.4 


13.733 


36.59 


3.3838 


11 59 


48.5 


13.796 


53-47 


3.2790 


II 46 58.9 


13.858 


10.07 


3.3743 


II 34 


5.5 


13.9x9 


26.39 
Tl 


3.3698 
JESDA 


S.I I 21 
Y 30. 


8.6 


13.978 


42.44 


3.2653 


S.ii 8 


8.1 


I3.Q37 


58.22 


3.2607 


10 55 


4.2 


13.093 


13.72 


3.3563 


10 41 


57.0 


13.148 


28.96 


3.3518 


10 28 


46.5 


13.301 


43.94 


8.3475 


10 15 


32.9 


X3.a53 


58.66 


3.343a 


10 2 


16.2 


13.303 


13.12 


3.3390 


9 48 56.5 


X3.35a 


27.34 


3.3348 


9 35 


34.0 


13.398 


41.30 


8.3307 


9 22 


8.7 


13.444 


55.02 


8.3266 


9 8 


40.7 


13. 489 


8.49 


8.3336 


8 55 


lO.O 


X3.53a 


21.73 


8.8x87 


8 41 


36.9 


X3.573 


34.73 


8.3148 


8 28 


1.3 


13.6x3 


47.50 


3.3XZ0 


8 14 


23.4 


13.653 


0.05 


8.3073 


8 


43.1 


13.689 


12.37 


3.3035 


7 47 


0.7 


I3.7a3 


24.47 


3.1998 


7 33 


16.3 


13.758 


36.35 


8.X963 


7 19 


29.8 


13.79X 


48.02 


3.Z938 


7 5 


41.4 


13.833 


59.49 


3.1894 


6 51 


51.2 


13.853 


10.75 


3.X860 


6 37 


59.2 


13.88X 


21.81 


3.Z837 


6 24 


5.5 


13.908 


32.67 


a. 1794 


6 10 


10.3 


IS. 933 


43.34 


8.1763 


5 56 


13.6 


13.957 


53.82 


8.X731 


S. 5 42 


15.5 


IS.980 



Hoar. 



Right 
AscenaioiL 



DIff.for 
z Minute. 



DecUaatioa 



O 

I 
2 

3 

4 

5 
6 

7 

8 

9 
10 

II 

12 

13 

14 

15 
16 

17 

18 

19 
20 

21 

22 
23 



DULtot 
iMinstiL 



b m 
22 15 
22 18 
22 20 
22 22 
22 24 
22 26 
22 28 
22 31 
22 33 

22 35 
22 37 
22 39 
22 41 

22 43 
22 46 
22 48 
22 50 
22 52 
22 54 
22 56 

22 58 

23 O 



WEDNESDAY 31. 

S. 



23 
23 



3 
5 



53.82 

4. 1 1 

14.22 

24.16 

33.93 

43.53 

52.97 
2.25 

11.37 
20.34 

29.17 

37-85 
46.40 

54.81 

309 
11.25 
19.28 
27.20 
35.00 
42.70 
50.29 
57.78 

5.17 
12.47 



8.173X 

8. 1700 
8.X67I 
3.1643 
8.16x4 
8.X587 
3.1560 

8.1535 
8.X508 

8.148s 

8. 1459 
8.X436 
8.14x3 
8.X39X 

t.1370 
8.X349 
8.X339 

8. Z310 
8.1898 
8.1874 

8.1357 
8.1340 

8.X334 
8.X309 



S. 



5 
5 
5 
5 
4 
4 
4 
4 
3 
3 
3 

3 

2 

2 
2 
2 

I 
I 
I 
I 
I 
o 
o 
o 



42 

28 

14 

o 

46 

32 

18 

3 

49 

35 
21 

7 

53 

39 

24 
10 

56 
42 

28 

14 
o 

45 
31 
17 



15.5 
16.0 

15.3 

13.4 
10.5 

6.5 
Z.6 

55.9 

49.3 
42.1 

34.3 
26.0 

17.2 

8.1 

58.6 

49.0 

39.2 
29.3 

19.5 

9.7 
0.1 

50.7 
41.6 

32.9 



THURSDAY. JUNE i. 

23 7 19.68 I 3.XX95 [S. O 3 24.7 



13*980 

14. 008 
14.033 
14. 040 
14.058 

X4.O74 
14. 088 

I4.XO8 
X4.XI5 
14.135 

X4.X34 
X4.X43 
14.149 

X4.X55 
X4.X59 
X4.X63 
14.164 
14. 164 
X4.X63 
X4.X68 
14.158 

X4.154 
14.148 

14.X4X 



14.133 



PHASES OF THE MOON. 



d h m 
C Last Quarter • • . May a 5 46.7 

New Moon 95 38.7 

3) First Quarter X7 5 12.8 

O Full Moon 24 17 48.9 

C Last Quarter 31 10 54.6 

d b 
(^ Perigee •••••. May z 9.0 

C Apogee • • zs 21.4 

(^ Perigee ••....•• 27 18.9 



86 



MAY, 1899. 



xni 









GRKKNWICH MEAN TIME. 
















LUNAR DISTANCF/I. 












1" 


Name and Direction 
of Object 


Noon. 


P.L. 

of 

Diff. 


Illb* 


P.L. 

of 

DHL 


Vlh. 


P.L. 

of 

DHL 


IXh. 


P.L. 

of 
DHL 








m 9 m 




• ' V 




• t • 




m t m 




z 


Jupiter 

An tares 

Saturn 

aPegasi 

Vbnus 

Sun 


W. 
W. 
W. 
E. 
E. 
E. 


79 51 i8 
46 35 2 
31 29 13 
58 49 55 
70 56 18 
106 21 zz 


Moo 
2291 

t28o 

•476 
1700 

a6oa 


81 38 7 

48 21 15 

33 15 42 

57 8 8 

69 19 38 

Z04 42 Z9 


339X 
3379 
3484 

I^X 

3601 


83 24 57 
50 7 28 

35 2 12 

55 26 32 

67 43 

103 3 a6 


3366 

3390 

8379 

9493 

370a 

•60X 


85 II 46 

51 53 42 

36 48 43 

53 45 9 
66 6 23 

loi 24 33 


9366 

999X 

9378 

9509 

9793 
9601 


2 


Jupitbr 

Antares 

Saturn 

Venus 

Sun 


W. 
W. 
W. 
E. 
E. 


94 5 40 
60 44 43 

45 41 2Z 
58 3 50 
93 10 16 


0371 
•994 
1379 
37x4 
960s 


95 52 22 
62 30 52 
47 27 51 
56 27 29 
91 31 28 


3378 

3394 
8S8l 

3717 

9607 


97 39 3 
64 Z7 

49 14 19 
54 51 12 
89 52 42 


9373 
3396 

3381 

3720 

3607 


99 25 42 
66 3 6 
51 46 
53 14 59 
88 13 57 


9973 

9396 

99B3 
3734 
36x0 


3 


Antares 
Saturn 
Venus 
Sun 


W. 
W. 
E. 
E. 


74 53 5 

59 52 32 
45 15 i8 
80 49 


S30S 
3391 

3748 

36x9 


76 38 57 
6i 38 45 

43 39 42 

78 22 21 


9307 

3393 

9754 
362Z 


78 24 46 
63 24 56 
42 4 14 
76 43 54 


93x0 
3394 

376X 

3624 


80 ID 3Z 

65 " 4 
40 28 55 

75 5 31 


93x3 
9396 

3769 
3636 


4 


Antares 
Saturn 
a Aquilac 
Sun 


W. 
W. 
W. 
E. 


88 58 21 
74 50 
42 26 22 
66 54 36 


3336 
•3X1 
3548 
364a 


90 43 42 

75 46 34 

43 45 53 
65 16 38 


8339 
33x3 
3473 
3646 


92 28 59 

77 32 14 
45 6 47 
63 38 46 


9333 
33x7 
3408 

3650 


94 14 10 

79 17 49 
46 28 55 

62 59 


9337 
3330 

S330 

9654 


5 


Saturn 
a Aquilac 
Sun 


W. 
W. 
E. 


88 4 23 

53 34 4 
53 53 30 


«340 

3x43 
3678 


89 49 24 

55 X 22 

52 z6 20 


934S 

SX14 
3683 


91 34 18 
56 29 14 

50 39 17 


•S49 
3089 

3689 


93 19 6 

57 57 37 
49 2 22 


9354 
30« 
9694 


6 


a AqiiilflB 

Fomalhaut 

Sun 


W. 
W. 
E. 


65 25 24 
41 19 6 

40 59 50 


399X 

3574 
3738 


66 55 48 
42 38 9 
39 23 47 


398X 

3503 
9736 


68 26 24 
43 58 31 
37 47 55 


9974 
3441 
9744 


69 57 9 
45 20 z 
36 12 14 


9969 
S388 

9753 


7 


a Aqoilse 

Fomalhaut 

Sun 


W. 
W. 
E. 


77 32 9 
52 20 36 
28 z6 51 


9959 
3303 


79 3 13 
53 46 42 
26 42 28 


4969 

3x78 
3817 


80 34 14 

55 13 18 

25 8 22 


9964 

3x57 
3830 


82 5 12 
56 40 19 
23 34 33 


9968 

9x38 
9845 


zz 


Sun 

Mars 

Regains 


W. 
E. 

E. 


21 6 6 

59 46 44 
76 50 3 


3179 
3973 
2796 


22 32 40 

58 15 57 
75 15 30 


S185 
3986 
3808 


23 59 7 
56 45 27 
73 41 12 


3x93 

3999 
3819 


25 25 26 

55 15 13 
72 7 9 


3900 

9013 

9831 


Z2 


Sun 

Mars 

Regains 


W. 
E. 
E. 


32 34 25 
47 48 6 
64 20 44 


3247 
3078 
3889 


33 59 39 

46 19 29 

62 48 IZ 


3356 
3091 

9901 


35 24 42 

44 51 8 
61 Z5 53 


3366 
3104 
39x2 


36 49 33 
43 23 3 
59 43 49 


9376 
91x8 

9994 


13 


Sun 
Mars 
Regains 
Spica 


W. 
E. 
E. 
E. 


43 50 58 

36 6 41 

52 6 58 

106 5 3 


3334 
3184 

9977 
3936 


45 14 42 
34 40 13 
50 36 16 

104 33 55 


3339 
3x98 
3986 

996s 


46 38 16 

33 14 I 

49 5 46 

103 a 58 


3349 
32x2 

9997 
9973 


48 I 39 
31 48 6 

47 35 29 
loi 32 12 


9350 

9937 

9007 

9983 


14 


Sun 

Regains 
Spica 
Jupiter 


W. 
E. 
E. 
£. 


54 56 16 

40 7 7 

94 54 

Z04 42 Z2 


3388 

3054 
30x9 

•997 


56 18 46 

38 38 I 

92 31 5 
103 II 56 


S39S 

3064 

3036 

3003 


57 41 8 

37 9 7 
91 I 25 

lOI 41 47 


S40X 
S073 
3032 
3009 


59 3 23 

35 40 24 

89 31 52 
100 zz 46 


3498 
9083 

9099 
SM4 



XIV. 



MAY, 1899. 



87 







GREENWICH MEAN TIME. 










LUNAR DiSTANCKa 


og 


Name and Diroction 


Midnight 


P.L. 

of 


Vf^ 


P.L. 

of 


XVIIIh- 


P.L. 

of 


XXIh. 


P.L. 

of 




of Object. 






DifE. 




ma. 




ms. 






Diff. 






m t m 




• • m 




• t m 




• 


m 




Z 


JUPITBR 


W. 


86 58 35 


9207 


88 45 23 


3368 


90 32 10 


8368 


92 18 


56 


8370 




Antares 


w. 


53 39 55 


lagz 


55 26 8 


3391 


57 12 21 


839X 


58 58 


33 


3293 




Saturn 


w. 


38 35 15 


9378 


40 21 47 


3378 


42 8 19 


8379 


43 54 


50 


3379 




aPegasi 


£. 


52 4 


85X5 


50 23 7 


«5«7 


48 42 32 


954X 


47 2 


16 


3558 




Vbnus 


E. 


64 29 47 


•705 


62 53 14 


3707 


61 16 43 


3709 


59 40 


15 


97x1 




Sun 


E. 


99 45 40 


8603 


98 6 48 


3603 


96 27 56 


3603 


94 49 


5 


9604 


a 


Jupiter 


W. 


lOZ 12 18 


M77 


102 58 sa 


9379 


Z04 45 22 


838z 


106 31 


49 


3384 




Antares 


W. 


67 49 II 


aagS 


69 35 13 


3300 


71 21 13 


3309 


73 7 


10 


9303 




Saturn 


W. 


52 47 12 


S383 


54 33 36 


838s 


56 19 57 


9387 


58 6 


16 


3389 




Venus 


E. 


51 38 51 


9799 


50 2 49 


373a 


48 26 52 


3738 


46 51 


2 


3743 




Sun 


E. 


86 35 15 


fl6iz 


84 56 35 


86X3 


83 17 57 


3614 


81 39 


21 


86x7 


3 


Antares 


W. 


81 56 13 


93x5 


83 41 51 


•3X7 


85 27 25 


8330 


87 12 


55 


9333 




Saturn 


W. 


66 57 9 


3399 


68 43 10 


330Z 


70 29 8 


3304 


72 Z5 


I 


9307 




Venus 


E. 


38 53 46 


V77 


37 18 48 


3786 


35 44 2 


9797 


34 9 


30 


9808 




Sun 


E. 


73 27 12 


2639 


71 48 56 


3633 


70 10 45 


9635 


68 32 


38 


9639 


4 


Antares 


W. 


95 59 x6 


S34X 


97 44 16 


9344 


99 29 II 


9348 


loz 14 





9353 




Saturn 


W. 


81 3 19 


4384 


82 48 44 


8388 


84 34 3 


9339 


86 19 


16 


3336 




a Aquilac 


W. 


47 5a 9 


3398 


49 16 23 


S9S3 


50 4Z 30 


33X3 


5a 7 a5 


3»75 




Sun 


E. 


60 23 17 


3658 


58 45 41 


96ft 


57 8 II 


3667 


55 30 47 


3673 


5 


Saturn 


W. 


95 3 47 


9330 


96 48 20 


9364 


98 32 46 


3370 


100 17 


4 


9375 




a Aquilse 


W. 


59 26 28 


3<H7 


60 55 43 


3030 


62 25 19 


3015 


63 55 


13 


300X 




Sun 


E. 


47 25 34 


970Z 


45 48 55 


9707 


44 12 24 


97x3 


42 36 


2 


3731 


6 


a Aqoilse 


W. 


71 28 I 


•964 


72 58 59 


996X 


74 30 I 


9959 


76 I 


5 


9959 




Fomalhaut 


W. 


46 42 31 


3S4X 


48 5 55 


3999 


49 30 8 


3363 


50 55 


3 


393X 




Sun 


E. 


34 36 44 


VjCtL 


33 X 26 


9779 


31 26 21 


8783 


29 51 


29 


9799 


7 


a Aqoilse 


W. 


83 36 5 


9973 


85 6 51 


9979 


86 37 30 


9986 


88 8 





9994 




Fomalhaut 


W. 


58 7 43 


3133 


59 35 25 


3x09 


61 3 24 


3098 


62 31 


36 


9090 




Sun 


E. 


22 I 4 


i868 


20 27 56 


3880 


18 55 12 


9901 


17 22 


55 


3933 


zz 


Sun 


W. 


a6 51 35 


3309 


28 Z7 34 


33x8 


29 43 22 


3337 


31 8 


59 


3336 




Mars 


E. 


53 45 15 


3035 


52 15 33 


3039 


50 46 8 


3053 


49 16 


59 


3065 




Regulos 


E. 


70 33 22 


3843 


68 59 50 


•855 


67 26 33 


3866 


65 53 


31 


3878 


12 


Sun 


W. 


38 14 13 


3386 


39 38 41 


S99S 


41 2 58 


3306 


42 27 


3 


S3X4 




Mars 


E. 


41 55 15 


3I3I 


40 27 43 


3x43 


39 26 


3157 


37 33 


25 


3X7X 




Regulus 


E. 


58 12 


9934 


56 40 24 


9943 


55 9 2 


9953 


53 37 


53 


3966 


13 


Sun 


W. 


49 24 53 


3358 


50 47 57 


S366 


5a 10 52 


3374 


53 33 


38 


338X 




Mars 


£. 


30 22 29 


3343 


28 57 10 


3958 


27 32 9 


3275 


26 7 


28 


399X 




Regulus 


E. 


46 5 25 


y>z6 


44 35 32 


3096 


43 5 52 


3036 


41 36 


24 


3045 




Spica 


E. 


100 I 37 


3990 


98 31 X2 


«98 


97 57 


3005 


95 30 


51 


S0X3 


14 


Sun 


W. 


60 25 31 


34x3 


6i 47 33 


34X8 


63 9 29 


3493 


64 31 


20 


3497 




Regulus 


E. 


34 " 52 


309X 


32 43 32 


Sxoz 


31 15 23 


3ZX0 


29 47 


26 


3X30 




Spica 


E. 


88 2 27 


3043 


86 33 8 


3048 


85 3 55 


3053 


83 34 


48 


S057 




Jupiter 


E. 


98 41 51 


3030 


97 12 3 


3083 


95 42 ai 


9090 


94 12 


45 


9QS4 



B8 



MAY, 1899. 



XV. 









GBKENWICH MEAN TIME. 








LUNAR DISTANCES^ 










RL. 




P.L. 




P.L. 




P.L. 


Name and Direction { 


Nocm. 


of 


IIIIV 


of 


Vlk. 


of 


IXh. 


of 


1* 


of Object 






DHL 




DUL 




DHL 




Di£ 






• » • 




• » V 




• § » 




• » » 




15 


Sun 


W. 


65 53 6 


343X 


67 14 48 


3434 


68 36 26 


3438 


69 58 


3439 


•^ 


Spica 


E. 


82 5 46 


So6x 


80 36 49 


3065 


79 7 56 


5067 


77 39 6 


3070 




Jupiter 


E. 


9a 43 14 


3*07 


91 13 47 


3041 


89 44 25 


3043 


88 Z5 6 


3047 


z6 


Sun 


W. 


76 45 23 


3444 


78 6 50 


3444 


79 28 17 


3443 


80 49 45 


344X 




Pollux 


W. 


22 39 35 


3403 


24 I 48 


3366 


25 24 43 


3333 


26 48 14 


3308 




Spica 


E. 


70 15 34 


5076 


68 46 55 


3075 


67 18 15 


3074 


65 49 34 


3073 




Jupiter 


E. 


80 49 9 


305a 


79 20 z 


SQS3 


77 50 53 


SOS* 


76 2Z 45 


305X 




Antares 


E. 


"5 48 37 


3075 


"4 19 57 


3075 


112 51 17 


3073 


III 22 35 


3073 


17 


Sun 


W. 


87 37 45 


34^5 


88 59 33 


S43X 


90 21 26 


34x3 


9X 43 25 


34x0 




Pollux 


W. 


33 52 39 


3M9 


35 18 37 


3x94 


36 44 53 


3180 


38 II 26 


3x66 




Spica 


E. 


58 25 38 


3060 


56 56 40 


3056 


55 27 37 


305a 


53 58 29 


3<H7 




Jupiter 


E. 


68 55 34 


3040 


67 26 II 


3036 


65 56 43 


3033 


64 27 II 


30x8 




Antares 


E. 


103 58 30 


3059 


I02 29 30 


3054 


loi 24 


3050 


99 31 13 


3044 




Saturn 


E. 


118 13 19 


3035 


116 43 50 


3P30 


115 14 15 


3036 


"3 44 34 


S03X 


18 


Sun 


W. 


98 35 8 


3374 


99 57 54 


3365 


loi 20 51 


3336 


102 43 58 


3346 




Pollux 


W. 


45 28 12 


3XOZ 


46 56 20 


3089 


48 24 43 


3077 


49 53 21 


3065 




Spica 


E. 


46 31 8 


3017 


45 I 16 


3009 


43 31 14 


300X 


42 z 3 


•99S 




Jupiter 


E. 


56 57 57 


3001 


55 27 45 


0993 


53 57 24 


3987 


52 26 55 


3980 




Antares 


E. 


92 3 27 


30ZZ 


90 33 28 


3003 


89 3 19 


3994 


87 32 59 


3986 




Saturn 


E. 


106 14 21 


3988 


104 43 53 


2979 


103 X3 14 


3970 


zoz 42 24 


0963 


Z9 


Sun 


W. 


109 42 29 


3993 


III 6 50 


3379 


112 31 26 


3966 


ZZ3 56 17 


3333 




Pollux 


W. 


57 20 25 


9999 


58 50 39 


39B6 


60 21 9 


a973 


6z 5z 56 


9S8 




Mars 


W. 


33 22 36 


3x73 


34 49 17 


3x58 


36 16 16 


3x4s 


37 43 34 


3X37 




Spica 


£. 


34 27 26 


8947 


32 56 7 


8938 


31 24 36 


4937 


29 52 52 


99x8 




Jupiter 


E. 


44 52 8 


9940 


43 20 40 


393X 


41 49 I 


1934 


40 X7 Z2 


•9x3 




Antares 


E. 


79 58 27 


9936 


78 26 54 


mn 


76 55 6 


•9x3 


75 23 4 


390X 




Saturn 


E. 


94 5 21 


09x2 


92 33 17 


49^ 


91 58 


■889 


89 28 25 


3876 


90 


Sun 


W. 


Z2I 4 28 


3x83 


122 30 57 


3x68 


123 57 44 


SXS3 


Z25 24 49 


3x38 




Pollux 


W. 


69 30 19 


a887 


71 2 55 


9673 


72 35 50 


a857 


74 9 4 


9843 




Mars 


W. 


45 4 52 


3047 


46 34 6 


3Q3X 


48 3 40 


30x5 


49 33 34 


3999 




Regulus 


W. 


32 27 54 


3884 


34 33 


36^ 


35 33 34 


3849 


37 6 58 


•Bsx 




Antares 


E. 


67 38 55 


2837 


66 5 15 


a8«3 


64 31 17 


3809 


62 57 z 


979S 




Saturn 


E. 


81 41 39 


a8z2 


80 7 27 


■798 


78 32 57 


«7es 


76 58 9 


9770 


21 


Pollux 


W. 


82 0. 14 


0764 


83 35 29 


9748 


85 XX 5 


«7Sa 


86 47 2 


97x7 




Mars 


W. 


57 8 II 


2916 


58 40 9 


>B99 


60 Z2 29 


3683 


6z 45 zz 


9866 




Regulus 


W. 


44 59 39 


a745 


46 35 19 


3739 


48 IZ 2Z 


97XX 


49 47 46 


9^ 




Antares 


E. 


55 56 


8731 


53 24 44 


3706 


5z 48 12 


«69X 


50 zz 20 


9^75 




Saturn 


E. 


68 59 20 


9696 


67 22 35 


968z 


65 45 29 


366s 


64 8 2 


96JO 




a Aquilae 


E. 


107 29 5 


3348 


106 3 53 


3»3 


104 38 Z3 


390X 


103 Z2 5 


Si7« 


22 


Pollux 


W. 


94 51 59 


3638 


96 30 2 


9G84 


98 8 25 


3607 


99 47 xo 


9393 




Mars 


W. 


69 34 5 


3783 


71 8 57 


3765 


72 44 XX 


3748 


74 19 47 


9739 




Regulus 


W. 


57 55 29 


36zz 


59 34 9 


tS94 


61 13 12 


«577 


62 52 38 


996X 




Antares 


E. 


42 I 50 


SS99 


40 22 54 


3585 


38 43 38 


3569 


37 4 I 


9SSS 




Saturn 


E. 


55 55 33 


3573 


54 15 59 


3556 


52 36 4 


3S4X 


50 55 48 


9395 




a AquUac 


£. 


95 54 58 


3078 


94 26 21 


3059 


92 57 21 


3043 


9Z 28 


3096 

1 



XVL 



MAY, 1899. 



89 







GREENWICH MEAN TIME. 








LUNAR DISTANCSa 


U 


Nam« and Direction 


Midnight 


P.L. 

of 


XVh- 


P.L. 

of 


XVIIIh- 


P.L. 
of 


XlXb. 


P.L. 
of 


p 


of Object. 






Diff. 




DifL 




Diff. 




Diff. 








m 9 » 




• 9 • 




• » « 




• » » 




15 


Sun 


W. 


71 X9 32 


S44X 


72 41 2 


3443 


74 2 30 


3444 


75 23 57 


3445 




Spica 


E. 


76 10 20 


307a 


74 41 36 


9073 


73 12 54 


3075 


71 44 14 


3075 




JUPITBS 


£• 

« 


86 45 51 


30*8 


85 16 38 


9QS0 


83 47 27 


9059 


82 18 18 


3059 


16 


Sum 


W. 


82 II 15 


3439 


83 32 47 


3436 


84 54 23 


3433 


86 16 2 


3430 




Pollux 


W. 


28 12 16 


3084 


29 36 46 


3962 


31 I 42 


3343 


32 27 


3935 




Spica 


E. 


64 20 52 


307a 


62 52 8 


3069 


61 23 21 


3067 


59 54 31 


3065 




Jupiter 


£. 


74 52 35 


3050 


73 23 24 


3047 


71 54 10 


3046 


70 24 54 


3043 




Antares 


£. 


109 53 5a 


3070 


108 25 6 


S069 


106 56 18 


3065 


105 27 26 


3069 


17 


Sun 


W. 


93 5 30 


3403 


94 27 43 


3397 


95 50 3 


3390 


97 12 31 


3383 




Pollnx 


W. 


39 38 16 


3x53 


41 5 22 


3x40 


42 32 43 


3x97 


44 20 


3XX4 




Spica 


£. 


52 29 15 


3043 


50 59 55 


3036 


49 30 27 


3030 


48 52 


3033 




JUPITBR 


£. 


62 57 33 


30«3 


61 27 49 


30x8 


59 57 59 


3013 


58 28 2 


3006 




Antares 


£. 


98 I 55 


3039 


96 32 30 


3033 


95 2 58 


3096 


93 33 17 


30x8 




Saturn 


E. 


112 14 47 


30x5 


no 44 53 


3009 


109 14 51 


30OX 


107 44 40 


9995 


z8 


Sun 


W. 


104 7 16 


3337. 


105 30 45 


9335 


106 54 27 


33x5 


108 18 21 


3303 




Polhix 


W. 


51 22 14 


3m» 


52 51 23 


3039 


54 20 47 


3036 


55 50 28 


3013 




Spica 


£. 


40 30 42 


9985 


39 10 


■976 


37 29 27 


9966 


35 58 32 


9958 




Jupiter 


E. 


50 56 17 


8973 


49 25 30 


9965 


47 54 33 


9957 


46 23 26 


3948 




Antares 


E. 


86 2 29 


8977 


84 31 47 


•967 


83 53 


9958 


81 29 47 


3946 




Saturn 


£. 


100 iz 24 


•933 


98 40 12 


9943 


97 8 48 


9933 


95 37 II 


9993 


»9 


Sun 


W. 


XZ5 21 23 


3241 


116 46 44 


3996 


118 12 22 


3913 


119 38 16 


3x98 




PoUoz 


W. 


63 23 I 


944 


64 54 24 


9931 


66 26 4 


9916 


67 58 2 


990X 




Mars 


W. 


39 II II 


3xn 


40 39 7 


3095 


42 7 23 


3079 


43 35 58 


3064 




Spica 


£• 


28 20 56 


. «9o8 


26 48 47 


9898 


25 16 25 


9888 


23 43 51 


9878 




Jufitbr 


£• 


38 45 la 


8907 


37 13 2 


9898 


35 40 41 


389X 


34 8 10 


2883 




Antares 


£. 


73 50 46 


3889 


72 18 13 


9876 


70 45 24 


38^ 


69 12 18 


9850 




Saturn 


£. 


87 55 36 


aS^ 


86 22 32 


9833 


84 49 II 


9839 


83 15 34 


9895 


90 


Sun 


W. 


126 5a 12 


3X33 


128 19 54 


3106 


129 47 56 


309X 


131 i6 17 


3075 




Pollux 


W. 


75 42 38 


8826 


77 16 32 


38xx 


78 50 46 


9795 


80 25 20 


9780 




Mars 


W. 


51 3 48 


998a 


52 34 23 


3966 


54 5 18 


9950 


55 36 34 


9933 




Regulus 


W. 


38 40 45 


38x4 


40 14 55 


9797 


41 49 27 


9779 


43 24 22 


9763 




Antares 


E. 


61 22 26 


^x 


59 47 33 


97M 


58 12 20 


975X 


56 36 48 


9736 




Saturn 


£. 


75 23 a 


■756 


73 47 36 


•741 


72 II 50 


9796 


70 35 45 


97XX 


az 


Pollux 


W. 


88 23 19 


I^X 


89 59 58 


3686 


91 36 57 


9669 


93 14 18 


9655 




Mars 


W. 


63 18 14 


9848 


64 51 39 


383X 


66 25 26 


98x5 


67 59 35 


9798 




Regulus 


W. 


51 24 33 


9678 


53 I 43 


9660 


54 39 16 


3644 


56 17 II 


9627 




Antares 


£. 


48 34 7 


fl66o 


46 56 34 


9645 


45 18 40 


3629 


43 40 25 


96x5 




Saturn 


£. 


62 30 15 


9635 


60 52 7 


36x8 


59 13 37 


9603 


57 34 46 


9587 




a Aquils 


£. 


loi 45 30 


3x57 


100 18 29 


S136 


98 51 3 


31x5 


97 23 12 


3096 


aa 


PoUnx 


W. 


zoi 26 15 


a577 


103 5 41 


9563 


104 45 27 


9548 


106 25 33 


9535 




Mars 


W. 


75 55 45 


^X5 


77 32 5 


9699 


79 8 46 


9684 


80 45 48 


9667 




Regulus 


W. 


64 32 26 


9345 


66 12 37 


9S30 


67 53 9 


3514 


69 34 3 


9498 




Antares 


£. 


35 24 4 


9540 


33 43 47 


«5a7 


32 3 II 


35x9 


30 22 15 


9499 




Saturn 


£. 


49 15 10 


9310 


47 34 " 


9496 


45 52 52 


9480 


44 II II 


8466 




aAquilas 


£. 


89 58 19 


30X0 


88 28 19 


9995 


86 58 


998X 


85 27 24 


9969 



90 



MAY, 1899. 



xvn. 









GREENWICH MEAN TIME. 








LUNAR DISTANCEa 


of the 
mth. 


Name and Direction 


Noon. 


P.L. 
of 


Illh. 


P.L. 

of 


Vlh. 


P.L. 
of 


IXh- 


P.L. 

of 




of Object 






DHL 




Diff. 




Diff. 




Ditt. 






• # « 




• » • 




• » » 




• 0m 




23 


Mars 


W. 


82 23 12 


•^a 


84 57 


2636 


85 39 3 


a62x 


87 17 29 


3607 




Regulus 


W. 


71 15 19 


9483 


72 56 56 


8467 


74 38 55 


a4S3 


76 21 14 


8438 




a Aquilae 


E. 


83 56 32 


2957 


82 25 25 


awe 


80 54 4 


a93« 


79 22 31 


2907 


«4 


Mars 


W. 


95 34 34 


2537 


97 14 56 


asas 


98 55 35 


25x2 


100 36 31 


8S00 




Regulus 


W. 


84 57 54 


937^ 


86 42 11 


^57 


88 26 47 


2346 


90 II 40 


8353 




Spica 


W. 


30 54 22 


a37a 


32 38 37 


3358 


34 23 12 


a344 


36 8 7 


8338 




aAquilae 


E. 


71 42 31 


8903 


70 10 16 


3903 


68 38 I 


2904 


67 5 47 


8908 




Fomalhaut 


E. 


97 19 41 


881S 


95 45 32 


a799 


94 " 3 


2785 


92 36 16 


3773 


as 


Spica 


W. 


44 57 9 


8274 


46 43 46 


2265 


48 30 37 


2356 


50 17 42 


3346 




Jupiter 


W. 


35 40 29 


2300 


37 26 28 


2285 


39 12 49 


2272 


40 59 29 


3260 




a Aquils 


E. 


59 26 38 


2958 


57 55 32 


a977 


56 24 50 


8998 


54 54 35 


3034 




Fomalhaut 


E. 


84 38 36 


2725 


83 2 29 


2719 


81 26 15 


87X5 


79 49 55 


37x2 




a Pegasi 


£. 


104 28 39 


240B 


102 45 16 


2396 


lOI I 36 


8386 


99 17 41 


8376 


26 


Spica 


W. 


59 16 II 


22x0 


61 4 23 


2204 


62 52 44 


3x99 


64 41 13 


8x94 




Jupiter 


W. 


49 56 48 


22x4 


51 44 55 


, 2206 


53 33 13 


8800 


55 21 41 


3X94 




Fomalhaut 


E. 


71 47 52 


2719 


70 II 37 


2725 


68 35 31 


■734 


66 59 36 


8744 




a Pegasi 


E. 


90 34 56 


2338 


88 49 52 


8333 


87 4 41 


8328 


85 19 23 


8384 


27 


Spica 


W. 


73 45 7 


1X79 


75 34 6 


2X77 


77 23 8 


817C 


79 12 12 


8x76 




Jupiter 


W. 


64 25 51 


2174 


66 14 57 


8x7a 


68 4 7 


3x70 


69 53 19 


8x70 




An tares 


w. 


28 14 44 


2x93 


30 3 22 


2190 


31 52 5 


8x86 


33 40 53 


8184 




Fomalhaut 


E. 


59 4 25 


383X 


57 30 37 


a857 


55 57 23 


8886 


54 24 46 


39x9 




a Pegasi 


E. 


76 31 52 


8317 


74 46 18 


23x9 


73 46 


8330 


71 15 16 


8S1Q 


28 


Spica 


W. 


88 17 29 


ax79 


90 6 28 


3x8x. 


91 55 24 


tx84 


93 44 16 


8X86 




Jupiter 


W. 


78 59 27 


2x72 


80 48 37 


2X74 


82 37 44 


8176 


84 26 48 


8x76 




An tares 


W. 


42 45 18 


2x84 


44 34 10 


2x85 


46 23 


8x87 


48 II 47 


8x89 




Saturn 


W. 


29 14 16 


2166 


31 3 35 


2x67 


32 52 53 


8x69 


34 42 8 


8x70 




a Pegasi 


E. 


62 29 10 


2350 


60 44 23 


2358 


58 59 48 


8367 


57 15 26 


8378 




Venus 


E. 


107 31 


a574 


Z05 21 I 


2576 


103 41 33 


3578 


102 2 8 


858X 


29 


Antares 


W. 


57 14 39 


2207 


59 2 56 


tail 


60 51 7 


88X6 


62 39 10 


8UX 




Saturn 


W. 


43 47 30 


2x86 


45 36 19 


2x90 


47 35 I 


8X95 


49 13 36 


8800 




a Arietis 


E. 


90 33 25 




88 45 30 


8887 


86 57 43 


8838 


85 10 3 


8838 




Venus 


£. 


93 46 9 


2600 


92 7 14 


8605 


90 28 26 


86xx 


88 49 46 


86x6 




Sun 


E. 


122 39 32 


2502 


120 58 21 


8SO6 


119 17 16 


85X1 


117 36 18 


8517 


30 


Antares 


W. 


71 37 22 


2251 


73 24 33 


8858 


75 " 34 


ta65 


76 58 25 


8S73 




Saturn 


W. 


58 14 29 


2229 


60 2 13 


8236 


61 49 47 


8343 


63 37 " 


3350 




a Arietis 


E. 


76 13 58 


2270 


74 27 14 


8877 


72 40 41 


8284 


70 54 18 


8398 




Venus 


E. 


80 38 28 


2649 


79 40 


a657 


77 23 3 


8665 


75 45 36 


3673 




Sun 


E. 


109 13 38 


2550 


107 33 34 


a556 


105 53 39 


•564 


104 13 54 


8578 


SI 


Antares 


W. 


85 49 58 


23x0 


87 35 43 


«SX7 


89 2Z 17 


2326 


91 6 39 


8334 




Saturn 


W. 


72 31 30 


2287 


74 17 49 


8895 


76 3 56 


2303 


77 49 51 


831 Z 




a Aquilae 


W. 


40 I 49 


3682 


41 18 55 


3596 


42 37 34 


35ao 


43 57 36 


3453 




a Arietis 


E. 


62 5 20 


2,W3 


60 20 9 


3343 


58 35 12 


8353 


56 50 28 


836X 




Venus 


E. 


67 41 7 


27x6 


66 4 48 


8785 


64 28 41 


8734 


62 52 46 


8744 




Sun 


E. 


95 57 51 


26x2 


94 19 12 


8620 


92 40 44 


8629 


91 2 28 


^ 



xvm 



MAY, 1899. 



91 







GREENWICH MEAN TIME. 












LUNAR DISTANCEa 




NaOM and Dirootion 


Midnight. 


P.L. 
of 


XVh- 


P.L. 
of 


XVIIIJ». 


P.L. 

of 


XXIh. 


P.L. 

of 


1- 


of Object 






DHL 




DHL 




DUE. 








Difll 








m * » 




• # « 




• » m 




• 


> 


m 




33 


Mars 


W. 


88 56 15 


S593 


90 35 21 


3578 


92 Z4 46 


«564 


93 


54 


30 


3550 




Regulus 


w. 


78 3 54 


3424 


79 46 54 


34x0 


81 30 15 


3396 


83 


13 


55 


3383 




a Aqoilas 


E. 


77 50 47 


4990 


76 i8 53 


09x3 


74 46 51 


«909 


73 


14 43 


3905 


24 


Mars 


W. 


102 17 44 


S489 


103 59 13 


3478 


105 40 57 


3467 


107 


22 


58 


8458 




Regulus 


W. 


91 56 51 


1323 


93 42 18 


33x1 


95 28 I 


330X 


97 


13 


59 


3390 




Spica 


w. 


37 53 20 


33x9 


39 38 52 


«307 


41 24 41 


3396 


43 


10 


47 


338s 




a AquilflB 


£. 


65 33 38 


^9KS 


64 X 36 


3930 


62 29 43 


3931 


60 


58 


3 


3942 




Fomalhaut 


E. 


91 I 13 


9761 


89 25 54 


<75o 


87 50 20 


3740 


86 


14 


33 


373a 


as 


Spica 


W. 


5« 5 I 


3338 


53 52 32 


3330 


55 40 X5 


3833 


57 


28 


8 


33X6 




Jupiter 


W. 


42 46 27 


tS49 


44 33 41 


3339 


46 21 10 


3330 


48 


8 


53 


3333 




a Aquila 


E. 


53 24 52 


3Q53 


51 55 45 


3088 


50 27 21 


3x37 


48 


59 


44 


3172 




Fomalhaut 


£. 


78 13 31 


27x0 


76 37 5 


37x0 


75 38 


37IX 


73 


24 


13 


37x4 




a Pegasi 


£. 


97 33 32 


3367 


95 49 10 


2359 


94 4 36 


335X 


92 


19 


51 


2344 


a6 


Spica 


W. 


66 29 49 


sxgo 


68 18 31 


3x86 


70 7 19 


3x84 


71 


56 


II 


Sx8x 




Jupiter 


W. 


57 10 17 


3x89 


58 59 I 


3x84 


60 47 52 


3x80 


62 


36 


49 


3x77 




Fomalhaut 


E. 


65 23 55 


3756 


63 48 30 


3773 


62 13 25 


3788 


60 


38 


42 


3808 




a Pegasi 


E. 


83 33 59 


3333 


8z 48 31 


3330 


80 3 


33x7 


78 


17 


26 


2317 


87 


Spica 


W. 


8z z 16 


3175 


82 50 21 


3176 


84 39 25 


3x76 


86 


28 


28 


3x78 




Jupiter 


w. 


71 42 32 


3x69 


73 31 46 


3x69 


75 21 I 


3x69 


77 


10 


15 


3x70 




Antares 


w. 


35 29 44 


3x83 


37 18 37 


3x83 


39 7 31 


3183 


40 


56 


25 


3183 




Fomalhaut 


E. 


52 52 51 


3956 


51 2X 43 


a997 


49 51 27 


3044 


48 


22 


9 


3096 




a Pegasi 


E. 


69 29 50 


3336 


67 44 29 


333X 


65 59 14 


3336 


64 


14 


7 


2343 


28 


Spica 


W. 


95 33 4 


3x90 


97 2Z 47 


SX93 


99 10 25 


3x97 


zoo 


58 


57 


330X 




Jupiter 


W. 


86 15 48 


3x83 


88 4 43 


3x85 


89 53 33 


3x89 


91 


42 


17 


3x93 




Antares 


W. 


50 31 


3x93 


51 49 II 


3x93 


53 37 46 


2x99 


55 


26 


15 


3302 




Saturn 


W. 


36 31 21 


3x73 


38 20 30 


ax75 


40 9 35 


3x78 


41 


58 


35 


3x83 




a Pegasi 


E. 


55 31 20 


3390 


53 47 31 


3403 


52 4 I 


34x8 


50 


20 


52 


2435 




Venus 


E. 


100 22 47 


2584 


98 43 30 


3587 


97 4 17 


359X 


95 


25 


10 


2596 


29 


Antares 


W. 


64 27 6 


3337 


66 14 53 


3333 


68 2 32 


3339 


69 


50 


2 


2245 




Saturn 


W. 


51 2 3 


3306 


52 50 22 


32XX 


54 38 33 


3217 


56 


26 


35 


2233 




a Arietis 


E. 


83 22 32 


3343 


81 35 9 


3350 


79 47 56 


3356 


78 


. 


52 


3363 




Venus 


E. 


87 II 13 


3633 


85 32 48 


3639 


83 54 32 


3635 


82 


16 


25 


2643 




Sun 


E. 


"5 55 29 


asas 


Z14 Z4 48 


3539 


112 34 15 


3536 


ZIO 


53 


52 


2543 


30 


Antares 


W. 


78 45 5 


3379 


80 3x 35 


3387 


82 17 54 


3394 


84 


4 


2 


2302 




Saturn 


W. 


65 24 24 


«57 


67 II 27 


3364 


68 58 19 


3273 


70 


45 





2279 




a Arietis 


E. 


69 8 7 


3300 


67 22 7 


3308 


65 36 19 


33x6 


63 


50 


43 


3335 




Venus 


E. 


74 8 20 


36Sx 


72 31 15 


3689 


70 54 2E 


3698 


69 


17 


38 


3707 ; 




Sun 


E. 


102 34 20 


3580 


100 54 57 


3587 


99 15 44 


a595 


97 


36 


42 


3603 


31 


Antares 


W. 


92 51 49 


3343 


94 36 47 


8350 


96 21 33 


2359 


98 


6 


7 


3367 




Saturn 


W. 


79 35 35 


3319 


81 21 7 


3337 


83 6 27 


3335 


84 


51 


35 


2344 




a Aquilac 


W. 


45 18 53 


3394 


46 41 16 


3343 


48 4 38 


3998 


49 


28 


52 


3258 , 




a Arietis 


E. 


55 5 57 


337X 


53 21 40 


3381 


51 37 38 


2391 


49 


53 


50 


240X ! 




Venus 


E. 


61 17 4 


a753 


59 41 34 


3763 


58 6 17 


3773 


56 


31 


13 


2782 




Sun 


E. 


89 24 23 


3646 


87 46 30 


3655 


86 8 49 


3663 


84 


31 


20 


"'ij 



92 



JUNE, 1899. 



AT GREENWICH APPARENT NOON. 



i 



i 



Thur. 

Frid. 

Sat 

SC/N. 

Mon. 

Tues. 

Wed. 
Thur. 
Frid. 

Sat. 
SC/J\r. 

Mon. 

Tues. 
Wed. 
Thur. 

Frid. 
Sat. 

Mon. 
Tues. 
Wed. 

Thur. 

Frid. 

Sat. 

SC/N. 

Mon. 

Tues. 

Wed. 
Thur. 
Frid. 

Sat 



a 

o 



I 
2 

3 

4 

5 
6 

7 
8 



lO 

II 

12 

13 
H 
15 

i6 

17 
i8 

20 
21 

22 

23 
24 

25 
26 

27 

28 
29 

30 
31 



THE SUN'S 



Apparent 
Right ABcenalon. 



h m 8 

4 36 34-53 
4 40 40.31 

4 44 46.50 

4 48 5307 
4 53 001 
4 57 7*29 



5 
5 

5 



I 14.89 
5 22.79 
9 3096 



5 13 39-37 
5 17 48.01 

5 21 56.84 

5 26 5.85 

5 30 14-99 
5 34 24.26 

5 38 33-63 
5 42 43-07 
5 46 52.56 

5 51 2.08 

5 55 "61 
5,59 21.13 

6 3 30.62 
6 7 40.06 
6 II 49.42 

6 15 58.69 
6 20 7.86 
6 24 16.90 

6 28 25.78 

6 32 34-50 
6 36 43.02 

6 40 51.34 



DiiF. for 
X Hour. 



0.232 
0.249 
0.266 



0.281 
0.296 
0.310 

0.323 

0.335 
0.346 

0.356 
0.364 

0.371 

0.378 
0.384 
0.388 

0.391 

0.394 
0.396 

0.397 

0.397 
0.396 

0.394 
0.392 

0.389 

0.384 

0.379 
0.373 

0.366 

0.359 
0.351 



ZO.342 



Apparent 
Declination. 



o » • 

N.22 4 3.2 
22 12 0.3 
22 19 34.2 

22 26 44.7 

22 33 317 
22 39 54-9 

22 45 54-3 
22 51 29.7 

22 56 41. 1 

23 I 28.2 

23 5 51.0 
23 949.4 

23 13 23.3 
23 16 32.7 
23 19 17.5 

23 21 37.5 
23 23 32.9 
23 25 3.6 

23 26 9.5 
23 26 50.7 
23 27 7.1 

23 26 58.6 
23 26 25.4 
23 25 27.5 

23 24 4.8 
23 22 17.4 
23 20 5.4 

23 17 28.7 

23 14 27.4 
23 II 1.7 

N.23 7 1 1.6 



DiflE. for 
I Hoar. 



+20.36 

19.39 
18.42 

+17-44 
16.46 

15.47 

+ 14.47 

13-47 
12.46 

+11.45 

10.44 

9.42 

+ 8.40 
7.38 
6.35 

+ 5-32 

4.29 
3.26 

+ 2.23 

1.20 

+ 0.17 

- 0.86 
1.90 

2.93 

- 3-96 

4-99 
6.0Z 

- 7.04 
8.06 
9.08 

—10.09 



Semi- 
diameter. 



5 48.37 
5 48.23 
5 4809 

5 47.96 
5 47.83 
5 47.71 

5 47.59 
5 47.48 
5 47.38 

5 47.28 
5 47.18 
5 47.09 

5 47.00 
5 46.92 
5 46.85 

5 46.78 

5 46.71 
5 46.65 

5 46.59 
5 46.53 
5 46.48 

5 46.43 
5 46.39 
5 46.34 

5 46.30 
5 46.26 

5 46.23 

5 46.20 
5 46.18 
5 46.16 



15 46.14 



Sidereal 
Time of 
Semi- 
diameter 
Passing 
Meridian. 



68.41 
68.46 
68.51 

68.56 
68.61 
68.65 

68.69 

68.73 
68.77 

68.80 
68.83 

68.86 

68.89 
68.91 
68.93 

68.94 
68.95 
68.96 

68.97 
68.97 
68.97 

68.96 
68.95 
68.94 

68.93 
68.91 
68.89 

68.87 
68.84 
68.81 

68.78 



Equation of 
Time, 
tob6 

Subtracted 
from 



Added to 

Apparent 

Time. 



m 8 
2 25.61 

2 16.42 

2 6.81 



I 
I 
I 

I 
I 
I 



56.82 

46.47 
35.78 

24.76 

13-45 
1.87 



o 50.05 

o 38.00 

o 25.76 

o 13.35 

o 0.80 



O II 



"M 



o 24.65 

o 37.50 

50.40 

I 3.33 

1 16.26 
I 29.19 

I 42.09 

1 54-93 

2 7.70 

2 20.38 

2 32.96 

2 45.40 

2 57.70 

3 982 
3 21.75 

3 3348 



DiflE. for 
X Hoar. 



0.374 
0.391 

0.408 

0.424 
0.438 
0.45a 

0.465 
0.477 
0.488 

0.498 
0.506 

0.513 

0.520 
0.526 
0.530 

0.533 
0.536 
0.538 

0.539 
0.539 
0.538 

0.536 

0.534 
0.531 

0.526 
0.521 

0.5x5 

0.508 
0.501 

0.493 
0.484 



NoTB.— The mean time of temidiameter passing may be found by subtracting o^.i-) from the sidereal time. 

The sign + prefixed to the hourly change of decliuaiioo indicates that uoith dt*clinations are increasing; the 
sign — indicates that north declinatious are decre.ising. 



n. 



JUNE, 1899. 



93 







AT GREENWICH MEAN NOON, 






i 

•a 


1 

o 




THE 


SUN'S 


Bquadon of 

Time, 

to be 

Added to 


DilLfur 
z Hour. 


Sidereal 

Time, 

or 

Riicht Ascension 

of 

MeaaSniL 


Apparent 
Right Ascension. 


DiiF. for 
z Hour. 


Apparent 
Declination. 


Diitfor 
z Hour. 


Subtracted 

from 
Mean Time. 


Thur. 

Frid. 

Sat 


I 
2 

3 


h m s 

4 36 34-95 
4 40 40.70 

4 44 46.86 


s 
10.231 

XO.248 

ZO.265 


• t m 

N.22 4 4.1 
22 12 I.I 
22 19 34.9 


m 
+20.36 

19-39 
18.42 


m s 
2 25.59 
2 16.40 
2 6.80 


s 

0.375 
0.392 
0.408 


h m s 

4 39 0.54 
4 42 57.10 
4 46 53.66 


SUN. 

Mon. 

Tues. 


4 

5 
6 


4 48 53-41 
4 53 032 
4 57 756 


10.280 
10.295 
10.309 


22 26 45.3 
22 33 32.2 

22 39 55.3 


+17.44 
16.46 

15.47 


I 56.81 

I 46.45 
I 35.77 


0.424 
0.438 
0.452 


4 50 50.21 
4 54 46.77 
4 58 43.33 


Wed. 
Thur. 
Frid. 


7 
8 

9 


5 I 15-13 
5 5 23.00 

5 9 31.14 


ZO.322 

10.333 
10.344 


22 45 54.7 

22 51 30.0 
22 56 41.3 


+14.47 

13.47 
12.46 


I 24.75 
I 13.45 

I 1.86 


0.465 
0.477 
0.488 


5 2 39.89 
5 6 36.44 
5 10 33.00 


Sat 

SUN. 
Mon. 


lO 

II 

12 


5 13 39.52 
5 17 48.12 

5 21 56.92 


10.354 
10.363 

10.370 


23 I 28.4 

23 5 51. 1 
23 9 49.4 


+"•45 
10.44 

9.42 


50.04 
38.00 

25.75 


0.497 
0.506 
0.514 


5 14 29.56 
5 18 26.12 
5 22 22.67 


Tues. 
Wed. 
Thur. 


13 
H 
15 


5 26 5.89 
5 30 15.00 
5 34 24.23 


10.377 
10.382 

10.387 


23 13 23.3 
23 16 32.7 

23 19 ^7-5 


+ 8.40 

7.38 
6.35 


13.34 
0.79 


0.521 
0.526 
0.530 


5 26 19.23 

5 30 15.79 
5 34 12.35 


11.88 


Frid. 
Sat 

SUN. 


i6 

17 
i8 


5 38 33.56 
5 42 42.96 
5 46 52.42 


10.390 
10.393 
10,394 


23 21 37-5 
23 23 32.9 
23 25 3.6 


+ 5.32 
4.29 
3.26 


24.65 

37.50 
50.40 


0.534 

0.537 
0,538 


5 38 8.91 

5 42 5.46 
5 46 2.02 


Mon. 
Tues. 
Wed. 


19 

20 
21 


5 51 1.90 

5 55 "39 
5 59 20.88 


10.395 

10.395 
10.394 


23 26 9.5 
23 26 50.7 
23 27 7.1 


+ 2.23 

1.20 

+ 0.17 


I 3.32 
I 16.25 
I 29.18 


0.539 

0.539 
0.538 


5 49 58.58 
5 53 55.14 
5 57 51.70 


Thur. 

Frid. 

Sat 


22 

23 
24 


6 3 30.33 
6 7 39.72 

6 II 49.05 


10.392 
10.390 
10.387 


23 26 58.7 
23 26 25.5 
23 25 27.6 


- 0.86 
Z.90 
2.93 


I 42.08 

1 54.91 

2 7.68 


0.536 

0.533 
0.530 


6 I 48.25 
6 5 44.81 

6 9 41.37 


SUN. 

Mon. 

Tues. 


25 
26 

27 


6 15 58.29 
6 20 7.42 
6 24 16.42 


10.383 
10.378 
XO.372 


23 24 5.0 
23 22 17.6 
23 20 5.6 


- 3.96 

4.99 
6.01 


2 20.36 
2 32.93 

2 4538 


0.526 
0.521 
0.515 


6 13 37.93 
6 17 34.48 
6 21 31.04 


Wed. 
Thur. 
Frid. 


28 

29 
30 


6 28 25.27 

6 32 33.95 
6 36 42.44 


10.365 
10.358 

10.349 


23 17 29.0 
23 14 27.9 
23 II 2.2 


- 7.04 
8.06 

9.08 


2 57.67 

3 9.79 
3 21.73 


0.509 
0.501 

0-493 


6 25 27.60 
6 29 24.16 
6 33 20.72 


Sat. 


31 


6 40 50-73 


ZO.340 


N.23 7 12.2 


—10.09 


3 33.45 


0.484 


6 37 17.27 


NoTB.— The MOD 

The sign 

increa 


ddismatar for mean 
1 + prefixed to the 
ising ; the sign — in 


noon may fa 

hourly cban 
dicates that 


»o assamed the same as that for 1 
Ke of declination indicates that i 
north declinations are decreasii 


ipparent noon, 
lortb declinatic 


«s are 


DifE. for z Hour, 
+ 9'.8565. 
(Table III.) 



94 



JUNE, 1899. 



m. 



AT GREENWICH MEAN NOON. 



4 
g 

« 

o 



I 

2 
3 

4 

5 
6 

7 
8 



lO 

II 

12 

13 

14 
15 

16 

17 

18 

19 

20 

21 

22 
23 
24 

25 
26 

27 

28 
29 

: 30 

I 
I 

i 31 



m 
« 

« 

•3 

O 



52 

53 
54 

55 
56 

57 

58 

59 
60 

61 
62 

63 

64 

65 
66 

67 
68 

69 

70 

71 
72 

73 
74 
75 

76 

77 

78 

79 
80 

81 



182 



THE SUN'S 



TRUE LONGITUOa 



70 44 31-3 

71 41 59.0 

72 39 26.3 

73 36 52.7 

74 34 18.4 

75 31 43-4 

76 29 7.7 

77 26 31.2 

78 23 54.1 

79 21 16.0 

80 18 37.1 

81 15 57.2 

82 13 16.6 

83 10 35.0 

84 7 52.6 

85 5 9-4 

86 2 25.3 

86 59 40.4 

87 56 54.8 

88 54 8.5 

89 51 21.7 

90 48 34.4 

91 45 46.7 

92 42 58.6 

93 40 10.4 

94 37 22.0 

95 34 33-6 

96 31 45.2 

97 28 56.9 

98 26 8.6 

99 23 20.6 



43 53.8 

41 21.5 

38 48.5 

36 147 

33 403 

31 5-1 

28 29.2 

25 52.5 

23 15-3 

20 37.0 

17 57-9 

15 17.8 

12 37.1 

9 55-3 

7 12.7 

4 29.3 

I 45.0 

59 00 

56 14.2 

53 27.7 

50 40.7 

47 53-2 

45 5-4 

42 17.1 

39 28.7 
36 40.1 
33 516 

31 2.8 

28 14.5 

25 26.0 

22 37.8 



Diff. for 
I Hour. 



43.67 
43-64 
43.61 

43.58 

43-55 
4352 

43.49 
43.46 
43.43 

4340 
43.36 
43.33 

43-29 

4325 
43.2a 

43.18 

43.14 
43." 

43.09 
43.06 

4304 

43.0a 
43.00 
42.99 

42.99 
42.98 

42.98 

42.98 

42.99 
42.99 



143-00 



LATITUDB. 



+ 0.42 

0.45 
0-43 

+ 0.39 
0.32 

0.23 

+ 0.12 

— O.OI 
0.14 

— 0.28 
0.41 
0.52 

— 0.61 
0.68 
0.72 

-0.74 
0.72 

0.66 

— 0.59 
0.49 
0.37 

— 0.25 

— 0.1 1 
+ 0.02 

+ 0.14 
0.25 

0-33 

+ 0.39 
0.41 
0.40 

+ 0.37 



Logarilhm 

ofthe 

Radius Vector 

of the 

Earth. 



0.006 1 97 1 
0.0062617 
0.0063245 

0.0063850 
0.0064435 
0.0064994 

0.0065531 
0.0066042 
0.0066528 

0.0066991 
0.0067427 
0.0067839 

0.0068229 
0.0068596 
0.0068940 

0.0069264 
0.0069571 
0.0069858 

0.0070129 
0.0070385 
0.0070625 

0.0070851 
0.0071063 
O-OO71260 

0.0071443 
O.OO71612 
0.0071765 

O.OO719OI 
0.0072019 
0.0072 118 

0.0072198 



DiiF.for 
I Hour. 



+27.3 
36.5 

25.7 

+34.8 
23.8 
22.8 

-I-2I.8 

20.8 

19.8 

+18.8 
17.8 

16.8 

+15.8 
14.8 

13.9 

+X3.X 

12.3 

XI.6 

+XI.0 

X0.4 

9.8 

+ 9«2 
8.5 
7.9 

4-7-3 
6.7 
6.0 

+ 5.3 
4-5 
3-7 

+ 9.8 



MoTB.— The nombert la column A coirespoad to the tnie •qninot of the data; In ooltnaa A' to the 
equinox of January c^a 



Tine 
of 

SiderMlN 



9 17 49.26 

9 13 53.35 
9 9 57-44 



9 6 
9 2 
8 58 



152 
5.61 

9.70 



8 54 13-79 
8 50 17.88 

8 46 21.96 

8 42 26.05 
8 38 30.14 
8 34 34-23 

8 30 38.32 
8 26 42.41 
8 22 46.49 

8 18 50.58 
8 14 54.67 
8 10 58.76 

8 7 2.85 
8 3 6.93 
7 59 11.02 

7 55 15-" 
7 51 19.20 

7 47 a3-29 

7 43 ^7.38 
7 39 31-46 
7 35 35-55 

7 31 39.64 
7 27 43-73 
7 23 4781 



17 X9 51.90 



DilL for I H 
— 9r.8a96L 
(TaMelU 



IV. 



JUNE, 1899. 



95 



GREENWICH MEAN TIME. 



THE MOON'S 



8 



m 



I 

a 
3 

4 

5 
6 

7 

8 



£0 
[I 
12 

'3 

H 
15 

i6 

^7 
x8 

20 
21 

22 
23 

25 

26 

27 

28 
29 

30 
31 



SBMIDIAMETBR. 



Noon. 



6 2.3 

5 54-4 
5 46.2 



5 
5 
5 

5 

5 
4 

4 
4 
4 

4 

4 
4 



38.0 
29.6 
21.5 

13.6 
6.1 

59-3 

53.6 
49.4 
46.9 

46.7 
48.9 

53-7 



Midnight 



5 1-3 
5 "5 
5 23.9 



37-9 
52.6 

6 6.9 



6 19.4 
6 28.8 
6 34.2 

6 35-1 
6 31.7 

6 24.6 



6 15.0 

3.8 
52.2 



15 40.7 



5 

5 
5 

5 
5 
5 



4 
4 
4 

4 
4 



5 
5 



5 

5 



6 
6 



5 
5 



58.4 

50-3 
42.1 

33.8 
25-5 
17-5 



5 9.7 
5 2.6 

4 56.3 



51-3 
47-9 
46.5 

47-4 
51.0 

57.2 

6.1 
17.4 

30-7 

45-3 
59-9 
13-5 

24.6 
32.1 

35-3 



6 33-9 

6 28.6 

6 20.1 

6 9-5 



58.0 
46.4 



15 35-3 



HORIZONTAL PARALLAX. 



Noon. 



58 45.2 
58 16.2 

57 46.1 

57 157 
56 45.2 

56 15.2 

55 46.1 
55 18.6 
54 53-8 

54 32.8 
54 17-2 
54 8.2 

54 7.3 
54 15-4 

54 33-3 

55 i-i 

55 38.4 

56 24.0 

57 155 

58 9.6 

59 2.1 

59 48.0 

60 22.6 
60 42.4 

60 45.7 
60 33.1 
60 7.2 



59 
58 
58 



31.7 

50-7 

7.9 



57 25.9 



DifL for 
z Honr. 



-1. 17 
1.23 
1.26 

-1.27 
1.26 
X.23 

-i.x8 
z.io 
0.96 

-0.77 
0.52 

.21 



+0.14 
0.54 
0.95 

+X.36 

1-73 
2.03 

+2.22 
2.24 
2.07 

+1.70 

X.X5 

+0.48 

—0.20 
0.82 
X.30 

— X.61 
1.76 
1.78 

-1.70 



Midnight 



58 30.9 
58 1.2 

57 30-9 

57 0-4 
56 30.1 

56 0.5 

55 32.1 
55 5.8 
54 42.7 

54 24.3 
54 11.8 

54 6.7 

54 lo-i 
54 23.1 

54 45-9 

55 18.6 

56 0.3 

56 49.2 

57 42.5 

58 36.3 

59 26.x 

60 6.9 
60 34.5 
60 46.2 

60 41.3 
60 21.6 

59 504 

59 1 1-6 
58 29.3 
57 46.6 

57 5-8 



DiflLfor 
zHonr. 



— X.20 

X.25 
X.27 

— X.27 
x.25 

X.2X 

-X.X4 
1.03 
0.87 

-0.65 

0.37 

-0.04 

+0.34 
0.74 

x.x6 

••■I-55 
X.90 

2.X4 

+2.25 
2.18 

X.QX 

+X.44 

0.83 

+0.14 

-0.53 
X.08 

X.48 

—1.70 
1.78 

x-75 
— X.64 



UPPER TRANSIT. 



Meridian of 
Greenwich. 



h m 
19 5.5 

19 53.8 

20 42.8 

21 33.3 

22 25.1 

23 17.9 
6 

o 10.6 

I 2.1 

1 51.6 

2 38.6 

3 23.2 

4 5-8 

4 47.1 

5 28.1 

6 9.7 

6 53.1 

7 39-3 

8 29.3 

9 23.8 

10 22.6 

11 24.5 

12 27.2 

13 28.4 

14 26.5 

15 21.2 

16 13.0 

17 2.7 

17 51.6 

18 40.6 

19 30.4 



DiiLfor 
z Hoar. 



m 
2.0X 

2.02 
2.07 

2.X3 
2.x8 
2.20 



2.x8 

2.XX 
2.0X 

x.8x 

1-74 
X.71 

X.7X 

1.76 
X.86 
2.00 

2.X7 
2.37 
2.53 

2.61 
2.60 
2.49 

2.35 

2.2X 
2.XX 

2.05 
2.03 
2.05 

2.XO 



AGS. 



Noon. 



d 
22.8 

23.8 

24.8 

25.8 
26.8 
27.8 

28.8 
0.2 

i.a 

2.2 
3.2 
4-2 

5-2 
6.2 

7.2 

8.2 

9.2 

10.2 

II.2 
12.2 
13.2 

14.2 

15-2 
16.2 

17.2 
18.2 
19.2 

20.2 
21.2 
22.2 

23.2 



96 



JUNE, 1899. 



V. 



GREENWICH MEAN TIME. 



THE MOON'S RIGHT ASCENSION AND DECLINATION. 



Hour. 



Right 
Ascension. 



Diff. for 
X Minute. 



Declination. 



Diff. for 
X Minnte. 



O 
I 

2 

3 

4 

5 
6 

7 
8 

9 

lO 

II 

12 

13 

14 

15 
i6 

I? 
i8 

19 

20 
21 
22 

23 



O 

X 
2 

3 
4 

5 

6 

7 
8 

9 

10 

II 

12 

13 

14 

15 
i6 

17 
i8 

19 

2C 
21 
22 

23 
24 



THURSDAY !• 



h 
23 
23 



m 
7 
9 



23 II 

23 13 

23 15 

23 17 
23 20 

23 22 

23 24 
23 26 
23 28 
23 30 
23 32 

23 34 
23 36 

23 39 
23 41 
23 43 
23 45 
23 47 
23 49 
23 51 
23 53 
23 55 



23 57 
o o 



• 
19.68 

26.81 

33.86 

40.84 

47-75 

54-59 

1-37 
8.09 

14.75 

21.37 
27.94 

34.47 
40.96 

47.42 

5385 
0.25 

6.63 
12.99 

19-34 
25.68 

32.02 

38.35 
44.68 

51.02 



8 

a. 1195 
a. I 182 
a.xi69 
2.X158 
2.1146 

a.ii35 
a. 1X25 

a.xix5 
a.xio7 
a. 1099 
a. 1092 
2.1085 
2.1079 
a. 1074 
a. 1069 
a.zo65 
a.xo6a 
a. 1059 
a. 1058 
a. 1057 
a.xo56 
«.io55 
a. X056 
a.xQs8 



S. 

N. 



N. 



o 3 
o 10 

o 24 
o 38 

53 

1 7 
I 21 

I 35 

1 49 

2 3 

2 17 
2 31 
2 45 

59 

13 
26 

40 

54 
8 

22 

35 
49 

3 

16 



2 

3 
3 
3 
3 
4 
4 
4 
4 
5 
5 



FRIDAY 2. 



o 
o 
o 
o 
o 
o 
o 
o 
o 
o 
o 
o 
o 
o 
o 
o 
o 
o 
o 
o 
o 
o 
o 



2 

4 

6 

8 
10 

12 

14 
16 

19 

21 

23 
25 
27 
29 
31 

33 
35 
38 
40 

42 

44 
46 

48 



57. 

3. 
10. 

16. 

22. 

29. 

35. 
42. 

48. 

55. 

2. 

8. 

15. 

22. 

29. 

36. 

43. 

50. 

57. 

4. 
II. 

19. 

26. 

34. 
41. 



37 


a.xo59 


73 


a.xa6a 


II 


a.xo65 


51 


a.xo68 


93 


a.xo73 


39 


a. 1078 


87 


8.X083 


38 


3.X089 


94 


a, 1097 


54 


a.xxo3 


18 


a. XXXI 


87 


a.xxi8 


60 


a.ixa7 


39 


a. "37 


24 


a.xx48 


16 


a.1158 


13 


a.xi68 


18 


a. I 180 


29 


a.xi92 


48 


2. 1204 


74 


a.1217 


08 


a.ia3o 


50 


a. 1243 


00 


a.x2s8 


60 


1.1273 



N. 



5 
5 

5 

6 

6 
6 
6 

7 

7 

7 

7 

7 
8 



30 

44 

57 
II 

24 

37 

51 

4 

17 

31 

44 

57 
10 



8 23 
8 36 

8 49 

9 2 



9 

9 

9 

9 
xo 

10 



15 
27 

40 

53 

5 
18 



10 30 



24.7 

43.0 
50.1 

56.5 

2.2 

7-1 
II. o 

14.0 

16.0 

16.8 
16.5 

15-0 
12.0 

7-7 
2.0 

54.7 
45.8 

35.3 
23.0 

8.9 

530 
35.1 
15.2 

53.3 



29.2 
2.9 

34.3 

3.4 

30.1 

54-3 
16.0 

35.1 
51.5 
5.2 
16. 1 
24.2 
29.3 

31.4 

30.5 
26.4 

19.2 

8.7 

54.9 
37.8 
17.3 

53.2 
25.6 

54.3 
19.4 



X4.«33 
14.123 

14. 1x3 
X4.XOX 
X4.088 
14.073 
X4.058 
Z4.042 
X4.023 
14.004 
13.985 
13.9^ 
13.939 
13.9x7 
X3.892 
X3.865 
13.838 
13.810 
13.780 
X3.750 
13.718 
13.685 
13.65a 
13.617 



13.580 
X3.S43 
X3.504 
13.465 
X3.424 

13.383 
X3.340 
X3.296 
13.851 
i3.ao5 
13.158 
13.110 
13.060 
13.010 
ia.958 
ia.906 
ia.853 
xa.798 
ia.743 
ia.686 
12.628 
12.570 
12.509 
ia.448 
ia.387 



Hoar. 



Right 
Ascension. 



Diitfor 
I Minute. 



Declination. 



DHL for 
X Minnte. 



O 

I 
2 

3 

4 

5 
6 

7 
8 

9 
10 

II 

12 

13 

14 

15 
16 

17 
18 

19 
20 

21 

22 
23 



O 

I 
2 

3 

4 

5 
6 

7 

8 

9 

10 

II 
12 

13 

14 

15 
16 

17 
18 

19 
20 

21 
22 
23 
24 



SATURDAY 3, 



h 
O 
O 
O 
O 
O 
O 



2 
2 

2 
2 
2 

2 
2 
2 

2 
2 
2 

2 
2 
2 
2 



m 

48 

50 
52 

55 
57 

59 

I 

3 

5 

7 
10 

12 

14 
16 

18 

20 

22 

25 
27 
29 
31 

33 
35 

38 



40 

42 
44 
46 
48 
51 
53 
55 
57 

59 

2 

4 
6 

8 

xo 

13 
15 
17 
19 

21 

24 
26 

28 
30 

33 



• 
41.60 

49.28 

57.06 

4.93 
12.90 

20.97 

29.14 

37.42 
45.80 

54.29 
2.90 

II. 61 

20.44 

29.39 

38.45 
47.64 

56.95 
6.38 

15.94 

25.63 
35.44 
4538 

55.46 
5.66 



8.1273 
8.1288 

a. 1304 
3.1320 

a. 1337 
a. 1353 
2.1371 
a. 1388 
a. 1406 

8.1485 

a. 1443 
a. 1468 
8.148a 
8.1501 
a. 1581 
8.1548 
8.1562 

8.1583 
8.1604 
8.i6a5 
8.1646 

8. 1668 

a«z690 

8.171a 



N. 



N. 



o 43 

o 55 

7 
20 

32 

44 

56 

8 

20 



2 
2 
2 

3 

3 
3 
3 
3 

4 
4 
4 
4 
4 
4 
5 



32 

43 
55 

7 

18 

30 

41 
52 

4 

15 
26 

37 

48 

58 

9 



19.4 
40.7 
58.2 
II. 9 

21.6 

27.3 
29.0 

26.6 

20.0 

9.1 

54.0 

34.5 
10.6 

42.3 
9.4 

31.9 

49.8 

2.9 

X1.3 
14.9 

13.6 

7.4 
56.2 

40.0 



SUNDAY 4. 



x6.oo 


a. 1734 


N.I 


26.47 


a. 1757 




37.08 


8.1780 




47.83 


8.1803 




58.71 


S.I88S 




9.73 


a. 1848 




20.88 


3.1871 




32.18 


8.189s 




43.62 


8.1918 




55.19 


a.i94X 




6.91 


8.1964 




18.76 


8.1988 




30.76 


8.8018 




42.90 


8.8034 




55.17 


8.8O58 




7.59 


8.8D8a 




20.15 


a.aios 




32.85 


a.aia8 




45.68 


a 8151 




58.66 


a. 8x74 




11.77 


8.8197 




25.02 


8.8220 




38.41 


8.2243 




51.93 


8.2265 




5.59 


8.8888 


N.I 



5 

5 

5 

5 
6 

6 

6 

6 

6 

6 

7 
7 
7 
7 
7 
7 

7 

8 

8 
8 
8 
8 
8 
8 



20 x8.6 
30 52.1 
41 20.3 
51 43.3 

2 I.O 

13.3 

20.2 

21.6 

17.4 

7-7 

52.3 
31.2 

4.3 

31.6 

53.1 

8.7 
18.4 

22.0 

19.6 

XX. x 

56.4 
35.6 

8.5 

35. >• 

55*3 



12 
22 
32 
42 
52 

X 

zx 

2X 
30 

39 
49 

58 

7 
16 

25 

33 

42 

51 

59 

7 



11.387 

18.383 

18. 860 
ia.195 
18.188 
18. 06a 

ZX.994 
II.9SS 

11.854 

11.783 
II.7I8 

IX. 565 

IZ.490 
11.413 
".337 

XZ.8S8 

11.179 

ZZ.IOO 

11.019 
Z0.938 
10.853 

10.778 

10.687 



I0w66i 

10.514 

10.437 

10.399 

10.850 

10.Z60 

10.069 

••977 

9.8814 

9.791 

9.696 

9.600 

9«S0S 

9.407 

9*909 

9.8x1 

9.xit 
9.010 

8.909 
0.807 
8.704 
8.60X 
8.496 

«.99o 

8.884 



VI. 



JUNE, 1899. 



97 













GREENWICH 


MEAN TIME. 






1 








THE MOON'S RIGHT ASCENSION AND DECLINATION. 




Hour. 




Right 


Diflf.for 


Declination. 


Diff.for 


Hour. 


Right 


Diff. for 


Declination. 


Diff. for 




ABccnaion. 


I Minute. 








X Minute. 




Ascension. 


X Minute. 




X Minute. 








I 


fONDA 


Y 5. 










WEDNESDAY 7. 






h 


m 


• 


s 





» 


m 


• 




h m a 


a 


• • 


m 


O 


2 


33 


5-59 


2.3288 


N,i9 


7 


55.3 


8.384 





4 22 1.06 


3.3908 


N.23 31 52.5 


8,540 


I 


2 


35 


19.38 


2.23x0 


19 


16 


9.2 


8.178 


I 


4 24 18.50 


3.3907 


23 34 21. 1 


a.4X3 


2 


2 


37 


33-31 


2.2333 


19 


24 


16.7 


8.071 


2 


4 26 35.94 


a. 2905 


23 36 42.1 


3.286 


3 


2 


39 


47.37 


2.2354 


19 


32 


17.7 


7.963 


3 


4 28 53.36 


3.390a 


23 38 55.4 


3.X58 


4 


2 


42 


1.56 


2.2376 


19 


40 


12.2 


7.853 


4 


4 31 10.76 


3.2898 


23 41 i.o 


8.030 


5 


2 


44 


15.88 


2.2397 


19 


48 


O.I 


7.744 


5 


4 33 28.14 


3.2894 


23 42 59.0 


X.903 


6 


2 


46 


30.32 


3.2418 


19 


55 


41.5 


7.634 


6 


4 35 45-49 


2.3889 


23 44 49.3 


X.774 


7 


2 


48 


44.89 


2.2439 


20 


3 


16.2 


7.523 


7 


4 38 2.81 


8.3884 


23 46 31.9 


1.647 


8 


2 


50 


59.59 


3.2460 


20 


10 


44.2 


7.41 1 


8 


4 40 20.10 


3.3878 


23 48 6.9 


X.519 


9 


2 


53 


14.41 


2.2480 


20 


18 


5-5 


7.298 


9 


4 42 37.34 


3.3871 


23 49 34.2 


X.392 


TO 


2 


55 


29.35 


3.3500 


20 


25 


20.0 


7.X86 


10 


4 44 54-55 


3.38(^ 


23 50 53.9 


1.364 


II 


2 


57 


44.41 


3.2519 


20 


32 


27.8 


7.073 


IX 


4 47 11-70 


a.a854 


23 52 5.9 


1.137 


12 


2 


59 


59.58 


a. 2538 


20 


39 


28.7 


6.958 


12 


4 49 28.80 


3.3845 


23 53 10.3 


X.009 


13 


3 


2 


14.87 


a. 2558 


20 


46 


22.8 


6.843 


13 


4 51 45.84 


a.3835 


23 54 7.0 


0.882 


14 


3 


4 


30.28 


a. 2577 


20 


53 


9.9 


6.728 


14 


4 54 2.82 


3.2835 


23 54 56.1 


0.755 


T5 


3 


6 


45.80 


a. 2595 


20 


59 


50.1 


6.6x2 


15 


4 56 19.74 


3.28x4 


23 55 37.6 


0.628 


i6 


3 


9 


1.42 


2.26x3 


21 


6 


233 


6.495 


16 


4 58 36.59 


3.3803 


23 56 II. 5 


0.50a 


I? 


3 


II 


17.15 


3. 2631 


21 


12 


49.5 


6.378 


17 


5 53.36 


3.2788 


23 56 37-8 


0.375 


i8 


3 


13 


32.99 


3.2648 


21 


19 


8.6 


6.360 


18 


5 3 10.05 


3.3774 


23 56 56.5 


0.348 


19 


3 


15 


48.93 


3.2664 


21 


25 


20.7 


6.143 


19 


5 5 26.65 


3.3760 


23 57 7.6 


-f 0.133 


20 


3 


18 


4.96 


3.2680 


21 


31 


25.6 


6.023 


20 


5 7 43.17 


3.2746 


23 57 II. 2 


— 0.003 


21 


3 


20 


21.09 


3.2696 


21 


37 


234 


5.903 


21 


5 9 59.60 


3.3730 


23 57 7.3 


0.138 


22 


3 


22 


37.31 


3.27x2 


21 


43 


14.0 


5.783 


22 


5 12 15.93 


3.27x4 


23 56 55.8 


0.854 


23 


3 


24 


53.63 
T 


3.3737 
UESDA 


N.2I 

T 6. 


48 


57.4 


5.663 


23 


5 14 32.17 
TF 


3.3697 
lURSD. 


N.23 56 36.8 
\Y 8. 


0,379 





3 


27 


10.03 


3.874X 


N.21 


54 


33-6 


S.543 





5 16 48.29 


3.3678 


N.23 56 10.3 


0.504 


I 


3 


29 


26.52 


a. 3754 


22 





2.5 


5.431 


X 


5 19 4.31 


a. 3660 


23 55 36.3 


0.638 


2 


3 


31 


43.08 


3.2768 


22 


5 


24.1 


5.299 


2 


5 21 20.21 


3.364X 


23 54 54.9 


0.75a 


3 


3 


33 


59.73 


3.3781 


22 


10 


38.4 


5.178 


3 


5 23 36.00 


a.363X 


23 54 6.0 


0.876 


4 


3 


36 


16.45 


a. 2793 


22 


15 


45.4 


5.055 


4 


5 25 51.66 


a. 2600 


23 53 9.8 


0.999 


5 


3 


38 


33.24 


a. 2804 


22 


20 


45.0 


4.93a 


5 


5 28 7.20 


a. 2580 


23 52 6.1 


I.Z33 


6 


3 


40 


50.10 


3.3815 


22 


25 


37-2 


4.808 


6 


5 30 22.62 


a.3558 


23 50 55.1 


X.S45 


7 


3 


43 


7.02 


3. 2826 


22 


30 


22.0 


4.685 


7 


5 32 37.90 


a. 3535 


23 49 36.7 


X.367 


8 


3 


45 


24.01 


3.2836 


22 


34 


59.4 


4.561 


8 


5 34 53.04 


3.35x3 


23 48 II. 


1.489 


9 


3 


47 


41.05 


3.2845 


22 


39 


29.3 


4.436 


9 


5 37 8.04 


3.3488 


23 46 38.0 


x.6xx 


10 


3 


49 


58.15 


3.2854 


22 


43 


51.7 


4.S12 


10 


5 39 22. go 


3.3464 


23 44 57.7 


I.73S 


II 


3 


52 


15.30 


3.3863 


22 


48 


6.7 


4.187 


II 


5 41 37.61 


a. 2439 


23 43 10. 1 


X.853 


12 


3 


54 


32.49 


3.2869 


22 


52 


14. X 


4.061 


12 


5 43 52.17 


3.34x3 


23 41 15.4 


x.97a 


13 


3 


56 


49.73 


a. 2877 


22 


56 


14.0 


3.936 


13 


5 46 6.57 


a. 3388 


23 39 13.5 


8.093 


14 


3 


59 


7.01 


3.3883 


23 





6.4 


S.810 


14 


5 48 20.82 


a.336x 


23 37 4-4 


8.8XX 


15 


4 


I 


24.32 


3.3888 


23 


3 


51.2 


S.684 


15 


5 50 34.90 


a.3333 


23 34 48.2 


8.329 


i6 


4 


3 


41.66 


3.2893 


23 


7 


28.5 


5.558 


16 


5 52 48.81 


3.3305 


23 33 24.9 


«.447 


17 


4 


5 


59.03 


•.2897 


23 


10 


58.2 


5.431 


17 


5 55 2.56 


3.3377 


23 29 54.5 


•.565 


i8 


4 


8 


16.42 


3.2901 


23 


14 


20.2 


5. 304 


18 


5 57 16.13 


8.3348 


23 27 17. 1 


8.683 


19 


4 


10 


33.84 


a. 2904 


23 


17 


34.7 


5.178 


19 


5 59 29.53 


3.22x8 


23 24 32.7 


8.798 


20 


4 


12 


51.27 


3.2906 


23 


20 


41.5 


5.051 


20 


6 I 42.75 


8.3X88 


23 21 41.3 


8.9x4 


21 


4 


15 


8.71 


3.2908 


23 


23 


40.8 


3.924 


21 


6 3 55-79 


3.3x58 


23 18 43.0 


5.039 


22 


^ 


17 


26.16 


3.290S 


23 


26 


32.4 


a.796 


22 


6 6 8.64 


3.3X36 


23 15 37.8 


5.144 


23 


4 


19 


43.61 


3.3908 


23 


29 


16.3 


a. 668 


23 


6 8 21.30 


3.2095 


23 12 25,7 


5.358 


24 


4 


22 


1.06 


3.3908 


N.23 


31 


52.5 


a. 540 


24 


6 10 33.78 


3.3063 


N.23 9 6.9 


5.371 



98 



JUNE, 1899. 



vn. 











GREENWICH 


MEAN 


TIME. 










1 






THE MOON'S 


RIGHT ASCENSION AND DECLINATION. 








Hoar. 




Right 


Diff.for 


Declination. 


Diff. for 


Honr. 




Right 


Diir. for 


Declination. 


Diff. for 




Ascension. 


z Minute. 








I Minnte. 




Ascension. 


1 Minute. 








I Minnte. 








FRIDA1 


^9. 














SUNDAY II. 










h 


m • 


8 





» 


• 


m 




h 


m 


• 


• 





f 


m 


m 


O 


6 


lO 33.78 


3.3063 


N.23 


9 


6.9 


S.371 





7 


52 


10.72 


3.0219 


N.18 


29 


49.3 


7.977 


I 


6 


12 46.06 


3.3031 


23 


5 


41.2 


3.484 


I 


7 


54 


11.92 


8.0180 


18 


21 


48.4 


8.053 


2 


6 


14 58.15 


3.1998 


23 


2 


8.8 


3.596 


2 


7 


56 


12.88 


8.0x41 


18 


13 


42.9 


8.129 


3 


6 


17 10.03 


3.1963 


22 


58 


29.7 


3.708 


3 


7 


58 


13-61 


8.0103 


18 


5 


32.9 


8.204 


4 


6 


19 21.71 


8.Z93O 


22 


54 


43.9 


3.819 


4 


8 





14.10 


3.0063 


17 


57 


18.4 


8.379 


5 


6 


21 33-19 


3.1897 


22 


50 


51.4 


3.939 


5 


8 


2 


14.37 


3.0025 


17 


48 


59-4 


8.353 


6 


6 


23 44-47 


3.X863 


22 


46 


52.4 


4.038 


6 


8 


4 


14.40 


1.9986 


17 


40 


36.0 


8.426 


7 


6 


25 55.53 


3.X836 


22 


42 


46.8 


4.148 


7 


8 


6 


14.20 


1.9948 


17 


32 


8.3 


8.498 


8 


6 


28 6.38 


3.I79I 


22 


38 


34.6 


4.257 


8 


8 


8 


13.77 


1.9909 


17 


23 


36.2 


8.570 


9 


6 


30 17.02 


3.1755 


22 


34 


x6.o 


4.363 


9 


8 


10 


13-11 


I. 9871 


17 


14 


59.9 


8.64X 


lO 


6 


32 27.44 


3.17x9 


22 


29 


51.0 


4.470 


10 


8 


12 


12.22 


1.9833 


17 


6 


19-3 


8.7x1 


II 


6 


34 37.65 


8.1683 


22 


25 


19.6 


4.577 


II 


8 


14 


II. II 


X.9797 


16 


57 


34.6 


8.779 


12 


6 


36 47-63 


S.X645 


22 


20 


41.8 


4.683 


12 


8 


16 


9.78 


1.9760 


16 


48 


45.8 


8.848 


13 


6 


38 57.39 


3.X608 


22 


15 


57-7 


4.787 


13 


8 


18 


8.23 


1.9733 


16 


39 


52.9 


8.916 


14 


6 


41 6.93 


3.X57a 


22 


II 


7.3 


4.893 


14 


8 


20 


6.45 


1.9686 


16 


30 


55.9 


8.983 


15 


6 


43 16.25 


3.X534 


22 


6 


10.7 


4.994 


15 


8 


22 


4-46 


1.9650 


16 


21 


55.0 


9.048 


i6 


6 


45 25.34 


3.1496 


22 


I 


8.0 


5.097 


16 


8 


24 


2.25 


1.9613 


16 


12 


50.1 


9.1x4 


I? 


6 


47 34.20 


3.1457 


21 


55 


59.1 


5.199 


17 


8 


25 


59.82 


1.9578 


16 


3 


41.3 


9.178 


i8 


6 


49 42.82 


3.14x8 


21 


50 44.1 


5.301 


18 


8 


27 


57.19 


1.9543 


15 


54 


28.7 


9.343 


19 


6 


51 51.22 


3.X38X 


21 


45 


23.0 


5.401 


19 


8 


29 


54-34 


X.9508 


15 


45 


12.2 


9.306 


20 


6 


53 59.39 


3.134* 


21 


39 


56.0 


5.500 


20 


8 


31 


51.28 


X.9473 


15 


35 


52.0 


9.368 


21 


6 


56 7.32 


3.X303 


21 


34 


23.0 


5*599 


21 


8 


33 


48.01 


1.9438 


15 


26 


28.1 


9.439 


22 


6 


58 15.02 


3.1363 


21 


28 


44.1 


5.698 


22 


8 


35 


44-54 


1.9404 


^5 


17 


0.5 


9.491 


23 


7 


22.48 


3.1333 


N.2I 


22 


59.3 


5.795 


23 


8 


37 


40.86 


1.9370 


N.15 


7 


29.2 


9.551 






SA 


TURD/ 


LY 10. 












M 


ON DAI 


r 12. 








O 


7 


2 29.70 


3.Z184 


N.21 


17 


8.7 


5.89a 





8 


39 


36.98 


X.9337 


N.14 


57 


54.4 


9.609 


I 


7 


4 36.69 


3.1144 


21 


II 


12.3 


5.988 


I 


8 


41 


32.90 


X.9304 


14 


48 


16. 1 


9.668 


2 


7 


6 43.43 


3.1104 


21 


5 


10.2 


6.083 


2 


8 


43 


28.63 


1.9373 


14 


38 


34.2 


9.737 


3 


7 


8 49.94 


3.1065 


20 


59 


2.4 


6.177 


3 


8 


45 


24.17 


1.9340 


14 


28 


48.9 


9.784 


4 


7 


10 56.21 


3.1034 


20 


52 


49-0 


6.370 


4 


8 


47 


19-51 


1.9208 


14 


19 


0.2 


9.839 


5 


7 


13 2.23 


3.0984 


20 


46 


30.0 


6.363 


5 


8 


49 


14.66 


X.9177 


14 


9 


8.2 


9.895 


6 


7 


15 8.02 


8.0944 


20 


40 


5.4 


6.456 


6 


8 


51 


9-63 


X.9146 


13 


59 


12.8 


9.95X 


7 


7 


17 13.56 


8.0903 


20 


33 


35.3 


6.547 


7 


8 


53 


4.41 


1.9115 


13 


49 


14. 1 


10. 005 


8 


7 


19 18.86 


8.0863 


20 


26 


59.8 


6.637 


8 


8 


54 


59.01 


1.9085 


13 


39 


12.2 


10.058 


9 


7 


21 23.92 


a. 0833 


20 


20 


18.9 


6.737 


9 


8 


56 


53.43 


1.9056 


13 


29 


7.1 


XO.XX2 


lO 


7 


23 28.74 


3.0783 


20 


13 


32.6 


6.816 


10 


8 


58 


47.68 


1.9027 


13 


18 


58.8 


10.164 


II 


7 


25 33.31 


3.0743 


20 


6 


41.0 


6.903 


II 


9 





41.75 


1.8997 


13 


8 


47.4 


IO.316 


12 


7 


27 37.64 


3.0703 


19 


59 


44.2 


6990 


12 


9 


2 


35-64 


X.8968 


12 


58 


32.9 


10.867 


13 


7 


29 41.73 


3.0661 


19 


52 


42.2 


7.077 


13 


9 


4 


29.37 


X.8941 


12 


48 


15.4 


10.3x6 


M 


7 


31 45.57 


3.o6ao 


19 45 


35-0 


7.163 


14 


9 


6 


22.93 


1.891S 


12 


37 


55.0 


10.365 


15 


7 


33 49.17 


8.0580 


19 


38 


22.6 


7.348 


15 


9 


8 


16.33 


1.8886 


12 


27 


31.6 


10.414 


i6 


7 


35 52.53 


3.0540 


19 


31 


5-2 


7.33a 


16 


9 


10 


9.56 


1.8859 


12 


17 


5.3 


10.463 


17 


7 


37 55.65 


3.0499 


19 


23 


42.8 


7.415 


17 


9 


12 


2.64 


1.8834 


12 


6 


36.1 


10.510 


i8 


7 


39 58.52 


8.0459 


19 


16 


15-4 


7.498 


18 


9 


13 


55-57 


X.8808 


II 


56 


4.1 


10.557 


19 


7 


42 1. 16 


8.04x9 


19 


8 


43.1 


7.579 


19 


9 


15 


48.34 


1.8783 


II 


45 


29.3 


10.603 


20 


7 


44 3.55 


8.0378 


19 


I 


5.9 


7.660 


20 


9 


17 


40.96 


1.8758 


II 


34 


51.7 


XO.648 


21 


7 


46 5.70 


3.0338 


18 


53 


23-9 


7.740 


21 


9 


19 


33-44 


1.8735 


IX 


24 


".5 


10.693 


22 


7 


48 7.61 


8.0299 


18 


45 


37.1 


7.819 


22 


9 


21 


25-78 


1.8711 


IX 


13 


28.6 


10.737 


23 


7 


50 9.29 


3.0259 


18 


37 


45-6 


7.898 


23 


9 


23 


17.97 


1.86S8 


XI 


2 


43.1 


10.780 


24 


7 


52 10.72 


3.0219 


N.18 


29 


49-3 


7.977 


24 


9 


25 


10.03 


X.866J 


N.io 


51 


55-0 


XO.823 



VIII. 



JUNE, 1899. 



99 



GREENWICH MEAN TIME. 



THE MOON'S RIGHT ASCENSION AND DECLINATION. 



Hour. 



Right 
Ascension. 



Diff. for 
I Minute. 



Declination. 



Diff. for ' 
I Minute. 3 



Hoar, 



O 

I 
2 

3 

4 

5 
6 

7 
8 

9 

lO 

II 

12 

13 

15 
i6 

I? 
i8 

19 

20 
21 

22 

23 



o 
I 

2 

3 

4 

5 
6 

7 
8 

9 

lO 

II 

12 

13 

14 

15 
i6 

17 
i8 

19 

20 
21 
22 

23 
24 



TUESDAY 13. 



h 

9 

9 

9 

9 

9 

9 

9 

9 

9 

9 

9 

9 

9 

9 

9 

9 

9 

9 

9 
10 

10 

10 

10 

xo 



m 

25 
27 

28 

30 
32 

34 
36 
38 
40 

41 
43 
45 
47 
49 
51 
52 

54 

56 

58 

o 

2 
3 
5 
7 



• 


8 


10.03 


Z.8664 


1-95 


X.8642 


53-74 


1.8622 


45-41 


I. 6601 


36.95 


X.8579 


28.36 


1.8559 


19.66 


1.8540 


10.84 


1.8522 


1.92 


1.8503 


52.88 


1.8485 


43.74 


X.8468 


34.50 


X.8451 


25.15 


x.8«4 


15-71 


I. 8419 


6.18 


1.8404 


56.56 


1.S390 


46.86 


1.8377 


37.08 


1.8363 


27.22 


1.8350 


17.28 


1.8338 


7.28 


Z.8328 


57-21 


I. 8316 


47.07 


1.8305 


36.87 


1.8296 



N.io 51 
10 41 
10 30 
10 19 
10 8 



57 
46 

35 

24 

12 



9 

9 

9 

9 

9 

9 I 
8 50 

8 39 
8 27 

8 16 
8 5 



:N, 



7 

7 

7 

7 

7 
6 

6 

6 



53 
42 

30 

19 

7 

56 

44 
33 



WEDNESDAY 14. 

N. 6 
6 



9 26.62 


I. 8287 


II 16.31 


1.8278 


13 5.96 


1.8271 


14 55.56 


1.8263 


16 45.11 


1.8256 


18 34.63 


1.8250 


20 24.11 


1.8244 


22 13.56 


X.8240 


24 2.99 


1.8236 


25 52.39 


1.8232 


27 41.77 


X.8229 


29 31.14 


Z.8227 


31 20.49 


1.8225 


33 9.84 


1.8224 


34 59.18 


1.8223 


36 48.52 


1.8224 


38 37-87 


X.8226 


40 27.23 


1.8297 


42 16.59 


Z.8228 


44 5-97 


X.8232 


45 55.37 


X.8236 


47 44.80 


1.8240 


49 34.25 


1.8344 


51 23.73 


X.8250 


53 13.25 


1.8257 



5 
5 
5 
5 
5 
4 
4 
4 
4 
4 
3 
3 
3 
3 
3 

2 

2 
2 
2 
2 
I 
I 

N. I 

I 



55.0 
4.4 

II. 3 

15.7 
17.7 

173 

14-5 
9-5 

2.2 
52.6 
40.8 
26.9 
10.9 
52.8 

32.7 
10.5 

46.4 

20.3 

52.4 
22.6 

50.9 

17-5 
42.4 

5.5 



21 


27.0 


XX. 656 


9 


46.8 


XX.683 


58 


5-1 


XX. 709 


46 


21.7 


XI. 736 


34 


36.8 


IX. 761 


22 


50.4 


11.785 


II 


2.6 


XI. 808 


59 


13.4 


IZ.833 


47 


22.7 


IX.855 


35 


30.8 


11.877 


23 


37.5 


xx.8g9 


II 


42.9 


XX. 920 


59 


47.1 


XX.940 


47 


50.1 


XZ.960 


35 


51-9 


IX.979 


23 


52.6 


X1.993 


II 


52.2 


ia.ox5 


59 


50.8 


xa.033 


47 


48.3 


12.050 


35 


44.8 


X2.066 


23 


40.4 


X2.o8x 


II 


35-1 


12.096 


59 


28.9 


12.11X 


47 


21.8 


X2.X24 


35 


14.0 


xa.137 



X0.823 
10.864 
X0.906 

10.947 
X0.987 
11.027 
XI. 065 
1I.X03 
XX. 141 
XX. 178 
XX. 2x4 

XI. 249 
11.284 
11.3x8 

".353 
XI.38S 
XI. 418 

11.450 

IX. 481 

II. 513 
11.543 
".571 

XX. 600 
XI. 628 



Right 
Ascension. 



Diff. for 
X Minute. 



Declination. 



Diff. for 
X Minute. ' 



O 

I 

2 

3 

4 

5 
6 

7 
8 

9 
10 

II 

12 

13 

14 

15 
16 

17 

18 

19 
20 

21 

22 

23 



o 

I 

2 

3 

4 

5 
6 

7 
8 

9 
10 

II 

12 

13 

14 

15 
16 

17 
18 

19 

20 
21 
22 

23 
24 



THURSDAY 15. 



h 
O 

O 

o 
o 



2 
2 
2 
2 
2 
2 
2 
2 
2 
2 
2 



m 

53 
55 
56 
58 
o 
2 

4 
6 

7 

9 
II 

13 

15 

17 
18 

20 

22 

24 
26 

28 

29 
31 
33 
35 



37 

39 

41 

42 

44 
46 

48 
50 
52 

54 
56 
58 

59 
I 

3 

5 

7 

9 
II 

13 

15 

17 

19 
20 

22 



• 

13.25 
2.81 

52.41 
42.06 

31.76 

21.51 

11.33 
I.20 

51.15 
41.17 

31.26 
21.43 

11.68 

2.02 

52.46 

42.99 
33.62 

".4.36 

15.21 

6.17 

57.24 

48.44 

39-77 
31-22 



s 
1.8257 

X.8263 
X.8271 
X.8279 
X.8288 
X.8298 
X.8308 
1.83x8 
X.833X 
1.8343 
1.8355 
X.8368 
1.8383 
X.8398 

X.8414 
X.8430 

X.8448 
X.8466 
X.8484 
1.8503 
1.8523 
X.8544 
X.856S 
X.8587 



N. 



N. 
S. 



I 
I 
I 
o 
o 
o 
o 
o 
o 
o 
o 
o 
o 
I 
I 
I 
1 
I 

2 



s. 



35 

23 
10 

58 

46 

34 

22 

9 

2 

14 
26 

38 

51 

3 
15 
27 
40 
52 

4 
2 16 

2 29 

41 

53 
6 



2 
2 

3 



FRIDAY 16. 



22.81 

14.54 
6.41 

58.43 
50.60 

42.92 

35-41 
28.06 

20.88 

13.87 

7.04 

0.38 

53.91 
47.63 

41.55 
35.67 
29.99 

24.52 

19.25 

14.21 

9.38 

4.78 

0.40 

56.26 

52.35 



1.86x0 
X.8633 
1.8657 
X.8683 
X.8708 

1.8734 
1.8762 
X.8789 
X.8818 

1.8847 
X.8876 
X.8906 
X.8938 
X.8970 
X.9003 
X.9037 
1.9071 
X.9X05 
X.9X4X 
1.9x78 
X.9214 

x.9a5a 

x.9290 

1.9339 
1.9369 



s. 



X4.0 

5.4 

56.1 
46.1 

35.4 

24.1 

12.2 

59.8 
13. 1 
26.5 

40.3 
54.6 

9-1 
24.0 

39.1 

54-5 
10. 1 

25.8 

41.7 

57-6 

13.5 

29.5 

45.4 

1.2 



s. 



3 


18 


16.8 


n.sS9 


3 


30 


32.3 


12.257 


3 


42 


47-6 


xa.a53 


3 


55 


2.6 


xa.248 


4 


7 


17.3 


12.343 


4 


19 


31.7 


xa.337 


4 


31 


45.7 


13.330 


4 


43 


59.3 


13.333 


4 


56 


12.4 


X3.3X4 


5 


8 


25.0 


X3.905 


5 


20 


37.0 


X3.X95 


5 


32 


48.4 


X3.X84 


5 


44 


59.1 


X3.X73 


5 


57 


9-1 


X3.x6x 


6 


9 


18.4 


X3.148 


6 


21 


26.9 


13.134 


6 


33 


34.5 


la.xao 


6 


45 


41.3 


13.105 


6 


57 


47.1 


X3.088 


7 


9 


51-9 


13.073 


7 


21 


55.7 


ia.054 


7 


33 


58.4 


13.035 


7 


45 


59.9 


13.0x6 


7 


58 


0.3 


".995 


8 


9 


59.3 


IX.973 



13.137 
X3.'49 

13 161 

13.173 
X3.X84 

13.193 
13.203 
X2.2IX 
12.219 
13.327 
X2.234 
X2.34O 
X2.345 
X3.350 

13. 354 
13.358 
I3.36X 
X3.363 
X2.265 
X3.265 
X3.366 
X3.366 

X3.364 
X8.a6a 






100 



JUNE, 1899. 



IX. 











GREENWICH 


MEAN TIME. 








THE MOON'S RIGHT ASCENSION AND DECLINATION. 

• 


Hour. 




Right 


Diif . for 


Declination. 


Diff. for 


Hoar. 


Right 


Diif. for 


Declination. 


DiilLfor 


• A V# VAV ■ 


Ascension. 


X Minote. 




X Minate. 






X Minute. 




I Minute. 






SA 


TURDi 


lY 17. 






MONDAY 19. 






h 


m s 


B 


• m 


m 




h m s 


• 


• > 9 


m 


o 


12 


22 52-35 


X.9369 


S. 8 9 59.3 


XX.973 





14 I 42.41 


8.9048 


S.17 I 25.6 


9-738 


I 


12 


24 48.69 


X.94XO 


8 21 57.1 


xx.gsa 


I 


14 3 54.87 


a.axxx 


17 II 7.6 


9.66X 1 


a 


12 


26 45.27 


X.945X 


8 33 53.5 


11.938 


2 


14 6 7.74 


8.8x79 


17 20 44.9 


9.583 


3 


12 


28 42.10 


X.9493 


8 45 48.5 


XX.905 


3 


14 8 21.02 


8.8848 


17 30 17.5 


9-503 


4 


12 


30 39.18 


1.9536 


8 57 42.1 


XX.88X 


4 


14 10 34.72 


8.83x8 


17 39 45.3 


9.433 


5 


12 


32 36.53 


X.9579 


9 9 34-2 


IX. 855 


5 


14 12 48.84 


8.8388 


17 49 8.3 


9-S4a 


6 


12 


34 34-13 


x.g6a3 


9 21 24.7 


xx.8a8 


6 


14 15 3.38 


8.2458 


17 58 26.3 


9.S58 


7 


12 


36 32.00 


X.9668 


9 33 13-5 


XX. 800 


7 


14 17 18.34 


8.2528 


x8 7 39.2 


9.X73 


8 


12 


38 30.15 


X.9713 


9 45 0.7 


ix.TTa 


8 


14 19 3372 


a. 2599 


18 16 47.0 


9.066 


9 


12 


40 28.56 


X.97S9 


9 56 46.2 


xx.74a 


9 


14 21 49.53 


8.8670 


18 25 49.5 


8.998 


lO 


12 


42 27.26 


X.9807 


10 8 29.8 


XX.7X8 


10 


14 24 5.76 


8.874X 


18 34 46.8 


8.9x0 


XI 


Z2 


44 26.24 


X.9854 


10 20 11.6 


XX.680 


IX 


14 26 22.42 


8.88X8 


18 43 38.7 


8.8x9 


12 


12 


46 25.51 


1.9903 


10 31 51.4 


XX.647 


12 


14 28 39.50 


8.2883 


18 52 25.1 


8.787 


13 


12 


48 25.07 


X.995X 


10 43 29.3 


XX.6X5 


13 


14 30 57-OI 


«.a955 


19 1 5.9 


8.^ 


14 


12 


50 24.92 


a.ooox 


10 55 5.2 


xx.sSx 


14 


14 33 14.96 


2.SO87 


19 9 41.1 


8.558 


15 


12 


52 25.08 


a.0QSx 


II 6 39.0 


XI. 545 


15 


14 35 33-33 


8.3098 


19 18 10.5 


8.442 


i6 


12 


54 25.53 


8.0X08 


XI 18 10.6 


XX.508 


16 


14 37 52.13 


8.3x69 


19 26 34.1 


8-343 


17 


12 


56 26.30 


8.0x54 


II 29 40.0 


xx.47a 


17 


14 40 11.36 


8.384X 


19 34 51.7 


8.843 


x8 


12 


58 27.38 


8.oao6 


II 41 7.2 


XX.433 


18 


14 42 31.02 


8.33x3 


19 43 3.3 


8.143 


19 


13 


28.77 


8.0858 


II 52 32.0 


XI.393 


19 


14 44 51.11 


8.3384 


19 51 8.8 


8.041 


20 


13 


2 30.47 


8.0Stx 


12 3 54-4 


XX. 353 


20 


14 47 11.63 


8,345« 


19 59 8.2 


7.937 


21 


13 


4 32.50 


2.0366 


12 15 14.3 


XI.31Z 


21 


14 49 32.58 


8.35a8 


20 7 1.2 


7.831 


22 


13 


6 34.86 


8.Q4SX 


12 26 31.7 


XX.868 


22 


14 51 53.96 


S.3599 


20 14 47.9 


7.7*4 , 


a3 


13 


8 37.55 
S 


8.0477 
UNDAl 


S.12 37 46.5 

' 18. 


xx.aas 


23 


14 54 15.77 
TI 


2.3670 

JESDA^ 


S.20 22 28.1 

Y 20. 


7.6x5 


o 


13 


10 40.58 


a. 0533 


S.12 48 58.7 


xx.xSo 





14 56 38.00 


2.374X 


S.20 30 x.7 


7.505 


I 


13 


12 43-94 


8.0589 


13 8.1 


XI.X33 


I 


14 59 0.66 


•.38x3 


20 37 28.7 


7.394 


2 


13 


14 47.65 


8.0647 


13 II 14.7 


XI. 086 


2 


15 1 23.75 


2.3883 


20 44 49.0 


7.881 


3 


13 


16 51.70 


8.0704 


13 22 18.4 


XX. 038 


3 


15 3 47.26 


9.3954 


20 52 2.4 


7.X66 


4 


13 


18 56.10 


8.0763 


13 33 19.2 


XO.988 


4 


15 6 11.20 


8.4025 


20 59 8.9 


7.050 


5 


13 


21 0.85 


8.088X 


13 44 16.9 


XO.937 


5 


15 8 35.56 


S.4094 


21 6 8.4 


6.93s 


6 


13 


23 5-95 


8.088X 


13 55 II-6 


10.886 


6 


15 11 0.33 


8.4x64 


21 13 0.8 


6.8x3 


7 


13 


25 11.42 


8.094a 


14 6 3.2 


10. 833 


7 


15 13 25.53 


t.4aS4 


21 19 46.0 


6.69s 


8 


13 


27 17.25 


8.X003 


14 16 51.5 


X0.778 


8 


15 15 51.14 


t.430S 


21 26 24.0 


6.578 


9 


13 


29 23.45 


a. 1063 


14 27 36.5 


XO.723 


9 


15 18 17.16 


t.437« 


21 32 54.6 


6.448 


10 


13 


3X 30.01 


8.XX8S 


14 38 18.2 


XO.666 


10 


15 20 43.60 


8.4440 


21 39 17.7 


6.sa3 


IZ 


13 


33 36.95 


8.1x88 


14 48 56.4 


XO.608 


II 


15 23 10.44 


8.4508 


21 45 33.3 


6.197 


12 


13 


35 44-26 


8.X8SO 


14 59 31. 1 


XO.548 


12 


15 25 37-69 


•.4575 


21 51 41.3 




13 


13 


37 51.95 


8.X3X4 


15 10 2.2 


10. 488 


13 


15 28 5,34 


8.4643 


21 57 41.6 


5.999 


14 


13 


40 0.03 


8.X378 


15 20 29.7 


10.427 


14 


15 30 33-40 


a.4709 


22 3 34.0 


5.808 , 


15 


13 


42 8.49 


a.X44S 


15 30 53-4 


X0.363 


15 


15 33 1.85 


«.4775 


22 9 18.5 


5.676 


i6 


13 


44 17-34 


8.X50B 


15 41 13.3 


X0.399 


16 


15 35 30.70 


8.4840 


22 14 55.1 


S.543 


17 


13 


46 26.58 


a.X57S 


15 51 29.3 


X0.833 


17 


15 37 59-93 


8.4904 


22 20 23.6 


5.408 


i8 


13 


48 36.21 


8.1638 


16 I 41.3 


XO.X67 


18 


15 40 29.55 


a. 4968 


22 25 44.0 


5.«7X ' 


19 


13 50 46.24 


8.X705 


t6 II 49.3 


XO.099 


19 


15 42 59-55 


8.5QJX 


22 30 56.1 


5.199 


20 


13 


52 56.67 


8.X778 


16 21 53.2 


10.029 


20 


15 45 29.92 


8.5099 


22 36 0.0 


4.994 


2X 


13 


55 7-50 


a. 1838 


16 31 52.8 


9.938 


21 


15 48 0.67 


8.5156 


22 40 55.4 


4.853 i 


22 


13 


57 18.73 


8.X906 


16 41 48.1 


9.886 


22 


15 50 31.79 


8.58X7 


22 45 42.4 


4.7x8 I 


a3 


13 


59 30.37 


8. 1973 


16 51 39.1 


9.813 


23 


15 53 3-27 


8.5877 


22 50 20.8 


4.568 j 


«4 

1 


14 


I 42.4X 


8.804a 


S.17 I 25.6 


9.738 


24 


15 55 35.11 


a. 3336 


S.22 54 50.6 


4.4«4 . 



X. 



JUNE, 1899. 



101 









GREENWICH 


MEAN 


TIME. 












THE MOON'S RIGHT ASCENSION AND DECLINATION. 






Hour. 


Right 


Diff. for 


Declination. 


Diff. for 


Hoar. 




Right 


Diff. for 


DofilSnation. 


Diff. for 




AKension. 


X Minnta. 








z Minute. 






zMinoto. 


m^^0T 




z Minute. 




WE 


DNESE 


>AY 21. 










FRIDAY 


23. 








h m • 


• 


• 


* 


m 


IV 




h 


m 8 


8 


• 


m 


m 


O 


15 55 35." 


a. 5336 


S.22 


54 


50.6 


4-424 





18 


X 48.90 


8.6733 


S.23 


21 52.4 


3.sa3 


X 


15 58 7.30 


9'Sm 


22 


59 


II.7 


4.378 


I 


18 


4 29.22 


8.67x5 


23 


18 15.9 


3.«95 


2 


16 39-84 


a. 545a 


23 


3 


23.9 


4.130 


2 


18 


7 9.48 


8.Q706 


23 


14 29.0 


S.867 


3 


16 3 12.73 


8.SS09 


23 


7 


27.3 


3.982 


3 


18 


9 49-69 


a. 6697 


23 


ID 31.8 


4.098 


4 


16 5 45.95 


«.53C4 


23 


II 


21.8 


3.833 


4 


18 


12 29.84 


8.6685 


23 


6 24.4 


4.809 


5 


16 8 19.50 


t.s6z8 


23 


15 


7.3 


S.682 


5 


18 


15 9.91 


9»66yi 


23 


2 6.7 


4.380 


6 


16 10 53.37 


«.567« 


23 


18 


43.6 


3.529 


6 


18 


17 49.89 


8.6656 


22 


57 38.8 


4.549 


7 


16 13 27.57 


a.57«6 


23 


22 


10.8 


3.377 


7 


18 


20 29.78 


a. 6640 


22 


53 0.8 


4.7x8 


8 


16 16 2.08 


a. 5777 


23 


25 


28.8 


3.a23 


8 


18 


23 9.57 


8.6683 


22 


48 12.6 


4.887 


9 


16 18 36.89 


a.58a7 


23 


28 


37.5 


S.068 


9 


18 


25 49.25 


8.6604 


22 


43 14.3 


5.055 


zo 


16 21 12.00 


a.587« 


23 


31 


36.9 


S.9XX 


10 


18 28 28.82 1 


8.6584 


22 


38 6.0 


5.888 


IX 


16 23 47-40 


a.59a4 


23 


34 


26.8 


a.753 


II 


18 


31 8.26 


8.656a 


22 


32 47.7 


5.388 


xa 


16 26 23.09 


a.S97a 


23 


37 


7.2 


8.594 


12 


18 


33 47-56 


a.6538 


22 


27 19.4 


5. 554 


13 


16 28 59.06 


8.6017 


23 


39 


38.1 


a. 435 


13 


18 


36 26.72 


8.65x4 


22 


21 41.2 


5.7x8 


H 


16 31 35.29 


8.6061 


23 


41 


59.4 


8.374 


14 


18 


39 5.73 


a.6489 


22 


15 53.2 


S.883 


15 


16 34 "-79 


a.6zQS 


23 


44 


II. 


a.xi3 


15 


18 


41 44.59 


8.646a 


22 


9 55.3 


6.046 


i6 


x6 36 48.55 


8.6x47 


23 


46 


12.9 


X.950 


16 


18 


44 23.28 


3.6433 


22 


3 47.7 


6.808 


17 


16 39 25.55 


8.6x88 


23 


48 


5.0 


X.787 


17 


18 


47 1.79 


8.6404 


21 


57 30.4 


6.368 


i8 


16 42 2. 80 


8.6887 


23 


49 


47.3 


X.633 


18 


18 


49 40.13 


8.6374 


21 


51 3.5 


6.5a8 


19 


16 44 40.27 


3.6i6# 


23 


51 


19.7 


X.457 


19 


18 


52 18.28 


8.634a 


2X 


44 27.0 


6.6B8 


20 


16 47 17.97 


a.6908 


23 


52 


42.1 


X.39X 


20 


18 


54 56.23 


8.6309 


21 


37 41.0 


6.845 


2X 


16 49 55-89 


a.ft37 


23 


53 


54.6 


i.ias 


21 


18 


57 33.99 


8.6376 


2X 


30 45.6 


7*008 


22 


16 52 34.01 


a.6371 


23 


54 


57.1 


0.958 


22 


19 


11.54 


8.6340 


2X 


23 40.8 


7.158 


a3 


16 55 12.34 


8.6404 


S.23 


55 49.5 1 


0.790 


23 


19 


2 48.87 


8.6304 


S.2I 


16 26.7 


7.3X8 




TK 


[URSDi 


\y 22. 










SA' 


rURDA 


Y24 


• 




o 


16 57 50.86 


8.6433 


s.23 


56 


31.9 


0.633 





19 


5 25.99 


8.6x67 


S.2I 


9 3.4 


7.4«5 


X 


17 29.56 


8.6464 


23 


57 


4.1 


0.45a 


I 


19 


8 2.88 


8.6X38 


21 


I 30.9 


7.6x7 


2 


17 3 8.43 


a.649S 


23 


57 


26.1 


0.383 


2 


19 


10 39.53 


8.6089 


20 


53 49.4 


7.767 


3 


17 5 47-47 


8.65x9 


23 


57 


37.9 


- O.II3 


3 


19 


13 15-95 


a.6Q49 


20 


45 58.9 


7.9x7 


4 


17 8 26.66 


a. 6543 


23 


57 


39.5 


+ 0.059 


4 


19 


15 52.12 




20 


37 59.4 


8.065 


5 


17 II 5.99 


8.6568 


23 


57 


30.8 


0.333 


5 


19 


18 28.04 


8.5966 


20 


29 51. 1 


8.8X8 


6 


17 13 45.47 


8.6590 


23 


57 


II.7 


0.403 


6 


19 


21 3.71 


8.5993 


20 


21 34.0 


8.357 


7 


17 16 25.07 


a. 66x0 


23 


56 


42.4 


0.575 


7 


19 


23 39.12 


a. 5880 


20 


13 8.3 


8.500 


8 


17 19 4.79 


3.6639 


23 


56 


2.7 


0.748 


8 


19 


26 14.27 


8.5836 


20 


4 34.0 


«.6#S 


9 


17 21 44.62 


8.6647 


23 


55 


12.7 


0.930 


9 


19 


28 49.15 


a. 5790 


19 


55 51.2 


«.7«4 


xo 


17 24 24.55 




23 


54 


12.3 


X.O94 


10 


19 


31 23.75 


•.5743 


19 


46 59.9 


8.984 


IX 


17 27 4.57 


3.6676 


23 


53 


1.4 


X.868 


II 


19 33 58.07 


a. 5697 


19 


38 0.3 


9*068 


12 


17 29 44.68 


3.6691 


23 


51 


40.2 


X.441 


12 


19 


36 32.11 


8.5649 


19 


28 52.5 


9.xgB 


13 


17 32 24.86 


8.6708 


23 


50 


8.5 


x.6x5 


13 


19 


39 5.86 


3.5608 


19 


19 36.6 


9.333 


14 


17 35 5.10 


3.67XX 


23 


48 


26.4 


X.788 


14 


19 


41 39.33 


a. 5553 


19 


10 12.6 


9*4^ 


15 


17 37 45.39 


3.67x9 


23 


46 


33.9 


x.968 


15 


19 


44 12.50 


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19 


40.6 


9*508 


i6 


17 40 25.73 


8.6736 


23 


44 


31.0 


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16 


19 


46 45.37 


a. 5454 


18 


51 0.8 


9.7iB 


17 


17 43 6.10 


3.673X 


23 


42 


17.6 


a. 310 


17 


19 


49 17.95 


a. 5404 


18 


41 13.3 


9.856 


i8 


17 45 46.50 


a. 6734 


23 


39 


53.8 


a.483 


18 


19 


51 50.22 


a. 5353 


18 


31 18. 1 


9*983 


19 


17 48 26.91 


8.6736 


23 


37 


19.6 


8.658 


19 


19 


54 22.18 


8*5308 


18 


21 15.3 




20 


17 51 7.33 


8.6737 


23 


34 34.9 


8.831 


20 


19 


56 53.84 


•.5a50 


18 


II 50 


ZO.8S8 


21 


17 53 47.75 


3.6736 


23 


31 


39-9 


3.004 


21 


19 


59 25.18 


8.5x98 


18 


47.4 


XO.354 


22 


17 56 28.16 


a.6733 


23 


28 


34.4 


3.178 


22 


20 


I 56.21 


a. 5145 


17 


50 22.5 


XO.474 


23 


X7 59 8.54 


3.6738 


23 


25 


18.6 


3.350 


23 


20 


4 26.92 


a. 5093 


17 39 50.5 


X0.999 


24 


18 I 48.90 


8* (^783 


s.23 


21 


52.4 


3«5a3 


24 


20 


6 57.32 


a.5040 


S.17 29 I 1.4 


XO.709 





























102 



JUNE, 1899. 



XL 











GREENWICH 


MEAN 


TIME. 














THE MOON'S 

• 


RIGHT 


ASCENSION AND DECLINATION. 






Hour. 




Right 


Diff. for 


DeclinatioiL 


Diff. for 


Hoar. 




Right 


Diff. for 


DeelinadoB. 


Diff. for 




Ascension. 


I Minute. 








X Minate. 




Ascensioa 


z Mxnote. 






z Minute. ' 






S 


UNDAl 


' as. 












TUESDAY 27, 








h 


m • 


s 


• 


1 


• 


m 




h 


m ■ 


a 


• 


m 


m 


O 


20 


6 57.32 


a. 5040 


S.I7 


29 


11.4 


XO.709 





22 


I 1.44 


8.3590 


S. 7 


14 54.9 


X4.197 


X 


20 


9 27.40 


3.4986 


17 


18 


25.4 


10.824 


I 


22 


3 16.86 


3.3549 


7 


42.2 


14.327 


2 


20 


II 57.15 


a. 4932 


17 


7 


32.5 


XO.937 


2 


22 


5 32.03 


8.3508 


6 


46 27.7 


X4.255 


3 


20 


14 26.58 


3.4878 


16 


56 


32.9 


XI.04S 


3 


22 


7 46.96 


8.3468 


6 


32 1 1.6 


14. 382 


4 


20 


16 55.68 


3.4833 


16 


45 


26.7 


II. 157 


4 


22 


10 1.65 


8.3488 


6 


17 53.9 


X4.307 : 


5 


20 


19 24.46 


3.4770 


16 


34 


14.0 


XI. 365 


5 


22 


12 16.10 


8.8390 


6 


3 34.8 


Z4.329 


6 


20 


21 52.92 


8.47x5 


16 


22 


54.9 


ix.37a 


6 


22 


14 30.33 


a. 8353 


5 


49 14.4 


X4.35» 


7 


20 


24 21.04 


3.4660 


16 


II 


29.4 


".477 


7 


22 


16 44.33 


8.83x4 




34 52.7 


X4.372 


8 


20 


26 48.84 


3.4606 


15 


59 


57.7 


XX. 579 


8 


22 


18 58.10 


a. 3377 




20 29.8 


X4.390 


9 


20 


29 16.31 


3.4551 


15 


48 


19.9 


XX. 680 


9 


22 


21 11.65 


3.334X 




6 5.9 


Z4.407 


lO 


20 


31 43.45 


a. 4497 


15 


36 36.1 


XX.778 


10 


22 


23 24.99 


3.3305 




51 41.0 


X4.433 


II 


20 


34 10.27 


3.4443 


15 


24 


46.5 


XI. 874 


II 


22 


25 38.11 


S.3170 




37 15.2 


X4.437 


12 


20 


36 36.75 


a.4386 


15 


12 


51.2 


".969 


12 


22 


27 5103 


a.ai37 




22 48.6 


Z4.448 


13 


20 


39 2.90 


a. 4333 


15 





50.2 


13.063 


13 


22 


30 3.75 


8.8X03 




8 21.4 


X4.459 


H 


20 


41 28.73 


3.4378 


14 


48 


43.6 


18. 156 


14 


22 


32 16.26 


8.3069 


3 


53 53.5 


Z4.469 


15 


20 


43 54.23 


3.4333 


14 


36 


31.5 


13.345 


15 


22 


34 28.58 


8.3038 


3 


39 25.1 


U.477 


i6 


20 


46 19.40 


3.4x68 


14 


24 


14.2 


X3.333 


16 


22 


36 40.71 


8.8007 


3 


24 56.3 


14.483 


17 


20 


48 44.24 


3.41x3 


14 


II 


51.6 


12.419 


17 


22 


38 52.66 


3.1976 


3 


10 27.2 


X4.488 


i8 


20 


51 8.76 


3.4060 


13 


59 


23.9 


13.503 


18 


22 


41 4.42 


a.x945 


2 


55 57.8 


Z4.49X 


19 


20 


53 32.96 


3.4006 


13 


46 


51.2 


13.586 


19 


22 


43 16.00 


8. 1916 


2 


41 28.3 


X4«493 


20 


20 


55 56.83 


a. 3951 


13 


34 


13.6 


X3.667 


20 


22 


45 27.41 


8.1888 


2 


26 58.7 


X4.493 


21 


20 


58 20.37 


8.3898 


13 


21 


31.2 


13.745 


21 


22 


47 38.65 


8.X860 


2 


12 29.x 


X4.493 


22 


21 


43.60 


8.3844 


13 


8 


44.2 


Z3.82a 


22 


22 


49 49.73 


8.X833 


I 


57 59.5 


Z4.49X 


23 


21 


3 6.50 
M 


3.3791 
ONDAl 


S.I2 
f 26. 


55 


52.6 


Z3.898 


23 


22 


52 0.64 
WE] 


8.1805 

DNESD 


S. I 
AY 2 


43 30.2 
8. 


X4.486 


O 


2Z 


5 29.09 


3.3738 


S.I2 


42 


56.5 


xa.97x 





22 


54 11.39 


3.1779 


S. I 


29 X.2 


X4.4*x 


I 


21 


7 51.36 


3.3685 


12 


29 


56.1 


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I 


22 


56 21.99 


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I 


14 32.5 


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2 


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12 


16 


51.5 


X3.XIZ 


2 


22 


58 32.44 


a. 1730 


X 


4.2 


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3 


21 


12 34-95 


8.3581 


12 


3 


42.8 


X3.X79 


3 


23 


42.75 


3.1707 





45 36.5 


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4 


21 


14 56.28 


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II 


50 


30.0 


13.346 


4 


23 


2 52.92 


8. 1683 





31 9.3 


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5 


21 


17 17.30 


8.3478 


II 


37 


13.3 


13.309 


5 


23 


5 2.95 


S.X660 





16 42.8 


M.435 { 


6 


21 


19 38.02 


8.34a8 


II 


23 


52.9 


X3.37a 


6 


23 


7 12.84 


8.1^8 


S. 


2 17.1 


14.433 


7 


21 


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IX 


10 


28.7 


X3.433 


7 


23 


9 22.61 


8. 1618 


N. 


12 7.8 


X4.408 


8 


21 


24 18.54 


8.3Sa6 


10 


57 


0.9 


X3.49a 


8 


23 


II 32.26 


8.1598 





26 31.8 


X4.39X 


9 


21 


26 38.34 


3.3376 


10 


43 


29.6 


X3.549 


9 


23 


13 41.78 


3.1578 





40 54.7 


M.S73 


lO 


21 


28 57.85 


8.3888 


10 


29 


55.0 


13.604 


10 


23 


15 51.19 


a.x559 





55 16.6 


14.356 


II 


21 


31 17-07 


8.3x78 


10 


16 


17. 1 


13.657 


II 


23 


18 0.49 


a.i54X 


z 


9 37.4 


Z4.S36 


12 


21 


33 35.99 


a.3X3o 


10 


2 


36.1 


13.709 


12 


23 


20 9.68 


3.1533 


I 


23 56.9 


X4.SX4 


13 


21 


35 54.63 


3.3083 


9 


48 


52.0 


X3.759 


13 


23 


22 18.77 


a. 1507 


I 


38 15. 1 


X4*a9S 


14 


21 


38 12.98 


8.3034 


9 


35 


5.0 


13.808 


14 


23 


24 27.76 


8.1490 


z 


52 31.9 


14*868 


15 


21 


40 31.04 


a. 8987 


9 


21 


15.1 


13.854 


15 


23 


26 36.65 


a.X474 


3 


6 47.3 


Z4.S44 


i6 


21 


42 48.83 


a-«94« 


9 


7 


22.5 


13.899 


16 


23 


28 45.45 


3.X460 


2 


21 1.2 


X4.818 


17 


21 


45 6.34 


8.8896 


8 


53 


27.2 


X3.943 


17 


23 


30 54.17 


a.x447 


2 


35 13.4 


Z4.igo 


i8 


21 


47 23.58 


3.3850 


8 


39 


29.4 


13.984 


18 


23 


33 2.81 


a.x433 


2 


49 24.0 


X4«x63 


19 


21 


49 40.54 


3.3805 


8 


25 


29.1 


14.034 


19 


23 


35 11.36 


8.14x9 


3 


3 32.8 


14.Z33 


20 


21 


51 57.24 


3.3763 


8 


II 


26.5 


14. 063 


20 


23 


37 19-84 


a.x407 


3 


17 39.8 


14.ZOZ 


21 


21 


54 13.68 


8.87x8 


7 


57 


21.7 


X4.098 


21 


23 


39 28.25 


8.1396 


3 


31 44.9 


Z4.068 


22 


21 


56 29.86 


a. 8^5 


7 


43 


14.8 


X4.133 


22 


23 


41 36.59 


3.1385 


3 


45 48.0 


14.035 


23 


21 


58 45.78 


8.3^3 


7 


29 


5.8 


14. 166 


23 


23 


43 44.87 


8.X375 


3 


59 49.1 


14.001 


24 


22 


I 1.44 


8.3590 


S. 7 


14 


54.9 


14.Z97 


24 


23 


45 53.09 


a. 1366 


N. 4 


13 48.1 


13.965 



XII. 



JUNE, 1899. 



103 







GREENWICH 


MEAN TIME. 


THE MOON'S RIGHT ASCENSION AND DECLINATION. 


1 
1 

Hoar. 


Right 


Diff. for 


Declination. 


Diff. for 


Hour. 


Right 


Diff. for 


Declination. 


Diff. for 


1 


Ascension. 


z Minute. 




1 Minute. 




Ascension. 


I Minute. 




X Minate. 




THURSDAY 29. 






SATURDAY. JULY x. 




h m • 


B 


t m 


m 




h m s 


8 


, • . • 


O 
I 


23 45 53-09 
23 48 1.26 


3.Z366 

a. 1358 


N. 4 13 48.1 
4 27 44.9 


13.965 
13.928 







I 28 29.43 


8. 1581 


N.I4 22 38.2 I IX.023 






2 


23 50 9.38 


a. 1350 


4 41 39.5 


13.890 






3 


23 52 17.46 


a. 1343 


4 55 31-7 


13.851 






4 


23 54 25-49 


a. 1335 


5 9 21.6 


13.811 






5 


23 56 33-48 


3.1339 


5 23 9-0 


13.769 






6 


23 58 41-44 


a. 1334 


5 36 53.9 


13.727 






7 


49.37 


3.1319 


5 50 36.2 


13.683 






8 


2 57.27 


3.X314 


6 4 15.9 


13.638 






9 


5 5-14 


3.131X 


6 17 52.8 


13.59a 






lO 


7 13.00 


3.1308 


6 31 26.9 


13.545 






II 


9 20.84 


a. 1305 


6 44 58.2 


13.498 






12 


II 28.66 


3.1303 


6 58 26.6 


13.448 






13 


13 36.48 


3.1303 


7 II 52.0 


13.398 






14 


15 44.29 


3.1303 


7 25 14-4 


13.347 






15 


17 52.10 


1.1303 


7 38 33.6 


I3.a94 






16 


19 59.91 


3.1303 


7 51 49-7 


13.343 






17 


22 7.73 


a. 1303 


8 5 2.6 


13.188 






18 


24 15.55 


a.x305 


8 18 12.2 


13.133 




PHASES OF THE MOON. 


19 


26 23.39 
28 31.25 


3.1308 


8 31 18.5 
8 44 21.3 


13.076 






20 


3. 13x1 


13.018 






21 


30 39.12 


3.1313 


8 57 20.6 


ia.9S9 




d h m 


22 


32 47.01 


3.Z318 


9 10 16.4 


12.900 


• 


New Moon .... June 7 18 20.4 


23 


34 54-93 


3.1333 iiM. 9 23 0.0 


13.840 


1> 


WW 1^ 

First Quarter 15 21 46.5 




F 


•RIDAY 30. 







Full Moon 23 2 20.1 





37 2.88 


3.1338 


N. 9 35 57-2 


ia.779 


a 


Last Quarter 29 16 44.9 


I 

2 


39 10.86 
41 18.87 


a. 1333 
a. 1338 


9 48 42.1 
10 I 23.2 


13.7x7 
13.653 










3 


43 26.92 


3.1345 


10 14 0.4 


13.588 




d h 


4 


45 35.01 


3.1353 


10 26 33.8 


12.524 


a 


Apogee ••.... June 12 15.0 


5 
6 


47 43-15 
49 51-33 


3.1360 
3.1368 


10 39 3-3 
10 51 28.7 


12.457 
12.389 


c 


Perigee •••••... 24 16.7 


7 
8 


51 59-56 
54 7.84 


3.1376 


H 3 50.0 


13.321 




. 


3.1385 


II 16 7.2 


12.353 






9 


56 16.18 


3.1394 


II 28 20.3 


13.183 






10 


58 24.57 


3.1404 


II 40 29.2 


13.1X3 






II 


I 33.03 


a. 14x4 


" 52 33-7 


12.039 






12 


I 2 41.54 


3.1434 


12 4 33-9 


11.967 






13 


I 4 50.12 


3.1436 


12 16 29.7 


11.893 






14 


I 6 58.77 


3.1448 


12 28 21. 1 


IX.819 






15 


I 9 7.49 


a. 1459 


12 40 8.0 


11.743 






16 


X II 16.28 


3.1471 


12 51 50.3 


XI. 667 






17 


I 13 25.14 


3.1483 


13 3 28.0 


11.589 






18 


I 15 34.08 


3.1497 


13 15 i-o 


11. SIX 






19 


I 17 43.10 


3.1509 


13 26 29.3 


".43a 






20 


I 19 52.19 


3.1533 


13 37 52.8 


11.35a 






21 


I 22 1.37 


a. 1538 


13 49 11.5 


11.373 






22 


I 24 10.64 


a. 155a 


14 25.4 


11.190 






23 


X 26 19.99 


3.1566 ! 14 II 34.3 


IX. 107 






24 


X 28 29.43 


8.1581 N.I 4 22 38.2 


11.083 







104 



JUNE, 1899. 



xni. 



GREENWICH MEAN TIME. 


LUNAR DISTANCSa 


of the 
mth. 


Name and Direction 


Noon. 


P.L. 
of 


Illb. 


P.L. 
of 


Vlh. 


P.L 
of 


IX**- 


P.L 

of 


^ 


of Object 






Diff. 




DiiE. 




Diff. 




Diff. 






• t m 




• f » 




f • 




m » m 




I 


Saturn 


W. 


86 36 31 


assa 


88 21 15 


a3&> 


90 5 47 


S368 


91 50 7 


.^78 




a Aquilae 


W. 


50 53 53 


aaas 


52 19 35 


3193 


53 45 53 


3x65 


55 12 44 


3x4a 




a Arietis 


E. 


48 10 16 


«4xx 


46 26 57 


2433 


44 43 54 


2433 


43 I 7 


2445 




Venus 


E. 


54 56 22 


a792 


53 21 44 


3803 


51 47 20 


38x3 


50 13 9 


S1824 




Sun 


E. 


82 54 4 


268X 


81 16 59 


2691 


79 40 7 


3700 


78 3 27 


^709 


2 


Saturn 


W. 


100 28 42 


14x9 


X02 IX 49 


8429 


103 54 43 


8437 


105 37 25 


0446 




a Aqoilae 


W. 


62 32 58 


3064 


64 I 52 


3054 


65 30 58 


3047 


67 13 


3040 




Venus 


E. 


42 25 46 


3880 


40 53 I 


3891 


39 20 31 


39^3 


37 48 16 


39x6 




Sun 


E. 


70 3 8 


a754 


68 27 40 


3764 


66 52 25 


«773 


65 17 22 


8783 


3 


a Aquilae 


W. 


74 27 49 


3039 


75 57 26 


3P30 


77 27 2 


9032 


78 56 35 


9034 




Fomalhant 


W. 


49 33 54 


3345 


50 57 13 


3315 


52 21 7 


3888 


53 45 32 


3365 




Sun 


E. 


57 25 9 


8829 


55 51 19 


2838 


54 17 41 


8B48 


52 44 15 


3856 


4 


a Aquilae 


W. 


86 23 9 


S06x 


87 52 6 


3069 


89 20 54 


3077 


90 49 32 


9087 




Fomalhaat 


W. 


60 53 29 


3186 


62 19 55 


3177 


63 46 32 


fxfi9 


65 13 18 


3x63 




a Pegasi 


W. 


38 42 27 


99x7 


40 14 II 


39x3 


41 46 15 


890X 


43 18 33 


8891 




Sun 


E. 


45 2 


4004 


43 27 48 


99x3 


41 55 45 


89» 


40 23 54 


8931 


5 


Fomalhaat 


W. 


72 28 37 


3x49 


73 55 47 


3x49 


75 22 57 


3x51 


76 50 5 


9x53 




a Pegasi 


W. 


51 2 20 


eSeg 


52 35 19 


flBGS 


54 8 19 


3868 


55 41 19 


8869 




Sun 


E. 


32 47 40 


8980 


31 17 2 


3989 


29 46 35 


^998 


28 16 20 


3009 


6 


Fomalhaat 


W. 


84 4 42 


3x77 


85 31 19 


3x84 


86 57 47 


3192 


88 24 6 


3x99 




a Pegasi 


W. 


63 25 40 


a884 


64 58 19 


2889 


66 30 52 


8894 


68 3 19 


>899 




Sun 


E. 


20 48 13 


3060 


19 19 14 


9069 


17 50 27 


308x 


x6 21 54 


9093 


9 


Sun 


W. 


14 2 16 


3«89 


15 26 40 


SiV 


x6 50 55 


3305 


18 15 X 


33X8 




Mars 


E. 


53 54 58 


3158 


52 27 59 


3x69 


51 I 13 


3x79 


49 34 39 


3188 




Regulus 


E. 


56 38 


■950 


54 29 23 


99S9 


52 58 19 


•9^ 


5X 27 27 


a977 


zo 


Sun 


W. 


25 13 28 


3347 


26 36 45 


3355 


27 59 53 


336X 


29 22 54 


9368 




Mars 


E. 


42 24 43 


3238 


40 59 19 


3^49 


39 34 8 


3259 


38 9 9 


3270 j 




Regulos 


E. 


43 55 53 


3028 


42 26 7 


3031 


40 56 33 


yw 


39 27 9 


3049 




Spica 


E. 


97 51 4 


W9» 


96 20 41 


3998 


94 50 26 


3005 


93 20 19 


9018 




JUPITBR 


E. 


106 14 Z2 


•993 


104 43 50 


3909 


X03 13 36 


9005 


lox 43 30 


90x8 


xz 


Sun 


W. 


36 16 8 


3398 


37 38 27 


S403 


39 40 


3408 


40 22 47 


34x3 




Regolos 


E. 


32 3 2 


3097 


30 34 49 


3X07 


29 6 48 


9119 


27 39 I 


3x30 




Spica 


E. 


85 51 41 


VHO 


84 22 18 


3045 


82 53 I 


3050 


8i 23 50 


3055 




JUPITBR 


E. 


94 14 52 


9040 


92 45 29 


30*5 


91 16 12 


3050 


89 47 I 


V»55 


la 


Sun 


W. 


47 12 12 


S4SX 


48 33 54 


3434 


49 55 32 


3436 


5X 17 8 


3438' 




Spica 


E. 


73 59 " 


307« 


72 30 27 


3075 


71 I 47 


3077 


69 33 9 


3079 




J U PITHS 


E. 


82 22 23 


3073 


80 53 40 


9076 


79 25 1 


3076 


77 56 25 


3080 

1 


n 


Sun 


W. 


58 4 44 


344X 


59 26 14 


3440 


^ 47 45 


3439 


62 9 17 


1 

3438 




Pollax 


W. 


30 18 24 


St/o 


31 43 IX 


3«53 


33 8 17 


3*40 


34 33 39 


3386 1 




Spica 


E. 


62 10 26 


308e 


^ 41 55 


308a 


59 13 24 


3082 


57 44 52 


9081 ; 




Jupiter 


£• 


70 33 55 ' 


3086 


69 5 28 


30S7 


67 37 2 


3086 


66 8 35 


3085 




Antares 


E. 


107 42 59 


3o8i 


106 14 26 


9080 


104 45 52 


3079 


103 17 17 


3078 























XIV. 



JUNE, 1899. 



105 







GREENWICH MEAN TIME, 








LUNAR DISTANCRa 


Day of the 
Month. 


Name and Direction 
of Object 


Midnight 


P.L. 

of 

DiflL 


XVh. 


P.L. 

of 
DHL 


XVIIJii. 


P.L. 

of 
DiflL 


XXJb- 


P.L. 

of 
Diff. 






• t m 




• 0m 




• f m 




• * * 




Z 


Saturn 
a Aquils 
a Arietis 
Venus 
Sun 


W. 
W. 
E. 
E. 
E. 


93 34 14 
56 40 3 
41 18 36 
48 39 12 
76 a6 59 


8386 

3X21 

8457 
2835 


95 18 9 
58 7 47 
39 36 22 
47 5 29 
74 50 43 


8394 
3XQ3 
2470 
a845 
97V 


97 I 52 

59 35 53 
37 54 26 
45 32 
73 14 39 


8403 
3088 

2483 
a«57 
2736 


98 45 23 
61 4 Z7 
36 12 49 
43 58 46 
71 38 47 


24XX 

3074 
2496 
2868 
2746 


a 


Saturn 
a AquilsB 
Vbnus 
Sun 


W. 
W. 
E. 
E. 


107 Z9 54 
68 29 36 
36 16 18 

63 42 31 


24S3 
3036 
2999 
2792 


109 2 zz 

69 59 4 
34 44 36 
62 7 52 


2463 
3033 
8943 
aSox 


no 44 z6 
71 28 37 

33 13 12 
60 33 26 


8478 
3030 

8957 
28x0 


Z12 26 9 
72 58 12 
31 42 5 
58 59 II 


2480 
3029 
297X 
2820 


3 


aAquflsB 

Fomalhaat 

Sun 


W. 
W. 
E. 


80 26 5 
55 10 25 
5z zi 


3039 
3844 
2866 


81 55 30 
56 35 42 
49 37 57 


3043 
3826 

2876 


83 24 50 
58 z 20 

48 5 7 


3048 

32XZ 

2885 


84 54 3 
59 27 16 

46 32 29 


3054 
3197 
9094 


4 


a AquilflB 
Fomalhaat 
a Pegasi 
Sun 


w. 
w. 

E. 


92 Z7 58 
66 40 Z3 

44 51 4 
38 52 Z5 


3096 

3157 
2883 

994Z 


93 46 12 
68 7 14 

46 23 44 
37 20 48 


3x06 

3x53 
2878 

2990 


95 14 14 
69 34 19 
47 56 31 
35 49 33 


3xx8 
3X5X 
887s 
89to 


96 42 2 
71 I 27 
49 29 24 
34 18 30 


3x29 

3x49 
2871 
2970 


5 

• 


Fomalhaat 
a Pegasi 
Sun 


W. 
W. 
E. 


78 17 zo 

57 14 17 
26 46 18 


3x57 
0871 
90x8 


79 44 " 
58 47 13 
25 16 28 


Sz6x 

8873 
3028 


8z zz 7 
60 20 6 

23 46 50 


3KS5 
2876 

3039 


82 37 58 
61 52 55 
22 Z7 25 


3x71 
2860 

3049 


6 


Fomalhaat 
a Pegasi 
Sun 


W. 
W. 
E. 


89 50 z6 

69 35 39 
14 53 35 


3909 
8905 

3x05 


9Z z6 Z5 

71 7 52 
Z3 25 3z 


38x8 
49XX 
SXX7 


92 42 3 

72 39 57 
IZ 57 4a 


3228 

«9i7 
SX3X 


94 7 39 

74 II 54 
10 30 10 


3239 
8984 

3x48 


9 


Sun 

Mars 

Regulos 


W. 
E. 
E. 


19 38 59 

48 8 16 

49 56 46 


33x9 
3x98 
3986 


2Z 2 49 

46 42 5 
48 26 z6 


3386 
3809 
8995 


22 a6 30 

45 16 6 

46 55 57 


3333 
38X9 
3004 


23 50 3 
43 50 19 
45 25 49 


3340 
3228 
30x4 


zo 


Sun 
Mars 
Regalas 
Spica 

JUPITBR 


W- 
E. 
E. 
E. 
E. 


30 45 47 

36 44 22 

37 57 57 
9Z 50 21 

zoo Z3 32 


3374 
3281 

3058 
3018 
30x8 


32 8 33 

35 19 48 

36 28 56 
90 20 30 

98 43 41 


338X 
3898 

30^ 

9084 


33 31 " 
33 55 27 
35 6 

88 50 47 
97 13 58 


3386 
3303 

3077 
3030 

3030 


34 53 43 

32 31 19 

33 31 28 

87 2Z IZ 

95 44 22 


3393 

33x5 
3087 

3034 
3034 


zz 


Sun 

Regulos 

Spica 

JUPITBR 


W. 
E. 
E. 
E. 


41 44 49 
26 iz 28 

79 54 45 
88 Z7 56 


34x7 
3x43 
3039 
3059 


43 6 46 

24 44 " 
78 25 45 
86 48 56 


348X 

3x58 

3062 


44 28 39 
23 17 zz 

76 56 49 
85 20 


3485 

3174 
3066 
3066 


45 50 27 
21 50 3z 
75 27 58 
83 51 9 


3488 
3196 
30«9 
3070 


za 


Sun 
Spica 

JUPITBR 


W. 
E. 
E. 


52 38 41 
68 4 34 
76 27 5z 


3439 
3080 

So8a 


54 Z3 
66 36 
74 59 20 


3440 
3082 
3089 


55 2z 44 
65 7 28 
73 30 50 


344X 
9082 

3085 


56 43 14 
63 38 57 

72 2 22 


3441 
3082 
9086 


13 


Sun 

Pollax 

Spica 

JUPITBR 

Antares 


W. 
W. 
E. 
E. 
E, 


63 30 5z 

35 59 17 
56 z6 zg 

64 40 7 
zoz 48 4Z 


3436 

33x4 

3079 
3084 

3076 


64 52 27 

37 25 9 

54 47 44 
63 zz 38 

zoo ao a 


3433 

3902 

3077 
3083 

3074 


66 Z4 6 

38 51 16 

53 19 6 
6z 43 8 

98 5Z 2Z 


3430 

5x91 

3073 
308X 

307X 


67 35 49 
40 17 36 

51 50 26 

60 14 35 

97 22 36 


3487 
3181 
3072 

3079 
306B 



106 



JUNE, 1899. 



XV. 



1 

GREENWICH MEAN TIME. 


LUNAR DISTANCES. 


of the 
>nth. 


Name and Direction 


NooiL 


P.L. 
of 


Illb- 


P.L. 
of 


Vlh. 




P.L. 

of 


IXh. 


P.L. 

of 




of Object 






DiflE. 




Diff. 






Diff, 




Diff. 






O f » 




• t m 




• 


m 




• t m 




14 


Sun 


W. 


68 57 35 


34^ 


70 19 26 


3419 


71 41 


21 


3414 


73 3 22 


3408 




Pollux 


W. 


41 44 8 


3170 


43 10 53 


3x61 


44 37 


49 


3151 


46 4 57 


3x41 




Spica 


E. 


50 21 42 


3069 


48 52 54 


3065 


47 24 


2 


3061 


45 55 5 


3056 




Jupiter 


E. 


58 46 


3077 


57 17 22 


3073 


55 48 


40 


S07X 


54 19 55 


3067 




Antares 


E. 


95 53 47 


3065 


94 24 54 


3060 


92 55 


56 


3056 


91 26 52 


3051 




Saturn 


E. 


108 II 4 


3037 


106 41 37 


3Q33 


105 12 


5 


3028 


103 42 27 


3023 


15 


Sun 


W. 


79 55 II 


3374 


81 17 57 


3365 


82 40 


53 


3357 


84 3 59 


3347 




Pollux 


W. 


53 23 36 


3091 


54 51 56 


3081 


56 20 


29 


3070 


57 49 15 


3059 1 




Spica 


E. 


38 28 48 


3029 


36 59 II 


3033 


35 29 


26 


3015 


33 59 32 


3008 




Jupiter 


E. 


46 54 55 


3045 


45 25 38 


ym 


43 56 


14 


3034 


42 26 44 


3029 




Antares 


E. 


83 59 51 


3019 


82 30 2 


3012 


81 


4 


3004 


79 29 56 


299s 




Saturn 


E. 


96 12 35 


2993 


94 42 12 


3985 


93 II 


40 


2977 


91 40 58 


8967 


i6 


Sun 


W. 


91 2 22 


3994 


92 26 41 


3rfx 


93 51 


15 


3269 


95 16 3 


3255 




Pollux 


W. 


65 16 35 


300X 


66 46 47 


3gB8 


68 17 


15 


2975 


69 47 59 


2962 




Regulus 


W. 


28 14 37 


301 1 


29 44 36 


2994 


31 14 


56 


2977 


32 45 37 


996X 




Mars 


W. 


26 42 49 


3251 


28 7 58 


3230 


29 33 


32 


3209 


30 59 30 


3190 




Antares 


E. 


71 56 24 


2946 


70 25 4 


2935 


68 53 


29 


2924 


67 21 40 


391 1 




Saturn 


E. 


84 4 32 


3919 


82 32 37 


3907 


81 


27 


3896 


79 28 3 


8883 


17 


Sun 


W. 


102 24 7 


3183 


103 50 36 


3x68 


105 17 


23 


3152 


106 44 30 


3136 




Pollux 


W. 


77 25 55 


3891 


78 58 25 


9B76 


80 31 


14 


386b 


82 4 22 


S846 




Regulus 


W. 


40 24 17 


3878 


41 57 4 


2861 


43 30 


13 


3844 


45 3 44 


3828 




Mars 


W. 


38 15 6 


3096 


39 43 21 


3078 


41 II 


58 


3059 


42 40 58 


3040 




Antares 


E. 


59 38 34 


0846 


58 5 6 


3831 


56 31 


19 


38x7 


54 57 13 


8803 




Saturn 


E. 


71 42 I 


38x8 


70 7 57 


3804 


68 33 


34 


3790 


66 58 53 


a775 


i8 


Pollux 


W. 


89 55 9 


3766 


91 30 22 


2749 


93 5 


57 


2732 


94 41 54 


■715 




Regulus 


W. 


52 56 48 


3741 


54 32 33 


3724 


56 8 


41 


3706 


57 45 13 


8687 




Mars 


W. 


50 II 42 


9947 


51 43 I 


3928 


53 14 44 1 


3909 


54 46 51 


3890 




Antares 


E. 


47 I 48 


5725 


45 25 41 


3708 


43 49 


12 


3693 


42 12 22 


8675 




Saturn 


E. 


59 25 


3G96 


57 23 40 


S680 


55 46 


33 


3663 


54 9 4 


8646 




a Aquils 


E. 


loo 25 7 


32x4 


98 59 14 


3192 


97 32 


55 


3172 


96 6 12 


3x32 


19 


Regulus 


W. 


65 54 I 


3596 


67 33 I 


3578 


69 12 


26 


8560 


70 52 16 


8S4X 




Mars 


W. 


62 33 37 


279* 


64 8 13 


2774 


65 43 


15 


2755 


67 18 42 


«736 




Saturn 


E. 


45 55 52 


3561 


44 16 3 


«543 


42 35 


50 


3326 


40 55 13 


3309 




a Aquilae 


E. 


88 46 47 


30G0 


87 17 48 


3043 


85 48 


28 


3087 


84 18 49 


9013 


20 


Regulus 


W. 


79 17 49 


3450 


81 12 


2433 


82 43 





2415 


84 26 13 


2398 




Mars 


W. 


75 22 20 


3640 


77 ao 


3631 


78 38 46 1 


3603 


80 17 37 


2585 




Spica 


W. 


25 14 51 


2460 


26 57 


344X 


28 39 


37 


3430 


30 22 43 


8401 




a Aquilae 


E, 


76 46 10 


2^9 


75 14 53 


2940 


73 43 


25 


•931 


72 XI 46 


•933 




Fomalhaut 


E. 


102 25 34 


3913 


100 53 30 


3889 


99 20 


57 


3866 


97 47 55 


•845 


21 


Regulus 


W. 


93 8 28 


3314 


94 54 7 


2299 


96 40 


8 


3383 


98 26 32 


8868 




Mars 


W. 


88 37 58 


2498 


90 19 14 


3482 


92 


53 


8466 


93 42 54 


8450 




Spica 


W. 


39 4 58 


3311 


40 50 42 


2304 


42 36 


50 


8878 


44 23 22 


8363 




Jupiter 


W. 


31 24 15 


337a 


33 8 30 


2349 


34 53 


18 


2327 


36 38 38 


8307 




a Aquilae 


E. 


64 32 I 


3915 


63 I 


3919 


61 28 


6 


2926 


59 56 ao 


293s I 


1 


Fomalhait 


E. 


89 56 20 


«754 


88 20 52 


3740 


86 45 


5 


8725 


85 8 59 


1 

t7X3. 



XVL 



JUNE, 1899. 



107 







GREENWICH MEAN TIME. 








' 












LUNAR DISTANCES. 












h 










P.L. 




P.L. 






P. L 




P. L. 


o| 


Name and Direction 


Midnight 


of 


XVh- 


of 


XVIIIii. 


of 


XXl^ 


of 




ox Object. 








Diff. 




Diff. 






Diff. 




Diff. 








• 


m 




m t m 




• 


m 




• « » 




14 


Sun 


W. 


74 25 


30 


34M 


75 47 44 


3396 


77 10 


5 


3389 


78 32 34 


3383 




Pollux 


W. 


47 32 


17 


313a 


48 59 48 


3X31 


50 27 


32 


3111 


51 55 28 


310X 




Spica 


E. 


44 26 


2 


305a 


42 56 54 


3047 


41 27 


39 


3041 


39 58 17 


3Q35 




Jupiter 


E. 


52 51 


5 


3064 


51 22 II 


3059 


49 53 


II 


3055 


48 24 6 


3050 




Antares 


E. 


89 57 


42 


3<h6 


88 28 26 


3039 


86 59 


2 


ZO^ 


85 29 31 


3036 




Saturn 


E. 


I02 12 


43 


30x8 


100 42 53 


3013 


99 12 


55 


3005 


97 42 49 


2999 


15 


Sun 


W. 


85 27 


16 


3338 


86 50 44 


3327 


88 14 


24 


3317 


89 38 16 


3305 




Pollux 


W. 


59 18 


15 


3048 


60 47 28 


3036 


62 16 


56 


3025 


63 46 38 


3013 




Spica 


E. 


32 29 


29 


300X 


30 59 17 


2993 


2) 28 


55 


2985 


27 58 23 


2977 




Jupiter 


E. 


40 57 


7 


3023 


39 27 23 


30x8 


37 57 


32 


30x2 


36 27 34 


3005 




Antares 


E. 


77 59 


37 


2986 


76 29 7 


2977 


74 58 


25 


3967 


73 27 31 


2957 




Saturn 


E. 


90 10 


4 


2958 


88 38 59 


2BiO 


87 7 


43 


0939 


85 36 14 


8939 


16 


Sun 


W. 


96 41 


7 


324^ 


98 6 27 


33B8 


99 32 


3 


3214 


100 57 56 


3x98 




Pollux 


W. 


71 18 


59 


3949 


72 50 16 


2513 


74 21 


51 


2930 


75 53 44 


3906 




Regulus 


W. 


34 16 


39 


3944 


35 48 2 


29^ 


37 19 


46 


391 1 


38 51 51 


2895 




Mars 


W. 


32 25 


51 


3171 


33 52 35 


3I5I 


35 19 


43 


3x33 


36 47 13 


3x14 




Antares 


E. 


65 49 


35 


2899 


64 17 15 


4B86 


62 44 


38 


2873 


61 II 45 


2859 




Saturn 


E. 


77 55 


23 


afi7a 


76 22 28 


9BS9 


74 49 


16 


S845 


73 15 47 


3832 


17 


Sun 


W. 


108 II 


56 


3119 


109 39 42 


3x02 


III 7 


49 


3085 


112 36 17 


30fi7 




Pollux 


W. 


83 37 


50 


3831 


85 II 38 


381S 


86 45 


47 


2798 


88 20 17 


2782 




Regulus 


W. 


46 37 


36 


38X1 


48 II 50 


3793 


49 46 


27 


8776 


51 21 26 


3759 




Mars 


W. 


44 10 


21 


3023 


45 40 6 


30P3 


47 10 


15 


39S5 


48 40 47 


3966 




Antares 


E. 


53 22 


48 


3788 


51 48 4 


3772 


50 12 


59 


3756 


48 37 34 


3741 




Saturn 


E. 


65 23 


52 


3760 


63 48 31 


2744 


62 12 


50 


3729 


60 36 48 


8713 


x8 


Pollux 


W. 


96 18 


14 


3698 


• 

97 54 56 


«S8i 


99 32 


I 


8664 


loi 9 29 


3646 




Regulus 


W. 


59 22 


10 


a«9 


60 59 31 


9Q53 


62 37 


16 


2633 


64 15 26 


36x5 




Mars 


W. 


56 19 


23 


3871 


57 52 19 


3852 


59 25 


40 


2833 


60 59 26 


3813 




Antares 


E. 


40 35 


9 


1659 


38 57 34 


2642 


37 19 


36 


2626 


35 41 16 


3609 




Saturn 


E. 


52 31 


12 


3629 


50 52 57 


46X3 


49 14 


19 


2.:;5 


47 35 17 


3578 




a Aquilae 


E. 


94 39 


5 


3x33 


93 II 35 


31x3 


91 43 


41 


309s 


90 15 25 


3077 


19 


Regulus 


W. 


72 32 


32 


3533 


74 13 13 


3504 


75 54 


20 


2487 


77 35 52 


3469 




Mars 


W. 


68 54 


34 


3716 


70 30 52 


96S7 


72 7 


36 


3678 


73 44 45 


2659 




Saturn 


E. 


39 14 


12 


a49a 


37 32 47 


H75 


35 50 


58 


2458 


34 8 45 


344X 




a Aquilae 


E. 


82 48 


51 


9997 


81 18 35 


9!^ 


79 48 


2 


297X 


78 17 13 


3960 


ao 


Regulus 


W. 


86 9 


51 


3380 


87 53 54 


3364 


89 38 


21 


2346 


91 23 13 


«33X 




Mars 


W. 


8i 56 


52 


3567 


83 36 32 


2549 


85 16 


37 


2S32 


86 57 6 


3515 




Spica 


W. 


32 6 


16 


3383 


33 50 17 


3363 


35 34 


45 


2345 


37 19 39 


3328 




a Aquilae 


E. 


70 39 


59 


3919 


69 8 4 


9x6 


67 36 


5 


3913 


66 4 3 


29x3 




Fomalhaut 


E. 


96 14 


26 


3825 


94 40 30 


3ft)6 


93 6 


10 


3788 


91 31 26 


377X 


ax 


Regulus 


W. 


100 13 


18 


2254 


102 25 


3240 


103 47 


53 


3327 


105 35 41 


33x3 




Mars 


W. 


95 25 


17 


2435 


97 8 2 


342X 


98 51 


7 


3407 


100 34 32 


2393 




Spica 


W. 


46 10 


18 


2247 


47 57 36 


2232 


49 45 


16 


82X8 


51 33 17 


8804 




Jupiter 


W. 


38 24 


27 


3288 


40 10 44 


2370 


41 57 


28 


2253 


43 44 37 


8237 




a Aquilae 


E. 


58 24 


45 


2947 


56 53 26 


3963 


55 22 


26 


3981 


53 51 50 


3005 




Fomalhaut 


E. 


83 3a 


37 


3701 


81 55 59 


3693 


80 19 


8 


3683 


78 42 5 


2^5 



108 



JUNE, 1899. 



XVII. 







GHEKNWICH MEAN TIME. 










LUNAR DISTANCES 




Name and Direction 


Noon. 


P.L. 
of 


Illh. 


P.L. 
of 


Vlh. 




P.L. 
of 


IXh. 


P.L 

of 


Q 


of Object 






Diff. 




DiflE. 






DiflE. 




DiflL 








• f » 




• m 




• 


m 




• t m 




22 


Mars 


W. 


I02 i8 17 


3380 


104 2 21 


3368 


105 46 


42 


3356 


107 31 20 


«344 




Spica 


W. 


53 21 39 


2190 


55 10 21 


3178 


56 59 


21 


3x66 


58 48 40 


8154 




Jupiter 


W. 


45 32 10 


3231 


47 20 6 


2806 


49 8 


25 


3193 


50 57 4 


2179 




Fomalhaut 


E. 


77 4 52 


8669 


75 27 31 


3666 


73 50 


5 


3663 


72 12 36 


2663 




a Pegasi 


E. 


96 19 32 


83X7 


94 33 58 


8305 


92 48 


6 


3293 


91 I 56 


838X 


23 


Spica 


W. 


67 59 21 


3106 


69 50 II 


3098 


71 41 


14 


3090 


73 32 28 


8O84 




Jupiter 


W. 


60 4 53 


3X2S 


61 55 14 


81X6 


63 45 48 


3x09 


65 36 34 


310X 




Fomalhaut 


E. 


64 5 44 


9f»g 


62 28 49 


370X 


60 52 


10 


3716 


59 15 52 


2735 




a Pegasi 


£. 


82 7 17 


«*37 


80 19 45 


333X 


78 32 


3 


3335 


76 44 13 


833X 


«4 


Spica 


W. 


82 50 48 


3o6z 


84 42 47 


«)59 


86 34 


50 


2057 


88 26 55 


80S6 




Jupiter 


W. 


74 52 45 


2077 


76 44 19 


2074 


78 35 


58 


3072 


80 27 40 


307X 




Antares 


W. 


37 19 6 


2068 


39 10 54 


2064 


41 2 


48 


2062 


42 54 46 


ao6x 




Fomalhaut 


E. 


51 22 4 


2886 


49 49 27 


8931 


48 17 


47 


2982 


46 47 12 


3040 




a Pegasi 


E. 


67 44 


M15 


65 55 55 


33X8 


64 7 


54 


833X 


62 19 58 


8827 


as 


JUPITBR 


W. 


89 46 15 


aw75 


91 37 52 


8079 


93 29 


24 


20B2 


95 20 51 


3066 




Antares 


W. 


52 14 52 


3062 


54 6 49 


3064 


55 58 


43 


2068 


57 50 31 


8072 




Saturn 


W. 


40 45 19 


3043 


42 37 46 


8046 


44 30 


9 


2048 


46 22 28 


8052 




a Pegasi 


E. 


53 22 50 


2272 


51 36 10 


3287 


49 49 


51 


2303 


48 3 56 


8333 




a Arietis 


E. 


95 32 15 


2077 


93 40 40 


3080 


91 49 


10 


8O83 


89 57 45 


8067 


26 


Antares 


W. 


67 7 48 


3U99 


68 58 48 


8I07 


70 49 


37 


3x15 


72 40 14 


8128 




Saturn 


W. 


55 42 19 


3079 


57 33 50 


3086 


59 25 


II 


3094 


61 16 20 


2x02 




a Arietis 


E. 


80 42 31 


8x16 


78 51 57 


3x24 


77 I 


34 


3X38 


75 " 24 


•I4X 


27 


Antares 


W. 


81 50 I 


SX70 


83 39 -14 


8I80 


85 28 


II 


3x91 


87 16 52 


8803 




Saturn 


W. 


70 28 45 


3x49 


72 18 30 


«59 


74 7 


59 


8I7O 


75 57 12 


8X83 




a Arietis 


E. 


66 4 5 


3x91 


64 15 24 


8803 


62 27 


I 


83X5 


60 38 56 


8837 




Aldebaran 


E. 


98 58 52 


3302 


97 10 27 


82X2 


95 22 


18 


8383 


93 34 24 


3834 




Venus 


E. 


104 4 12 


3S4« 


102 24 


«555 


100 44 


3 


8567 


99 4 23 


«579 


28 


Saturn 


W. 


84 58 54 


S24X 


86 46 20 


«53 


88 33 


28 


8366 


90 20 17 


8879 




a AqoilflB 


W. 


47 58 55 


3203 


49 25 I 


3166 


50 51 


51 


3x34 


52 19 19 


3107 1 




a Arietis 


E. 


51 43 14 


3394 


49 57 6 


3309 


48 II 


19 


«3a4 


46 25 54 


«339 




Aldebaran 


E. 


84 39 13 


3394 


82 53 5 


8307 


81 7 


16 


8380 


79 21 46 


•334 




Venus 


E. 


90 50 19 


8644 


89 12 24 


8658 


87 34 


48 


3673 


85 57 30 


86&6 




Sun 


£. 


1x2 9 41 


a557 


no 29 47 


8571 


108 50 


12 


•585 


107 ID 56 


8S99 


29 


Saturn 


W. 


99 9 34 


S345 


100 54 28 


SSS9 


102 39 


2 


837a 


104 23 17 


•9» 




a AquilflB 


W. 


59 43 22 


3035 


61 13 4 


30x7 


62 42 


56 


30X0 


64 12 56 


9003 




a Arietis 


E. 


37 44 37 


8484 


36 I 36 


844a 


34 19 


I 


846X 


32 36 53 


8482 




Aldebaran 


E. 


70 39 14 


8403 


68 55 44 


8417 


67 12 


34 


3432 


65 29 45 


«447 




Venus 


E. 


77 55 46 


8758 


76 20 23 


877a 


74 45 


19 


3787 


73 10 34 


8801 




Sun 


£. 


98 59 22 


8G69 


97 22 I 


8684 


95 44 


59 


3698 


94 8 17 


t7X3 


30 


a Aquilfle 


W. 


71 43 43 


3005 


73 13 49 


3009 


74 43 


51 


30x4 


76 13 47 


9M0 




Fomalhaut 


W. 


47 4 27 


339X 


48 26 54 


S357 


49 50 





33«7 


51 13 40 


3301 




Aldebaran 


E. 


57 52 


8S8X 


55 20 8 


8537 


53 39 


46 


«558 


51 59 45 


8567 




Venus 


E. 


65 21 34 


3874 


63 48 42 


3889 


62 16 


9 


8903 


60 43 54 


89x7 




Sun 


£. 


86 9 31 


«784 


84 34 42 


«798 


83 


12 


2S12 


81 26 


•886 



XVIIL 



JUNE, 1899. 



109 



GREENWICH MEAN TIME. 


LUNAR DISTANCRS. 


h 








P.Z. 




P.I* 




P.L. 




P.L. 


^1 


Name and Dirsctioo 1 


Midnight 


of 


XVJ>. 


of 


XVIIIh. 


Of 


XXIb. 


of 


Q 


of Object 






Oi£E. 




Diff. 




I>Iff. 




DiflL 






• r m 




m t m 




• » m 




• » • 




22 


Mars 


W. 


109 16 15 


8334 


zzz z 25 


nu 


ZZ2 46 49 


83x5 


ZZ4 32 26 


«S07 




Spica 


W. 


60 38 17 


«I43 


62 28 10 


8133 


64 z8 19 


8133 


66 8 43 


8x14 




Jupiter 


w. 


52 46 3 


3167 


54 35 20 


9ZS5 


56 24 55 


9x45 


58 Z4 46 


8x34 




Fomalhaut 


E. 


70 35 5 


2663 


68 57 36 




67 20 zz 


9679 


65 42 53 


9678 




a Pegasi 


E. 


89 15 29 


970 


87 28 46 


9961 


85 4Z 49 


99S9 


83 54 39 


9944 


23 


Spica 


W. 


75 23 52 


9078 


77 15 25 


9073 


79 7 6 


9068 


80 58 54 


3064 




Jupiter 


W. 


67 27 31 


9095 


69 18 38 


■090 


71 9 53 


908s 


73 I 16 


908X 




Fomalhaut 


E. 


57 39 59 


«757 


56 4 35 


9789 


54 29 44 


98x9 


52 55 32 


9846 




a Pegasi 


£. 


74 56 17 


»z8 


73 8 16 


99X6 


7z 20 Z2 


89X4 


69 32 6 


99x4 


24 


Spica 


W. 


90 19 2 


aoss 


92 zz zo 


9056 


94 3 17 


9057 


95 55 23 


9059 




Jupiter 


W. 


82 19 24 


ao7i 


84 iz 8 


9071 


86 2 52 


9073 


87 54 35 


9073 




Ant ares 


W. 


44 46 46 


90S9 


46 38 48 


9059 


48 30 50 


3059 


50 22 52 


306l 




Fomalhaut 


E. 


45 17 49 


3106 


43 49 47 


3x89 


42 23 16 


336S 


40 58 27 


3365 




a Pegasi 


E. 


60 32 10 


•S33 


58 44 31 


9340 


56 57 3 


M49 


55 9 49 


9860 


25 


Jupiter 


W. 


97 12 zz 


aogz 


99 3 24 


9097 


100 54 28 


9XQ3 


102 45 23 


91 10 




Antares 


w. 


59 42 Z4 


9076 


61 33 50 


908X 


63 25 z8 


9086 


65 z6 38 


9093 




Saturn 


w. 


48 14 4Z 


ao96 


50 6 48 


906X 


51 58 47 


9066 


53 50 38 


3073 




a Pegasi 


E. 


46 18 28 


4343 


44 33 31 


9366 


42 49 8 


9394 


41 5 24 


3494 




a Arietis 


E. 


88 6 26 


9ogn 


86 Z5 Z4 


•098 


84 24 zz 


8X(9 


82 33 z6 


9x09 


26 


Antares 


W. 


74 30 39 


az3x 


76 20 5z 


8X40 


78 zo 49 


8X49 


80 33 


3X60 




Saturn 


W. 


63 7 16 


9III 


64 57 59 


9XX9 


66 48 29 


9x99 


68 38 44 


3138 




a Arietis 


E. 


73 2Z 27 


9x30 


71 31 44 


9x59 


69 42 Z5 


8X70 


67 53 2 


3x8o 


27 


Antares 


W. 


89 5 16 


93x4 


90 53 23 


9996 


92 4Z Z2 


9838 


94 28 43 


9851 




Saturn 


W. 


77 46 7 


9193 


79 34 45 


9304 


8z 23 6 


99X6 


83 II 9 


8999 




a Arietis 


E. 


58 51 9 


9940 


57 3 41 


9a53 


55 16 32 




53 29 43 


9980 




Aldebaran 


E. 


9Z 46 47 


M45 


89 59 27 


9857 


88 Z2 24 


9969 


86 25 39 


9989 




Venus 


E. 


97 24 59 


9591 


95 45 52 


9604 


94 7 3 


96x8 


92 28 32 


9^X 


28 


Saturn 


W. 


92 6 47 


9999 


93 52 58 


8306 


95 38 49 


«3i9 


97 24 2Z 


9331 




a Aquils 


W. 


53 47 20 


3084 


55 15 49 


3065 


56 44 41 


3049 


58 13 53 


3Q35 




a Arietis 


E. 


44 40 52 


3355 


42 56 Z2 


937X 


41 " 56 


9388 


39 28 4 


9405 




Aldebaran 


E. 


77 36 36 


9348 


75 51 46 


936X 


74 7 15 


a375 


72 23 4 


9389 




Venus 


E. 


84 20 31 


9700 


82 43 51 


97x4 


8z 7 30 


9739 


79 31 28 


•744 




Sun 


E. 


105 31 59 


9619 


ZO3 53 2Z 


9090 


Z02 Z5 2 


8640 


zoo 37 2 


965s 


29 


Saturn 


W. 


Z06 7 12 


8398 


ZO7 50 49 


9419 


Z09 34 6 


9496 


izz Z7 4 


9439 




a Aquilae 


W. 


65 43 a 


3002 


67 Z3 Z2 


3OOX 


68 43 23 


300X 


70 13 34 


3003 




a Arietis 


E. 


30 55 14 


9503 


29 14 5 


9596 


27 33 28 


3551 


25 53 26 


9589 




Aldebaran 


E. 


63 47 17 


9462 


62 5 10 


9476 


60 23 23 


9491 


58 41 57 


9506 




Venus 


E. 


71 36 8 


98x6 


70 2 z 


3831 


68 28 Z3 


2845 


66 54 44 


9860 




Sun 


E. 


92 31 54 


9797 


90 55 50 


974X 


89 20 5 


9756 


87 44 39 


9769 


30 


a Aquilse 


W. 


77 43 35 


3036 


79 13 16 


3033 


80 42 48 


3040 


82 Z2 ZZ 


3049 




Fomalhaut 


W. 


52 37 50 


3a79 


54 2 26 


3360 


55 27 24 


3244 


56 52 41 


3*30 




Aldebaran 


E. 


50 20 5 


2583 


48 40 47 


3599 


47 I 51 


36x3 


45 23 17 


8699 




Venus 


E. 


59 " 57 


9931 


57 40 18 


2945 


56 8 56 


2959 


54 37 52 


■973 




Sun 


E. 


79 52 6 


3840 


78 z8 30 


3854 


76 45 12 


9867 


75 X2 IZ 


•B8x 



110 



JULY, 1899. 



AT GREENWICH APPARENT NOON. 



• o 

5 -a 

o o 

« ci 

Q Q 



Sat. 

SUN. 
Mon. 

Tues. 
Wed. 
Thur. 

Frid. 

Sat. 
S[/N. 

Mon. 
Tues. 
Wed. 

Thur. 

Frid. 

Sat. 

SC/N. 

Mon. 

Tues. 

Wed. 

Thur. 
Frid. 

Sat. 

S[/N. 
Mon. 

Tues. 
Wed. 
Thur. 

Frid. 
Sat. 
S[/N. 
Mon. 

Tues. 



I 

2 

3 

4 

5 
6 

7 
8 



lO 

II 

12 

13 

15 

i6 

17 
i8 

20 
21 

22 

23 
24 

25 
26 

27 

28 
29 

30 
31 

32 



THE SUN'S 



Apparent 
Right Ascensioa 



h m t 

6 40 51.34 
6 44 59.42 
6 49 7.24 

6 53 14.78 

6 57 22.02 

7 I 28.94 

7 5 3550 
7 9 41 69 
7 13 4748 

7 17 52.86 
7 21 57.80 
7 26 2.29 

7 30 6.29 

7 34 9-8i 
7 38 12.82 

7 42 15-31 
7 46 17.26 

7 50 18.67 

7 54 1953 

7 58 19-83 

8 2 19.56 

8 6 18.73 
8 10 17.32 

8 14 15-33 

8 18 12.77 
8 22 9.62 
8 26 5.89 



Diff. for 
z Hour. 



8 30 1.58 
8 33 56.68 

8 37 51-19 
8 41 45.12 

8 45 38.46 9.710 



a 
0.342 

0.331 

0.320 

0.308 
0.295 
0.281 

0.266 
0.250 
0.233 

0.215 
0.196 
0.177 

0.157 
0.136 
0.1 14 

0.092 
0.070 
0.047 

0.024 

O.OOI 

9.977 

9-953 
9.929 

9.905 

9.881 

9.857 
9.832 

9.808 
9.784 
9.760 

9.735 



Apparent 
Declination. 



N.23 7 II.6 
23 2 57.2 
22 58 18.5 

22 53 15.8 
22 47 49.2 
22 41 58.7 

22 35 44-5 
22 29 6.9 
22 22 5.9 

22 14 41.8 
22 6 54.7 
21 58 44.8 

21 50 12.4 
21 41 17.7 
21 32 0.8 

21 22 21.9 
21 12 21.4 

21 I 59-3 
20 51 16.0 

20 40 II. 6 
20 28 46.3 

20 17 0.5 

20 4 54-3 
19 52 28.0 

19 39 41.8 
19 26 35.9 
19 13 10.6 

18 59 26.2 
18 45 22.9 
18 31 i.o 
18 16 20.8 

N.18 I 22.5 



Diff. for 
z Hoar. 



m 
—10.09 
II. 10 
I2.II 

-13." 
14.10 

15.09 

—16.07 

1705 
18.02 

-18.98 

1993 
20.87 

- 21.81 
22.74 
23.66 

-24-57 

2547 
26.36 

-27.24 
28.11 
28.98 

-29.83 
30.67 

31.51 

-32.33 
33.14 

33-95 

-34-75 
35-53 
36.30 

37-05 

-37.80 



Semi- 
diameter. 



5 46.14 
5 46.13 
5 46.12 

5 46.12 
5 46.12 
5 46.13 

5 46.14 
5 46.16 

5 46.19 

5 46.22 
5 46.26 

5 46.30 

5 46.35 
5 46.40 
5 46.46 

5 46.52 

5 46.59 
5 46.66 

5 46.73 
5 46.81 

5 46.89 

5 46.97 
5 47.05 
5 47.14 

5 47.24 
5 47.33 
5 47.43 

5 47-53 
5 47.63 

5 47-74 
5 47.86 

5 47-98 



Sidereal 
Time of 
Semi- 
diameter 
Passing 
Meridian 



68.78 
68.74 
68.70 

68.66 
68.61 
68.56 

68.51 
68.46 
68.40 

68.34 
68.28 
68.22 

68.16 
68.09 
68.02 

67-95 

67.88 

67.81 

67.73 
67.65 

67-57 

67.49 
67.41 

6733 

67.24 
67.16 
67.07 

66.99 
66.90 
66.82 
66.73 

66.65 



Equation of 

Time, 

to be 
Added to 
Apparent 

Time. 



m s 

3 33-48 

3 44-97 

3 56.20 

4 7.16 
4 17.81 
4 28.14 

4 38.12 

4 47-73 

4 56.94 

5 5.73 

5 1409 

5 22.00 

5 29.43 

5 36.37 

5 42.80 

5 48.72 

5 54-IO 

5 58.94 

6 3.23 
6 6.96 
6 10.13 

6 12.73 

6 14.76 

6 16.21 

6 17.09 

6 17.38 

6 17.10 

6 16.23 

6 14.78 

6 12.74 

6 10.12 

6 6.91 



Diff. for 
z Hoar. 



s 
o 484 

0.474 

0.462 
0.450 

0.437 
0.423 

0.408 
0.392 

0.375 

0.357 
0339 

0.320 

0.299 

0.278 

0.257 
0.235 

0.213 
a 190 

0.167 
0.144 

0.I20 

0.096 
0.072 
0.048 

0.024 
0.000 
0.024 

0.048 
0.073 
0.097 
O.I2I 

0.146 



NoTS..— The mean time of semidiameter passing may be foand by subtracting 
The sign — prefixed to the hourly change of declination indicates thai 



o^.zg from the sidereal tiiB«L 
north declinations are decreasing. 



II. 



JULV 1899. 



Ill 



AT GREENWICH MEAN NOON. 










THE 


SUN'S 










t 

O 


§ 












Equation of 
Time, 
to be 

Subtracted 
from 

Mean Time. 


Diff. for 
I Hour. 


Sidereal 

Time, 

or 

Right Ascension 

of 

Mean Sun. 


Apparent 
Right Ascensioa 


Diff. for 
z Hoar. 


Apparent 
Declination. 


Diff. for 
z Hour. 


Sat. 
SUN 

1 Mon. 

1 


I 

2 
3 


h m 

6 40 
6 44 
6 49 


5073 

58.77 
6.56 


t 
10.340 

10.330 

XO.319 


N.23 7 12.2 
23 2 57.9 
22 58 19.3 


If 
—10.09 
II. 10 
I2.II 


m t 

3 33.45 
3 44-94 
3 56.17 


a 
0.484 

0.473 
0.462 


h m a 

6 37 17-27 
6 41 13.83 

6 45 10.39 


Tnes. 
Wed. 
Thur. 


4 

5 

6 


6 53 

6 57 

7 I 


14.08 
21.29 
28.17 


10.307 
10.294 
10.280 


22 53 16.7 
22 47 50.1 
22 41 59.8 


-I3.H 
14.10 
15.09 


4 7.13 
4 17.78 
4 28.11 


0.450 
0.437 
0.423 


6 49 6.95 

6 53 3.50 
6 57 0.06 


Frid. 

Sat. 

SUN 


7 
8 

9 


7 5 
7 9 
7 13 


34-71 
40.87 

46.64 


10.265 
10.249 
10.232 


22 35 45-7 
22 29 8.2 

22 22 7.3 


—16.07 
17.05 
18.02 


4 38.09 
4 47.69 
4 56.90 


0.408 
0.392 

0.375 


7 56.62 
7 4 53.18 
7 8 49.74 


Mon. 
Tues. 
Wed. 


lO 

II 

12 


7 17 
7 21 

7 26 


52.00 

56.92 

1.38 


I0.2T4 
10.196 
10.176 


22 14 43.4 
22 6 56.4 
21 58 46.7 


-18.98 

19.93 
20.87 


5 5.71 
5 14-07 
5 21.97 


0.357 

0.339 
0.319 


7 12 46.29 
7 16 42.85 
7 20 39.41 


Thur. 

Frid. 

Sat. 


13 
15 


7 30 
7 34 
7 38 


5-37 
8.86 

11.86 


10.156 
10.135 

10. 114 


21 50 14.4 
21 41 19.7 
21 32 3.0 


-21.81 
22.74 
23.66 


5 29.40 

5 36.34 
5 42.78 


0.299 
0.278 
0.257 


7 24 35.96 
7 28 32.52 
7 32 29.08 


SUN 

Mon. 

Tues. 


i6 

17 
i8 


7 42 
7 46 
7 50 


14-33 
16.27 

17.67 


10.092 
10.070 
10.047 


21 22 24.2 
21 12 23.8 
21 2 1.9 


-24.57 

25.47 
26.36 


5 48.69 
5 54-08 
5 58.92 


0.235 
0.213 
190 


7 36 25.64 
7 40 22.19 
7 44 18.75 


Wed, 
Thur. 
Frid. 


19 

20 
21 


7 54 

7 58 

8 2 


18.52 
18.81 
18.54 


10.024 
10.001 

9.977 


20 51 18.7 
20 40 14.4 
20 28 49.3 


-27.24 
28.11 
28.98 


6 3.21 
6 6.95 
6 10.12 


0.167 
0.144 
0.120 


7 48 15.31 
7 52 11.86 

7 56 8.42 


Sat. 

SUN 

Mon. 


22 

23 
24 


8 6 
8 10 
8 14 


17.70 
16.28 
14.29 


9-953 
9.929 

9905 


20 17 3.6 

20 4 57.5 
19 52 31.2 


-29.83 
30.67 

31-51 


6 12.72 

6 14-75 
6 16.20 


0.097 
0.073 
0.049 


8 4.98 
8 '4 1.53 
8 7 58.09 


Tues. 
Wed. 
Thur. 


25 
26 

27 


8 18 
8 22 
8 26 


".73 
8.58 

4.86 


9.881 
9.857 

9.833 


19 39 45-1 
19 26 39.3 

19 13 14.1 


-3233 

33- M 
33-95 


6 17.08 

6 17.38 
6 17.10 


0.025 
0.001 
0.024 


8 II 54.65 
8 15 51.20 
8 19 47.76 


Frid. 
Sat. 
SUN 
Mon. 


28 

29 
30 

31 


8 30 

8 33 

8 37 
8 41 


0.55 
55-66 

50-18 

44-12 


9.809 
9.784 
9.760 

9.735 


18 59 29.7 
18 45 26.5 
18 31 4.7 
18 16 24.5 


-34-75 

35.53 
36.30 

37.05 


6 16.24 

6 14.79 
6 12.75 

6 10.13 


0.048 

0.073 
0.097 
O.I2I 


8 23 44.32 
8 27 40.87 

8 31 37.43 
8 35 33.98 


Tues. 


32 


8 45 


37.47 


9.7" 


N.18 I 26.3 


-37.80 


6 6.93 


0.146 


8 39 30.54 


Nont.— n 
Tl 


tie set 

lesifci 
decrc 


oidiameter for mear 
1 -> prefixed to the 
msing. 


1 noon may 1 
hourly chan 


bo assumed the same 
ge of declination ind 


1 as that for 
icates that 11 


apparent nooa. 
lorth declinatto 


ns are 


DiiL for z Hoar, 

+ 9'.8565. 
(Table III.) 



112 



JULY, 1899. 



Ill 



AT GREENWICH MEAN NOON. 



8 



fi 



I 

2 

3 

4 

5 
6 

7 
8 



xo 
II 

12 

13 
14 
15 

i6 

I? 

i8 

20 
21 

22 

23 

24 

25 

26 

27 

28 
29 
30 

31 
32 






fi 



82 

83 
84 

85 

86 
87 

88 

89 
90 

91 
92 

93 

94 

95 
96 

97 
98 

99 



2CX) 
201 
202 

203 
204 
205 

206 
207 

208 

209 
210 
211 
212 

213 



THE SUN'S 



TRUE LONGITUDB. 



99 23 20.6 

100 20 32.8 

loi 17 45.3 

102 14 58.0 

103 12 10.8 

104 9 24.0 



105 
106 
107 



6 37-3 
3 507 
I 4-3 



107 58 18.1 

108 55 31.9 

109 52 45.8 

no 49 59.7 

111 47 13.7 

112 44 27.8 

113 41 42.0 

"4 38 56.3 

115 36 10.9 

116 33 25.6 

117 30 40.8 

118 27 56.2 

119 25 12.3 

120 22 28.9 

121 19 46.2 

122 17 4.2 

123 14 23.1 

124 II 43.0 



125 
126 

127 

128 



9 
6 



3.8 

257 

3 4«7 
I 12.8 



128 58 38.0 



22 37.8 

19 49.9 

17 2.2 

14 14.7 

II 27.3 

8 40.4 

5 53-5 

3 6.7 

o 20.2 

57 33-8 

54 47-4 

52 1.2 

49 14-9 

46 28.7 

43 426 

40 56.7 

38 10.8 

35 25.2 

32 39-8 

29 54.8 

27 10. 1 

24 26.0 

21 42.4 

18 59.5 

16 17.4 

13 36.2 

10 55-9 

8 16.6 

5 38.3 

3 1-2 

o 25.1 

57 50.2 



Dlff. for 
t Hour. 



3.00 
3-OI 
3.02 

303 
304 
305 

3.06 
3-07 
3-07 

3.08 
3.08 
3.08 

3.08 
309 
3.09 

309 
3-IO 
3.11 

3.12 

3-14 
3.16 

3.18 
3.21 
3.24 

327 
3-31 
3-35 

3-39 
3-43 
3.48 
3-53 



143-58 



LATTTUDB. 



+ 0-37 
0.30 

0.22 

+ 0.1 1 

— 0.0 1 
0.14 

— 0.28 
0.41 

0.53 

— 0.62 
0.70 
0.74 

— 0.76 
0.74 
0.70 

— 0.64 

0.54 
0.42 

— 0.30 
0.17 

— 0.04 

+ 0.09 
0.20 
0.28 

+ 0.35 

0.38 

0.39 

+ 0.36 
0.30 
0.23 

+ 0.12 

— 0.01 



Locftrithm 

of the 

Radius Vector 

of the 

Earth. 



0.0072198 
0.0072254 
0.0072290 

0.0072302 
0.0072288 
0.0072248 

0.0072182 
0.0072090 
0.007 1 97 1 

0.0071826 
0.0071655 
0.0071459 

0.0071240 
0.0070998 
0.0070734 

0.0070451 
0.0070149 
0.0069828 

0.0069491 
O.O06CJI39 
0.0068774 

0.0068393 
0.0068000 
0.0067593 

0.0067173 
0.0066739 
0.0066290 

0.0065824 
0.0065342 
O.O064S42 
0.0064325 

0.0063786 



DiiLfor 
z Hour. 



+ 2.8 

x.g 

+ x.o 

0.0 

— x-i 
2.2 

- S-3 

4-4 
5-5 

- 6.6 
7.6 
8.6 

— 9.6 
10.5 
XI.4 

—12.2 
13.0 

13-7 

-X4.4 

X5.0 
X5-5 

-16. 1 
16.7 
X7.2 

-17.8 
X8.4 
X9.1 

-19.8 
20.5 
21.2 
22.0 

-22.9 



NoTB.— The nambers in column A correspond to the tme equinox of the dat«; ia colnma A* to the oefta 
equinox of Janoaxy o^a 



Mesa Time 

of 

Sidereal Nooa 



h m t 

7 19 51-90 

7 15 55-99 
7 12 o.oii 



7 
7 
7 



8 

4 

o 12.34 



4-17 
8.26 



6 56 16.43 

6 52 20.52 

6 48 24.61 

6 44 28.70 

6 40 32.79 

6 36 36.88 

6 32 40.96 

6 28 45.05 

6 24 49.14 

6 20 53.23 

6 16 57.32 

6 13 1.41 



6 
6 
6 



9 

5 
I 



5-5<^ 

9.5S 

13.67 



5 57 17-76 
5 53 21.85 
5 49 25.94 

5 45 30.03 
5 41 3412 
5 37 38.21 

5 33 42.30 
5 29 46.39 
5 25 50.48 

5 21 54.57 



15 17 5866 

DiS. Cor I Hottt. 
— 9\8296 
(Table II. 



IV. 



JULY, 1899. 



113 









GREENWICH 


MEAN TIME. 








■ 

•s 

a 








THE 


MOON'S 










Day of the Mo 


SEMIDIAMETER. 


HORIZONTAL PARALLAX. 


UPPER TRANSIT. 


AGE. 


Noon. 


Midnight 


Noon. 


DifF. for 
z Hour. 


Midnight 


Diff. for 
I Hour. 


Meridian of 
Greenwich. 


Diff. for 
I Hour. 


Noon. 


1 

I 
2 

3 


» » 

15 40.7 
15 30-0 
15 20.3 


f m 

15 35-3 
15 25.0 

IS 15-8 


f m 

57 25.9 
56 46.5 

56 10.8 


m 
—1.70 

1-57 
1.40 


t m 

57 5.8 
56 28.2 

55 54-4 


m 
—1.64 
1.49 
1.32 


h m 

19 30.4 

20 21.3 

21 13.2 


m 
2.10 

2.14 

2.17 


d 
23.2 

24.2 

25.2 


4 

5 
6 


IS 1 1.6 

15 4-1 
14 57-7 


15 7.7 
IS 0.8 

14 54-9 


55 390 
55 iM 

54 47.8 


-1.23 
1.07 
0.90 


55 24.7 
54 59.1 
54 37-6 


-I.I5 
0.98 
0.81 


22 5-4 

22 56.9 

23 46.9 


2.17 
2.12 
2.04 


26.2 
27.2 
28.2 


7 

8 

9 


14 52.4 
14 48.3 
14 45.6 


14 50-2 
14 46.8 

14 44.8 


54 28.4 
54 13-4 
54 3-4 


-0.72 

0.53 
0.30 


54 20.3 

54 7.7 
54 0.5 


-0.62 

0.42 

-0.18 


6 

34.6 

1 20.0 


1.94 
Z.84 


29.2 
0.6 

1.6 


lO 

II 

12 


14 44.4 

14 45-1 
14 47.7 


14 44-5 
14 46.1 

14 49.9 


53 59-1 

54 1-4 
54 1 1-2 


-0.05 

+0.25 

0.58 


53 59-3 

54 5.3 
54 19-3 


+0.10 
0.41 
0.76 


2 3-3 

2 44.9 

3 25.7 


1.76 
I.71 
Z.69 


2.6 
3.6 
4.6 


13 
15 


14 52.7 

15 o-i 

15 lO.O 


14 56.1 

15 4.8 
15 15.9 


54 29.5 

54 56.8 

55 33-2 


+0.95 
1.33 
1.70 


54 42.0 

55 13.9 
55 54-8 


+I.I4 
1.52 

1.88 


4 6.5 

4 48.4 

5 32.3 


1.72, 

1.78 

Z.89 


5.6 
6.6 
7.6 


i6 

17 
i8 


15 22.3 

15 36.5 
15 52.0 


15 29.2 
15 44-2 
15 59-8 


56 18.3 

57 10.5 

58 7-2 


+2.03 
2.29 
2.40 


56 43.6 

57 38.5 

58 36.1 


-1-2.18 
2.36 

2-39 


6 19.2 

7 10.2 

8 5.5 


2.04 
2.21 

2.40 


8.6 

9.6 

10.6 


19 

20 
21 


16 7.6 
16 22.1 
16 33.8 


16 15.1 
16 28.4 
16 38.2 


59 4-6 

59 57-7 

60 40.9 


+2.33 
2.03 
1.51 


59 32.1 

60 20.9 
60 57.1 


+2.21 
Z.80 
Z.18 


9 4-9 

10 6.8 

11 9.1 


2-54 
2.60 

2.57 


11.6 
12.6 
13-6 


22 

23 

24 


16 41.5 
16 44.1 
16 41.4 


16 43.5 
16 43.4, 

16 38.2 


61 9.0 
61 18.6 
61 8.7 


+0.80 

-0.01 

0.80 


61 16.3 
61 16.0 
60 56.9 


+0.40 

—0.41 

1.15 


12 9.8 

13 7.6 

14 2.4 


2.47 

2.34 
2.23 


14.6 
15.6 
16.6 


25 
26 

27 


16 33.9 
16 22.7 
16 9.1 


16 28.6 
16 16.1 
16 1.9 


60 41. 1 

59 59-9 
59 IO-2 


—1.46 
1.92 
2.16 


60 21.9 
59 35-8 
58 43.8 


-1.72 
2.07 
2.21 


14 54.8 

15 45-8 

16 36.2 


2.15 
2.11 
2.10 


17.6 
18.6 
19.6 


28 
29 

30 
31 


15 547 
15 40-5 
15 27.4 
15 15.8 


15 47-5 
15 33.8 
15 21.3 
IS 10.7 


58 17.2 
57 25.1 
56 36.9 
55 54-5 


-2.21 
2.10 
1.90 
1.63 


57 50-8 
57 0.4 
56 14.9 

55 35-7 


-2.17 
2.01 
1.77 
1.49 


17 26.8 

18 18.1 

19 lO.O 

20 2.0 


2.12 
2.15 
2.17 
2.16 


20.6 
21.6 
22.6 
23.6 


32 


15 6.1 


15 1-9 


55 18.7 


-1-35 


55 3-4 


~1.20 


20 53.6 


2.12 


24.6 





8 



114 



JULY, 1899. 



V. 



GREENWICH MEAN TIME. 



Hoar. 



O 

I 
2 

3 

4 

5 
6 

7 
8 

9 

lO 

II 

la 

13 

15 
i6 

17 
i8 

19 

20 

21 
22 

23 
24 



THE MOON'S RIGHT ASCENSION AND DECLINATION, 



Right 

Ascension. 



Diff. for 
I Minute. 



Declination. 



Diflf. for 
X Minate. 



SATURDAY i. 





h m • 


• 


9 


o 


I 28 29.43 


2.X581 


N.14 22 


I 


I 30 38.96 


a. 1597 


14 33 


2 


I 32 48.59 


SM612 


14 44 


3 


I 34 58.30 


2.1627 


14 55 


4 


I 37 8.11 


2.ifi43 


15 6 


5 


I 39 18.02 


2.1660 


15 16 


6 


I 41 28.03 


2.Z676 


15 27 


7 


X 43 38.13 


S.1692 


15 37 


8 


I 45 48- 34 


2.1709 


15 48 


9 


I 47 58.64 


2. 1726 


15 58 


lO 


I 50 9-05 


a. 1743 


16 8 


II 


I 52 19.56 


9.1761 


16 18 


12 


I 54 30.18 


2.1779 


16 28 


13 


I 56 40.91 


a. 1797 


16 38 


14 


I 58 51-74 


2. 1813 


16 48 


15 


2 I 2.67 


s. X832 


16 58 


i6 


2 3 13.72 


2.1851 


17 7 


17 


2 5 24.88 


8.X868 


17 17 


i8 


2 7 36.14 


2.X887 


17 26 


19 


2 9 47-52 


2.1905 


17 36 


20 


2 It 59-00 


2.1923 


17 45 


21 


2 14 10.59 


2.1942 


17 54 


22 


2 16 22.30 


2.X960 


18 3 


23 


a 18 34.11 


2.1978 


N.18 12 



SUNDAY 2. 



2 20 
2 22 



25 

27 
29 
31 
33 
36 
2 38 
2 40 

42 
45 
47 



2 
2 

2 
2 
2 
2 



a 
a 

2 

2 49 



2 

2 
2 

2 

3 
3 
3 
3 
3 
3 
3 



51 
53 
56 
58 
o 
a 

5 

7 

9 
II 

14 



46.03 


a. 1997 


58.07 


2.2016 


10.22 


a. 2033 


22.47 


8.2052 


34.84 


9.2071 


47.32 


9.2089 


59.91 


9.2x07 


12.60 


2.2x25 


25.41 


9.9x43 


38.32 


9.9X6x 


51.34 


9.9x79 


4-47 


9.9x97 


17.70 


2.22x4 


31.04 


9.2939 


44.48 


2.2248 


58.02 


2.226s 


11.66 


2.2282 


25.41 


2.2299 


39.25 


2.2314 


53.18 


2.2330 


7.21 


a. 2347 


ai.34 


2.2362 


35-56 


a. 2377 


49.87 


2.239a 


4.27 


9.2407 



N. 



8 
8 
8 
8 
8 

9 

9 

9 

9 

9 

9 

9 

9 
20 

20 

20 

20 

20 

20 

20 

20 

21 

21 

21 

N.2I 



38. a 

37-1 
31.0 

19.7 

3-3 

41.6 

14.7 
42.4 

4-8 
21.7 

33-2 

39.1 

39.5 

34.3 

23.5 
6.9 

44-6 
16.5 
42.6 
2.8 
17. 1 

25.5 
27.8 

24.1 



ai 14.3 
29 58.4 
38 36.4 



47 

55 

3 
12 

20 

28 

36 

43 

51 

59 
6 

13 
21 

28 

35 
42 
49 

55 
2 

8 
15 

21 



8.1 
33.6 
52.8 

5-7 
12.2 

12.3 

6.0 

53.2 

33-9 
8.0 

35-5 

56.4 
10.7 

18.3 

19.2 

13-3 
0.6 

41. 1 

14.7 

41.5 

1-3 

14.2 









XX. 023 
XO.940 
X0.855 
X0.769 
Z0.682 
10.595 

10.507 
10.4x8 
X0.327 
X0.237 

XO.X45 

XO.052 

9.960 

9.867 

9.77a 
9*676 
9.580 
9.483 
9.386 
9.287 
9.X89 
9.089 
8.988 
8.887 



8.786 
8.684 
8.58X 
8.477 
8.37a 
8.267 
8.x6a 
8.055 

7.948 
7.84X 

7.73a 
7.623 

7.513 
7.403 

7.293 
7.X89 
7.071 
6.958 
6.845 
6.73a 
6.6x7 
6.503 
6.388 
6.279 
6.X57 



Hoar, 



O 
I 
2 

3 

4 

5 
6 

7 
8 

9 
10 

II 

la 

13 

14 

15 
16 

17 
18 

19 
20 

21 

22 

23 



o 

I 
2 

3 

4 

5 
6 

7 

8 

9 
10 

II 

12 

13 

14 

15 
16 

17 

18 

19 
20 

21 

22 

23 
24 



Right 
Ascension. 



Diff. for 
X Minute. 



Declinatioa 



DifLfor 

X Minute. 



MONDAY 3. 



h 
3 
3 
3 
3 
3 
3 
3 
3 
3 
3 
3 
3 
3 
3 
3 
3 
3 
3 
3 
3 
3 
4 
4 
4 



m 

14 
16 

18 

20 

23 

25 
27 

29 
32 

34 
36 
38 
41 
43 
45 
47 
50 
52 

54 
56 

59 

I 

3 

5 



4.27 
18.76 

33.33 

47.98 

2.71 

17.52 
32.40 

47.36 

2.39 
17.49 

32.66 

47.88 

3.17 
18.52 

33.92 

49.37 
4.88 

20.43 

36.02 

51.65 

7.32 

23.03 

38.77 
54.54 



9.9407 
9.9422 

9.2435 
8.2448 
9.9462 

9.9474 
9.2487 

9.2499 
9.25XZ 
8.2522 
9.2532 
9.2542 

9.9553 
8.9569 
9.957X 
8.9580 
2.9588 

a.9595 
9.2602 

9.9608 
9.96x5 
9.9621 
•.2626 
9.9630 



N.21 
21 
21 
21 

21 
21 
21 
22 
22 
22 
22 
22 
22 
22 
22 
22 
22 
22 
22 
22 

23 
23 

23 

N.23 



21 

27 

33 
39 
44 
50 
56 
I 
6 
II 
16 
21 
26 

31 
35 
40 
44 



14.2 

20.2 
19.2 
XI. Z 
56.0 

33.9 

4.7 
28.3 

44.8 

54.1 

56.3 
51.2 

38.9 
19.4 

52.6 
18.5 
37.2 
48 48.5 
52 52.5 
49.1 

38.3 
20.2 

54.7 
21.8 



56 

o 

4 

7 
II 



4 
4 
4 
4 
4 
4 
4 
4 
4 
4 
4 
4 
4 
4 
4 
4 
4 
4 
4 
4 
4 
4 
4 
5 
5 



8 
10 
12 

14 

17 

19 
21 

24 
26 

28 
30 
33 
35 
37 
39 
42 

44 
46 
48 
51 
53 
55 

57 
o 

a 



TUESDAY 4. 

N.23 
23 
23 
23 
23 
23 
23 
23 
23 
23 
23 
23 
23 
23 
23 
23 
23 
23 
23 
23 
23 
23 
23 

23 

N.23 



10.33 


9.2633 


26.14 


2.9637 


41.97 


9.9639 


57.81 


9. 2641 


13.66 


2.2642 


29.52 


■.2643 


45.38 


2.2643 


1.24 


■.2643 


17.10 


2.2649 


32.95 


9.264X 


48.79 


8.2638 


4.61 


9.2655 


20.41 


8.8639 


36.19 


8.8698 


51-95 


8.8693 


7.67 


8.86X7 


23- 36 


8.26X8 


39.02 


8.2606 


54.63 


8.8598 


10.20 


«.859i 


25.72 


8.8588 


41.18 


9.957a 


56.59 


9.9563 


11.94 


9.955a 


27.22 


9.9541 



14 

17 
20 

23 

26 

29 
32 

34 
36 

39 
41 
43 
44 



41.5 
53.8 
58.6 
56.0 
46.0 
28.5 
3.6 

31. a 
51.3 

3.9 

9.1 

6.8 

57.0 

46 39.8 

48 15. 1 
42.9 

3.2 
16. 1 
21.6 
Z9.6 
10. 1 

53.2 

28.8 

57.0 
17.8 



49 
51 
52 

53 
54 
55 
55 
56 
56 
57 



6.157 
6.049 

5-934 
5.807 
5.690 

5.57a 
5.453 

5. 334 
5.ax5 
5.096 

i.976 

4.855 
4.735 
4.6x4 

4.49a 
4.37a 
4.950 
4.X27 
4.005 
3. 889 
3.759 
3.637 
3. 513 
3.390 



3. •67 

3.X4a 
3.0x8 

«.895 

9.771 
9.647 

9.522 

«.397 
9.272 
9.X48 
•.094 
X.899 

1.775 
X.65X 
X.526 
I.40X 
X.977 

1. 153 
X.029 

0.904 
0.780 
0.656 
0.53a 
0.408 
0.985 



VL 



JULY, 1899. 



115 



GREENWICH MEAN TIME. 



THE MOON'S RIGHT ASCENSION AND DECLINATION. 



Hour. 



ABceDsioa 



Diff. for 
I Minota. 



DecUnatioa 



Diff. for 
X Minute. 



O 

z 

2 

3 

4 

5 
6 

7 
8 

9 

lO 
XX 
X2 

13 

14 

15 
x6 

17 
x8 

19 

20 
2X 
22 

23 



O 

X 
2 

3 

4 

5 
6 

7 
8 

9 

10 
XX 
12 

13 

14 

15 
i6 

17 
i8 

19 

20 
21 
22 

23 
24 



WEDNESDAY 5. 



h 
5 
5 
5 
5 
5 
5 
5 
5 
5 
5 
5 
5 
5 
5 
5 
5 
5 
5 
5 
5 
5 
5 
5 
5 



5 

5 
6 

6 

6 

6 

6 

6 

6 

6 

6 

6 

6 

6 

6 

6 

6 

6 

6 

6 

6 

6 

6 

6 

6 



2 

4 
6 

9 
xz 

13 

15 
x8 

20 

22 

24 
27 
29 

31 
33 
36 
38 
40 

42 
45 
47 
49 
51 
53 



56 

58 
o 

2 

4 

7 

9 
II 

13 

15 

18 

20 

22 

24 
26 

28 

31 

33 

35 

37 

39 

41 

43 
46 

48 



• 


t 


w 


r 


w 


■r 


27.22 


«.a54X 


N.23 


57 


17.8 


0.385 


42.43 


9.9599 


23 


57 


31.2 


o.x6x 


57-57 


a. 25x7 


23 


57 


37.1 


-¥ 0.037 


12.64 


a.«505 


23 


57 


35.7 


- o»o85 


27.63 


3.949X 


23 


57 


26.9 


0.807 


42.53 


a. 4477 


23 


57 


10.8 


0.330 


57.35 


3.9463 


23 


56 47.3 


0.45a 


12.08 


3.2447 


23 


56 


16.5 


0.574 


26.71 


3.2430 


23 


55 


38.4 


0.696 


41.24 


3.3413 


23 


54 


53.0 


0.817 


55.67 


3.2396 


23 


54 


0.3 


0.939 


9.99 


2.3377 


23 


53 


0.3 


1.060 


24.20 


2.2359 


23 


51 


53.1 


x.x8o 


38.30 


8.3340 


23 


50 


38.7 


1.300 


52.28 


3.8330 


23 


49 


17. X 


x.430 


6.14 


3.3300 


23 


47 


48.3 


X.540 


19.88 


3.2279 


23 


46 


12.3 


1.659 


33.49 


2.2257 


23 


44 


29.2 


X.777 


46.97 


8.8335 


23 


42 


39.1 


X.895 


0.3X 


3.33X3 


23 


40 


41.8 


8.0X3 


13.52 


3.3x90 


23 


38 


37.5 


3.X30 


26.59 


8.3x66 


23 


36 


26.2 


a.347 


39.51 


3.2X4X 


23 


34 


7.8 


a. 364 


52.28 


2.2XX7 


N.23 


31 


42.5 


S.480 



THURSDAY 6. 



4.91 


3.3092 


17.38 


2.2066 


29.70 


2.2039 


41.85 


2.20X2 


53.84 


2.X985 


5.67 


«.I957 


17.33 


2.X928 


28.81 


2.1899 


40.12 


2.X870 


51.25 


2.X84I 


2.21 


3.x8xx 


12.98 


a. 1779 


23.56 


2.X748 


33.96 


3.I7I7 


44.17 


3.X686 


54.19 


2.1654 


4.02 


2.X622 


13.65 


2.1588 


23.08 


2.X555 


32.31 


3.X522 


41.34 


3.X487 


50.16 


a. 1453 


58.78 


8.X4X9 


7.19 


2.X385 


15.40 


8.X350 



N.23 

23 
23 
23 
23 
23 
23 
23 
23 
23 

22 
22 
22 
22 
22 
22 
22 
22 
22 
22 
22 
22 
22 
22 
N.2I 



29 
26 

23 
20 

17 

14 
XI 

8 

4 
I 

57 
53 
49 
45 
41 
37 

33 

28 

24 

19 

14 
10 

5 
o 

54 



10.2 
31.0 

44-9 
51-9 
52.1 

45.5 
32.2 

I2.X 
45.3 

II. 9 

31.8 

45.2 

52.0 

52.3 
46.0 

33.3 

14.2 
48.7 
16.9 
38.8 

54.4 

3.7 
6.9 

4.0 

55-0 



8.996 

3.7XX 
3.826 
2.940 

3.053 
3.X66 
3.378 

3.39X 
3.50a 
3.6x3 
3.7a8 

3.833 

3.94X 

4.050 

4.158 
4.365 
4.37a 
4.477 
4.583 

4.687 
4.79a 
4.896 
4.998 
5.099 

9.800 



Hour. 



RiKht 
Aacensioa 



Diff. for 
X Minute. 



DecUnatioa 



Diff. for 
X Minute. 



O 

X 
2 

3 

4 

5 
6 

7 
8 

9 
xo 

IX 
X2 
13 
14 
15 

x6 

17 
x8 

19 
20 

21 

22 

23 



o 

X 
2 

3 

4 

5 
6 

7 
8 

9 
10 

XX 
X2 

13 

15 
x6 

17 

x8 

19 
20 

21 

22 

23 
24 



FRIDAY 7. 



h 
6 

6 

6 

6 

6 

6 

7 
7 
7 
7 
7 
7 
7 
7 
7 
7 
7 
7 
7 
7 
7 
7 
7 
7 



in 
48 
50 
52 

54 
56 
58 

x 

3 

5 
7 
9 

XX 

13 
15 
17 
19 
21 

24 
26 

28 

30 

32 

34 
36 



15.40 

23-39 

31.17 

38.74 
46.09 

53.22 

0.14 

6.84 

13.32 
19.58 

25.61 

31.42 
37.01 

42.37 

47-51 
52.42 

57.10 

X.56 

5-79 

9.79 

13-56 

17. IX 

20.43 

23.52 



8 
8.X35O 

3. 13 14 
3.X279 

8.X243 
8.X207 

••XX7X 
8.XX35 
8.1098 
8.X063 
a.xo24 

8.0987 

8.0950 
3.09x3 

3.0875 

8.0837 
8.0799 

3.076s 

8. 0724 

8.0686 

8.0648 

8.06ZO 

«.057a 

8.0534 
8.0496 



I 



N.2X 
21 
21 
2Z 
2X 
21 
21 
21 
21 
2X 
20 
20 
20 
20 
20 
20 
20 
20 
20 

19 

19 

19 

19 
N.I9 



54 
49 
44 
38 
33 

27 
21 

16 

10 

4 
57 
51 
45 
39 
32 

25 

19 
12 

5 
58 

51 
44 
37 
30 



SATURDAY 8. 



38 
40 
42 

44 
46 
48 
50 
52 

54 

56 

58 

o 

2 

4 
6 

8 



7 

7 

7 

7 

7 

7 

7 

7 

7 

7 

7 
8 

8 

8 

8 

8 

8 xo 

8 12 

8 14 

8 16 

8 18 

8 20 

8 22 

8 24 

8 26 



26.38 


■.0457 


N.K 


29.01 


a.0480 


XI 


31.42 


8.0383 


XI 


33.59 


a.Q343 


X( 


35.54 


8.0306 


X 


37.26 


3a 0868 


I< 


38.76 


•.0S3X 


x< 


40.03 


8.0x93 


X 


41.07 


8.0x55 


X 


41.89 


8.0XX7 


I 


42.48 


8.0080 


X 


42.85 


8.0048 


X 


42.99 


8.0009 


I 


42.91 


1.9968 


I 


42.61 


x.993a 


X 


42.09 


Z.989S 


X 


41.35 


1.9858 


X 


40.39 


1.9888 


X 


39.21 


Z.9786 


X 


37.82 


1.9750 


I 


36.21 


1.9714 


X 


34.39 


1.9679 


X 


32.36 


z.96«3 


X 


30. IX 


X.9608 


X 


27.66 


X.9574 


N.x 



9 
9 
9 

9 

8 

8 
8 
8 
8 
8 
8 

7 
7 

7 

7 

7 

7 

7 
6 

6 

6 

6 

6 

6 

6 



22 

15 

7 
o 

52 

44 
36 
28 
20 
12 

4 
56 
47 
39 

31 
22 

13 

5 

56 

47 

38 

29 
20 

IX 

2 



55.0 
40.0 
18.9 

51.9 
18.9 

40.0 

55.3 
4.8 

8.5 

6.5 

58.8 

45.5 
26.6 

2.2 

32.3 

56.9 
16.2 

30.1 

38.7 
42.0 

40.x 

33.x 
20.9 

3.6 



4X.3 
Z4.0 

4X.8 

4.7 
22.8 

36.0 

44.5 

48.3 

47.5 
42.0 

32.0 

17-4 

58.5 

35.1 

7.4 

35.3 

58.9 
18.3 

33.5 
44.6 

51.6 

54.5 
53.5 
48.5 
39-6 






9.900 
5.30X 
5.401 
5.500 

5.599 
5.697 
5.793 
5.890 
5.986 
6.08X 
6.175 
6.368 
6.36X 
6.453 
6.544 
6.634 

6.733 

6.8x3 
6.goi 
6.988 

7.074 
7a6o 
7.346 
7.330 



7.4x3 
7.496 
7.577 
7. 



7« 
7. 



8. 



.658 

739 
.8x9 

,897 

•975 

1.053 
8.X89 
8.809 
8.879 
8.35a 
8.426 
8.498 
8.57X 
8.643 
8.7x3 
8.78X 
8.849 
8.9x7 
8.984 
9.050 
9.1x6 
9*x8x 

■ i J 



116 



JULY, 1899. 



VII. 













GREENWICH 


MEAN 


TIME. 








1 








THE MOON'S 


RIGHT 


ASCENSION AND DECLINATION. 






Hour. 




Right 


Diff.fbr 


Declination. 


Diflf. for 


Hour. 




Right 


Diff. for 


DecIinatioiL 


DifE. for 




AsceosioiL 


X Minate. 








I Minute. 




Ascension. 


1 Minute. 






z Minute. 








S 


;UNDA^ 


Y 9. 












TUESDAY II. 








h 


m 


• 


8 


• 


f 


m 


m 




h 


m t 


• 


• 


• • I 


m 





8 


26 


27.66 


1.9574 


N.I6 


2 


39.6 


9.x8x 





9 


57 2.27 


1.8335 


N. 7 41 41. 1 


K.417 


z 


8 


28 


25.00 


1.9539 


15 


53 


26.8 


9.34s 


I 


9 


58 52.17 


I. 8310 


7 


30 15.2 


11.447 


2 


8 


30 


22.13 


i.95<H 


15 


44 


10.2 


9.307 


2 


10 


41.99 


1.8296 


7 


18 47.5 


11.476 


3 


8 


3« 


19.05 


X.9471 


15 


34 


49.9 


9.370 


3 


10 


2 31.72 


X.8281 


7 


7 18.1 


11.504 


4 


8 


34 


15.78 


X.9437 


15 


25 


25.8 


9.433 


4 


10 


4 21.36 


X.8368 


6 


55 47.0 


11.532 


5 


8 


36 


12.30 


1.9403 


15 


15 


58.1 


9-493 


5 


10 


6 10.93 


X.8256 


6 


44 14.3 


".55S 


6 


8 


38 


8.62 


1.9370 


15 


6 


26.7 


9.553 


6 


10 


8 0.43 


1.8243 


6 


32 40.0 


XI. 584 1 


7 


8 


40 


4.74 


1.9337 


14 


56 


51.7 


9.612 


7 


10 


9 49 85 


x.833a 


6 


21 4.2 


1 

IX. 6x0 


8 


8 


42 


0.67 


1.9305 


14 47 


13.2 


9.671 


8 


10 


II 39-21 


X.8221 


6 


9 26.8 


XI. 635 


9 


8 


43 


56.40 


i.9a7a 


14 


37 


31.2 


9.739 


9 


10 


13 28.50 


1.82x0 


5 


57 48.0 


IX. 659 


lO 


8 


45 


5194 


1.9341 


14 


27 


45.7 


9.786 


10 


10 


15 17.73 


X.8200 


5 


46 7.7 


XX. 682 


II 


8 


47 


47.29 


X.9308 


14 


17 


56.9 


9.842 


II 


10 


17 6.90 


1.8191 


5 


34 26.1 


11.705 


12 


8 


49 


42.44 


1.9177 


14 


8 


4.7 


9.897 


12 


10 


18 56.02 


1.8x83 


5 


22 43.1 


11.737 


13 


8 


51 


37.41 


1.9147 


13 


58 


9.2 


9-953 


13 


10 


20 45.08 


1.8173 


5 


10 58.8 


11.749 


H 


8 


53 


32.20 


1.9116 


13 


48 


10.4 


10.006 


14 


10 


22 34.09 


1.8x65 


4 


59 13.2 


11.771 


15 


8 


55 


26.80 


X.9086 


13 


38 


8.5 


10.059 


15 


10 


24 23.06 


x.8xs8 


4 


47 26.3 


11.793 


i6 


8 


57 


21.23 


1.9057 


13 


28 


3.3 


10. 112 


16 


10 


26 11.99 


X.8152 


4 


35 38.2 


zz.Sxx 


17 


8 


59 


15.48 


1.9027 


13 


17 


55.0 


10.163 


17 


10 


28 0.88 


Z.8146 


4 


23 49.0 


11.830 


i8 


9 


I 


9.55 


1.8997 


13 


7 


43.7 


10.2x4 


18 


10 


29 49.74 


1.8x40 


4 


II 58.6 


xr.849 


19 


9 


3 


3.44 


X.8968 


12 


57 


293 


10.365 


19 


10 


31 38.56 


1.8135 


4 


7.1 


XX. 867 


20 


9 


4 


57.17 


1.8940 


12 


47 


II. 9 


10.314 


20 


10 


33 27.36 


X.8X31 


3 


48 14.6 


XX. 884 


21 


9 


6 


50.72 


x.89ia 


12 


36 


51.6 


10.363 


21 


10 


35 16.13 


x.8x27 


3 


36 21.0 


XX.90X 


22 


9 


8 


44.11 


X.8884 


12 


26 


28.3 


10.412 


22 


10 


37 4.89 


X.8124 


3 


24 26.5 


11.917 


23 


9 


10 


37.33 


1.8857 


N.12 


16 


2.2 


10.459 


23 


10 


38 53-62 


1.8X32 


N. 3 


12 31.0 


ii.93« 








M 


ONDAl 


r lO, 












WE 


DNESD 


►AY 12. 







9 


12 


30.39 


X.8830 


N.12 


5 


33-2 


10.506 





10 


40 42.35 


I.8l2X 


N. 3 


34-6 


XI.947 


Z 


9 


14 


23.29 


X.8804 


II 


55 


1.5 


10.553 


I 


10 


42 31.07 


X.8I18 


2 


48 37.4 


XX.96X 


2 


9 


16 


16.04 


1.8778 


II 


44 


27.0 


10.597 


2 


10 


44 19.77 


X.8XI7 


2 


36 39.3 


11.975 


3 


9 


18 


8.63 


1.8753 


II 


33 


49.8 


10. 642 


3 


10 


46 8.48 


X.8XI8 


2 


24 40.4 


11.987 


4 


9 


20 


1.07 


1.8727 


II 


23 


lO.O 


10.685 


4 


10 


47 57.19 


X.8118 


2 


12 40.8 


11.999 


5 


9 


21 


53.36 


X.8703 


II 


12 


27.6 


10.728 


5 


10 


49 45.90 


1.81x9 


2 


40.5 


' xa.oii 


6 


9 


23 


45.51 


1.8679 


II 


I 


42.6 


10.773 


6 


10 


51 34.62 


1.8X21 




48 39.5 


xa.oaa 


7 


9 


25 


37.51 


1.8655 


10 


50 


550 


XO.813 


7 


10 


53 23.35 


1.8x33 




36 37.8 


13.Q3S 


8 


9 


27 


29.37 


1.863a 


10 


40 


5.0 


10.853 


8 


10 


55 12.10 


X.8126 




24 35.5 


13.04a 


9 


9 


29 


21.09 


1.8609 


10 


29 


12.6 


10.B94 


9 


10 


57 0.86 


x.8x29 




12 32.7 


za.osx 


10 


9 


31 


12.68 


1.8587 


10 


18 


17.7 


10.934 


10 


10 


58 49.65 


1.8x34 




29.4 


X3.060 


II 


9 


33 


4.13 


1.8564 


10 


7 


20.5 


10.972 


II 


II 


38-47 


X.8138 





48 25.5 


13. 068 


12 


9 


34 


55.45 


1.8543 


9 


56 


21.0 


XI. oil 


12 


II 


2 27.31 


1.8143 





36 21.2 


ia.075 


13 


9 


36 46.65 


1.8522 


9 


45 


19.2 


11.048 


13 


II 


4 16.19 


X.8150 





24 16.5 


xa.a8a 


14 


9 


38 


37.72 


1.8502 


9 


34 


15.2 


11.085 


14 


II 


6 5.11 


1.8x57 





12 II. 4 


ia.087 


15 


9 


40 


28.67 


t.8482 


9 


23 


9.0 


IX. 122 


15 


II 


7 54.07 


I. 8164 


N. 


6.0 


xa.093 


i6 


9 


42 


19.50 


1.8462 


9 


12 


0.6 


11.157 


16 


II 


9 43.08 


X.8172 


S. 


II 59-8 


13.098 


17 


9 


44 


10.22 


1.8443 


9 





50.1 


11.192 


17 


II 


II 32.14 


1.8181 





24 5.8 


ta.ioa 


i8 


9 


46 


0.82 


1.8425 


8 


49 


37.6 


XX. 226 


18 


II 


13 21.25 


X.8190 





36 12.0 


ia.xos 


19 


9 


47 


51.32 


1.8407 


8 


38 


23.0 


XX. 260 


19 


II 


15 10.42 


1.8200 





48 18.4 


xa.107 


20 


9 


49 


41.71 


1.8390 


8 


27 


6.4 


XI.392 


20 


II 


16 59.65 


1.82x0 




24.9 


la.xio 


21 


9 


51 


32.00 


1.8372 


8 


15 


47.9 


11.334 


21 


II 


18 48.94 


I. 8321 




12 31.6 


ia.112 


22 


9 


53 


22.18 


1.8356 


8 


4 


27.5 


".356 


22 


II 


20 38.30 


1.H232 




24 38.3 


xa.xxa 


23 


9 


55 


12.27 


X.834Z 


7 


53 


5-2 


IX. 387 


23 


II 


22 27.73 


1.8245 




36 450 


xa.ixa 


«4 


9 


57 


2.27 


1.8335 


N. 7 


41 


41. 1 


IX. 417 


24 


II 


24 17.24 


X.8258 


S. I 


48 51.7 


za.xxa 



VIII. 



JULY, 1899. 



117 











GREENWICH 


MEAN TIME. 










1 






THE MOON'S RIGHT ASCENSION AND DECLINATION 


• 






Hour. 


Right 


Diff. for 


Declination. 


Diff. for 


Hoar. 


RlRht 


Diff. for 


Declination. 


Diff. for 




AacensioxL 


I Minate. 








X Minute. 




Ascension. 


X Minute. 








I Minute. 






TH 


URSD/ 


^Y 13 


;• 




• 




SATURDAY 15 


• 








b m 


• 


t 


• 


t 


m 


• 




b m ■ 


s 


• 


* 


m 


m 


O 


II 24 


17.24 


1.8358 


S. I 


48 


51.7 


ia.xi3 





12 54 41.67 


x.9r'69 


S.II 


16 


27.9 


XI. 249 


X 


II 26 


6.83 


1.8273 


2 





58.4 


13. XII 


I 


12 56 39.82 


1.9715 


II 


27 


41.7 


XX. 2X1 


2 


II 27 


56.51 


X.8287 


2 


13 


5-0 


X3.I09 


2 


12 58 38.25 


X.9763 


II 


38 


53-2 


XX. 172 


3 


II 29 


46.27 


1.8302 


2 


25 


II. 5 


xa.xo7 


3 


13 36.96 


X.9808 


II 


50 


2*4 


XX. 132 


4 


II 31 


36.13 


1.8317 


2 


37 


17.8 


13. 103 


4 


13 2 35.95 


1.9857 


12 


I 


9.1 


X 1.093 


5 


II 33 


26.08 


X.8333 


2 


49 


23-9 


13.099 


5 


13 4 35-24 


1.9905 


12 


12 


13-4 


XI. 051 


6 


II 35 


16.13 


I. 8351 


3 


I 


29.7 


13.095 


6 


13 6 34.81 


X.9953 


12 


23 


15-2 


XI. 009 ' 


7 


II 37 


6.29 


1.8368 


3 


13 


35-3 


13.090 


7 


13 8 34.68 


3.0003 


12 


34 


14-5 


10.966 


8 


II 38 56.55 


X.8387 


3 


25 


40-5 


X3.084 


8 


13 10 34.85 


2.0053 


12 


45 


II. I 


10.921 


9 


II 40 


46.93 


1.8406 


3 


37 


45-4 


13.078 


9 


13 12 35.32 


3.0104 


12 


56 


5-0 


10.875 


lO 


II 42 


37-42 


1.8435 


3 


49 


49-9 


13.071 


10 


13 14 36.10 


3.0156 


13 


6 


56.1 


10.829 


II 


II 44 


28.03 


1.8445 


4 


I 


53-9 


la.063 


II 


13 16 37.19 


3.0307 


13 


17 


44-5 


10. 782 


12 


II 46 


18.76 


1.8466 


4 


13 


57-3 


13.053 


12 


13 18 38.59 


3.0360 


13 


28 


29.9 


10.733 


13 


II 48 


9.62 


1.8488 


4 


26 


0.2 


13.044 


13 


13 20 40.31 


a. 03 13 


13 


39 


12.4 


10.684 


14 


II 50 


0.62 


1.851Z 


4 


38 


2.6 


13.035 


14 


13 22 42.35 


3.0367 


13 


49 


52.0 


10.634 


15 


II 51 


51-75 


X.8533 


4 


50 


4-4 


13. 034 


15 


13 24 44.72 


3.0432 


14 





28.5 


xo. 582 


i6 


II 53 


43.02 


1.8557 


5 


2 


5-5 


X3.0I3 


16 


13 26 47.42 


3.0477 


14 


II 


1.8 


X0.529 


17 


II 55 


34-43 


I. 8581 


5 


14 


5.9 


13.001 


17 


13 28 50.45 


2.0533 


14 


21 


32.0 


X0.477 


i8 


II 57 


25-99 


X.8606 


5 


26 


5.6 


XX. 988 


18 


13 30 5382 


3.0590 


14 


31 


59.0 


10.42a 


19 


II 59 


17.70 


1.8633 


5 


38 


4-5 


".975 


19 


13 32 57-53 


3 0647 


14 


42 


22.6 


X0.366 


20 


12 I 


9-57 


1.8658 


5 


50 


2.6 


IZ.963 


20 


13 35 1-58 


a. 0703 


14 


52 


42.9 


XO.309 


21 


12 3 


1.60 


X.868S 


6 


I 


59-9 


11.947 


21 


13 37 5-97 


3 0762 


15 


2 


59.7 


10.351 


22 


12 4 


53-79 


I. 8713 


6 


13 


56.2 


XX.931 


22 


13 39 10-72 


2.0 20 


15 


13 


13.0 


XO.I92 


23 


12 6 


46.15 
I 


1.8741 

''RIDAI^ 


S. 6 
' 14. 


25 


51.6 


XX. 914 


23 


13 41 15.81 
S 


2.0S79 

UNDA\ 


S.15 
' 16. 


23 


22.7 


xo.i3a 


O 


12 8 


38.68 


1.8770 


S. 6 


37 


45.9 


XX.897 





13 43 21.27 


3.0939 


S.15 


33 


28.8 


X0.07X 


I 


12 10 


31-39 


Z.8800 


6 


49 


39.2 


XI. 879 


I 


13 45 27.08 


2.0998 


15 


43 


31.2 


XO.008 


2 


12 12 


24. 28 


1.8830 


7 


I 


31-4 


11.860 


2 


13 47 33-25 


a. 1059 


15 


53 


29.8 


9.945 


3 


12 14 


1735 


'.8861 


7 


13 


22.4 


IZ.84I 


3 


13 49 39-79 


3. II30 


16 


3 


24.6 


9.88X 


4 


12 16 


10.61 


1.8893 


7 


25 


12.3 


XI. 831 


4 


13 51 46.69 


3.X181 


16 


13 


15.5 


9.815 


5 


12 18 


4.07 


1.8936 


7 


37 


0.9 


IX. 800 


5 


13 53 5396 


2.1243 


16 


23 


2.4 


9.747 


6 


12 19 


57.72 


X.8958 


7 


48 48.3 


11.779 


6 


13 56 1. 61 


2.1306 


16 


32 


45-2 


9.679 


7 


12 21 


51-57 


X.8993 


8 





34.4 


".757 


7 


13 58 9-63 


3.1368 


16 


42 


23-9 


9.609 


8 


12 23 


4563 


1.9037 


8 


12 


19. 1 


".733 


8 


14 18.03 


2.1433 


16 


51 


58.3 


9.538 


9 


12 25 


39.Pg 


1.9063 


8 


24 


2.4 


IX. 709 


9 


14 2 26.82 


a. 1497 


17 


I 


28.5 


9.467 


lO 


12 27 


34-37 


1.9097 


8 


35 


44-2 


IX.684 


10 


14 4 35-99 


3.1560 


17 


10 


54-4 


9*395 


II 


12 29 


29.06 


1.9134 


8 


47 


24-5 


IX. 658 


II 


14 6 45.54 


3.1624 


17 


20 


15-9 


9.320 


12 


12 31 


23.98 


x.9i7a 


8 


59 


3.2 


11.633 


12 


14 8 55.48 


3.1689 


17 


29 


32.8 


9.244 


13 


12 33 


19.12 


X.9309 


9 


10 


40.3 


IX. 605 


13 


14 II 5/8 1 


2.1755 


17 


38 


45-2 


9.X68 


14 


12 35 


14.49 


X.9348 


9 


22 


15-8 


".577 


14 


14 13 16.54 


2. 1J21 


17 


47 


53-0 


9.090 


15 


12 37 


10.10 


X.9387 


9 


33 


49-5 


11.547 


15 


14 15 27.66 


2. 1887 


17 


56 56.0 


9.010 


i6 


12 39 


5-94 


1.9327 


9 


45 


21.5 


XI. 518 


16 


14 17 39.18 


2.1953 


18 


5 


54-2 


8.930 


17 


12 41 


2.02 


1.9367 


9 


56 


51.7 


XI.487 


17 


14 19 51.10 


2.2030 


18 


14 


47-6 


8.848 


i8 


12 42 


58.35 


1.9409 


10 


8 


20.0 


XI. 456 


18 


14 22 3.42 


2.2087 


18 


23 


36.0 


8.765 


19 


12 44 


54-93 


1.9450 


10 


19 


46.4 


IX.424 


19 


14 24 16.14 


2.2154 


18 


32 


19-4 


8.681 


20 


12 46 


51.75 


1.9492 


10 


31 


10.9 


XI. 391 


20 


14 26 29.27 


2.2232 


18 


40 


57-7 


8.595 


21 


12 48 48.84 


1.9536 


10 


42 


33.3 


".356 


21 


14 28 42.81 


2.2290 


18 


49 


30.8 


8.508 


22 


12 50 


46.18 


1.9579 


10 


53 


53.6 


11.321 


22 


14 30 56.75 


a. 2358 


18 


57 


58.7 


8.400 


23 


12 52 


43-79 


1.9624 


II 


5 


II. 8 


XI. 386 


23 


14 33 II. II 


2.2427 


19 


6 


21.2 


8.330 


,24 

1 


12 54 


41.67 


1.9669 


S.ii 


16 


27.9 


XX.249 


24 


14 35 25.87 


2.2495 


S.I9 


14 


38.3 


8.«39 



118 



JULY, 1899. 



IX. 



=^ 






GREENWICH 


MEAN TIME. 














THE MOON'S RIGHT 


' ASCENSION AND DECLINATION. 








Hoor. 


Right 


DiflE.for 


DeeUnatioiL 


Dift for 


Hoar. 


RiKbt 


DifF.for 


Declination. 


Diff. for 




Ascension. 


I Minute. 




X Minute. 




Ascension. 


z Minute. 








z Minute. 




Id 


ONDA1 


r 17. 






WEDNESDAY 19. 








b m • 


■ 


• » » 


m 




b m s 


s 


• 


» 


m 


m 


O 


14 35 25.87 


«.a495 


S.19 14 38.3 


8.839 





16 31 II. 12 


3.5593 


S.23 


39 


29.3 


8.886 


I 


14 37 41-05 


8.8564 


19 22 49.9 


8.X47 


I 


16 33 44.83 


8.5643 


23 


41 


41.8 


8.X3X 


2 


14 39 56.64 


a. 2633 


19 30 55.9 


8.053 


2 


16 36 18.83 


3.569X 


23 


43 


45.0 


X.976 


3 


14 42 12.65 


•.2703 


19 38 56.3 


7.958 


3 


16 38 53.12 


3.5739 


23 


45 


38.9 


Z.819 


4 


14 44 29.07 


9.9779 


19 46 50.9 


7.863 


4 


16 41 27.70 


3.5787 


23 


47 


23.3 


X.66X 


5 


14 46 45.91 


s.aS4X 


19 54 39.7 


7.765 


5 


16 44 2.56 


3.5833 


23 


48 58.2 


X.503 1 


6 


14 49 3.16 


a.s9io 


20 2 22.7 


7.666 


6 


16 46 37.69 


3.5877 


23 


50 


23.5 


X.343 


7 


14 51 20.83 


8.3980 


20 9 59.6 


7.564 


7 


16 49 13.08 


8.3980 


23 


51 


39-2 


Z.X83 

1 


8 


14 53 38.92 


a. 3049 


20 17 30.4 


7.468 


8 


16 51 48.73 


8.3068 


23 


52 45.3 


x.oax 


9 


14 55 57.42 


8.31x9 


20 24 55.1 


7.36' 


9 


16 54 24.63 


3.6003 


23 


53 


41.7 


0.859 


lO 


14 58 16.35 


8.3x89 


20 32 13.6 


7.356 


10 


16 57 0.77 


3.6043 


23 


54 


28.4 


a696 


II 


15 3569 


8.3358 


20 39 25.8 


7.X4) 


II 


16 59 37.15 


8.6a6a 


23 


55 


5.2 


0.533 


12 


15 2 55.44 


8.33*7 


20 46 31.5 


7.043 


12 


17 2 13.76 


8.6X80 


23 


55 


32.2 


0.367 


13 


15 5 15-62 


8.3597 


20 53 30.8 


6.933 


13 


17 4 50.59 


4.6E56 


23 


55 49.3 


o.8oa 


14 


15 7 36.21 


8.3467 


21 23.5 


6.833 


14 


17 7 27.63 


3.6xgD 


23 


55 


56.4 


— 0.036 


15 


15 9 57.22 


8.3536 


21 7 9.6 


6.7x8 


15 


17 10 4.87 


a.6«Q 


23 


55 


53.6 


+ 0.X30 ' 


i6 


15 12 18.64 


a.3605 


21 13 49.0 


6.590 


16 


17 12 42.31 


8.6256 


23 


55 


40.8 


1 
0.397 i 


17 


15 14 40.48 


a. 3674 


21 20 21.5 


6.484 


17 


17 15 19.94 


3.Ga87 


23 


55 


17.9 


0.466 


i8 


15 17 2.73 


a. 3743 


21 26 47.1 


6.369 


18 


17 17 57.76 


3.63x7 


23 


54 


44.9 


0.634 


19 


15 19 25.39 


8.38x8 


21 33 5.8 


6.353 


19 


17 20 35.74 


8.6344 


23 


54 


1.8 


0.803 


20 


15 21 48.47 


8.3880 


21 39 17.4 


6.134 


20 


17 23 13-89 


8.^373 


23 


53 


8.6 


0.97a 


21 


15 24 11.95 


a. 3948 


21 45 21.9 


6.0x4 


21 


17 25 52.20 


8.6397 


23 


52 


5-2 


1.X43 


22 


15 26 35.84 


8.40x6 


21 51 I9.I 


5.893 


22 


17 28 30.65 


S.GI8X 


23 


50 


51.5 


Z.3X3 


23 


15 29 0.14 
Tl 


a. 4083 
UESDA 


S.2I 57 9.0 

Y x8. 


5.77X 


23 


17 31 9.25 
TH 


3.6444 
URSDi^ 


S.23 
lY 20 


49 


27.7 


Z.488 


o 


15 31 24.84 


8.4x50 


S.22 2 51.6 


5.647 





17 33 47.98 


3.6465 


S.23 


47 


53.7 


Z.653 


I 


15 33 49.94 


8.4817 


22 8 26.7 


5.533 


z 


17 36 26.83 


a. 6485 


23 


46 


9.4 


x.8a4 


2 


15 36 15-45 


8.4884 


22 13 54.2 


5*3K 


2 


17 39 5.80 


8.6903 


23 


44 


14.8 


X.996 


3 


15 38 41.35 


a.4350 


22 19 14. X 


5.a^ 


3 


17 41 44.87 


8.6^80 


23 


42 


9.9 


a.x68 , 


4 


15 41 7.65 


8.44x6 


22 24 26.2 


5.xa7 


4 


17 44 24.04 


3.6996 


23 


39 


54.7 


8.340 


5 


15 43 34-34 


a.4480 


22 29 30.6 


5.007 


5 


17 47 3.30 


3.6950 


23 


37 


29.1 


•.513 


6 


15 46 1. 41 


3.4S4S 


22 34 27.1 


4.875 


6 


17 49 42.64 


8. 6568 


23 


34 


53.3 


8.683 


7 


15 48 28.88 


8.4610 


22 39 15.6 


4.7«> 


7 


17 52 22.05 


8.6674 


23 


32 


7.1 


•.856 


8 


15 50 56.73 


•.4673 


22 43 56.1 


4.607 


8 


17 55 1.53 


3.6584 


23 


29 


10.6 


3.037 , 


9 


15 53 24.95 


8.4736 


22 48 28.5 


4.473 


9 


17 57 41.06 


8.6593 


23 


26 


3.8 


3.800 


xo 


15 55 53-56 


3*4799 


22 52 52.7 


4.334 


10 


18 20.63 


a. 6598 


23 


22 


46.6 


3.373 


II 


15 58 22.54 


8.4860 


22 57 8.6 


4.X95 


II 


18 3 0.24 


a. 6604 


23 


19 


19. 1 


3. 544 


12 


16 51.88 


a.493X 


23 I 16. 1 


4.056 


12 


18 5 39.88 


a. 6608 


23 


15 


41.3 


3.716 


13 


i6 3 21.59 


8.498a 


23 5 X5.3 


3.9x5 


13 


x8 8 19.54 


a.66xx 


23 


II 


53.2 


3.888 


14 


16 5 51.66 


8.504X 


23 9 5.9 


S.773 


14 


z8 10 59.21 


8.661a 


23 


7 


54.7 


4.060 


15 


16 8 22.o8 


8.5x00 


23 12 48.0 


3.689 


15 


x8 13 38.89 


8.66X8 


23 


3 


46.0 


4.83X 


i6 


16 10 52.86 


8.5x58 


23 16 21.4 


S.484 


16 


18 16 18.56 


8.66x0 


22 


59 


27.0 


4.40a 


17 


16 13 23.98 


8.5816 


23 19 46.1 


3.338 


17 


18 18 58.21 


8.6607 


22 


54 


57.8 


4.573 


i8 


16 15 55.45 


a.5a7a 


23 23 2.0 


3.X93 


18 


18 21 37.84 


a. 660a 


22 


50 


Z8.3 


4.74s 


19 


16 18 27.25 


8.5337 


23 26 9.1 


3.044 


19 


18 24 17.44 


3.6997 


22 


45 


28.6 


4.9x3 


20 


16 20 59.38 


8.538a 


23 29 7.3 


3.894 


20 


18 26 57.01 


8.6590 


22 


40 


28.8 


5.08a 


21 


16 23 31.84 


«.5437 


23 31 56.4 


3.743 


21 


18 29 36.52 


8.658X 


22 


35 


18.8 


5.351 


22 


16 26 4.62 


8.5489 


23 34 36.5 


8.593 


22 


18 32 15.98 


3.6573 


22 


29 


58.7 


5.4x9 


23 


16 28 37.71 


8.5543 


23 37 7.5 


•.440 


23 


18 34 55-38 


3.6560 


22 


24 


28.5 


5.587 


24 


16 31 II. 12 


3.5S93 


S.23 39 29.3 


••886 


24 


18 37 34.70 


a. 6547 


S.22 


Z8 


48.2 


5.755 



X. 



JULY, 1899. 



119 













GREENWICH 


MEAN 


TIME. 


















THE MOON'S 


RIGHT 


' ASCENSION . 


AND DECLINATION, 


1 






Hoar. 




Right 


DiflCfor 


Declination. 


Diff. for 


Hoar. 




Right 


Dm. for 


Declination. 


Diff. for 




Ascension. 


I Minnto. 








X Minute. 




AscensioxL 


X Minate. 








X Minute. 








I 


'RIDAY 


21. 












SUNDAY 23. 










b 


m 


■ 


■ 


• 


» 


m 


m 




h 


m • 


■ 


• 


• 


m 


» 





i8 


37 


34-70 


a.ft547 


S.22 


18 


48.2 


5.755 





20 


41 34.74 


8.4839 


S.I4 


50 


14-5 


X2.386 


I 


i8 


40 


13.94 


a.6533 


22 


12 


57.9 


5.921 


I 


20 


44 363 


2.479X 


14 


37 


48.4 


X2.484 


2 


i8 


42 


53.10 


a. 6519 


22 


6 


57.7 


6.087 


2 


20 


46 32.23 


2.4742 


14 


15 


16,4 


12. 582 


3 


i8 


45 


32.17 


a. 6303 


22 





47.5 


6.332 


3 


20 


49 0.53 


a.4693 


14 


12 


38.6 


12.677 


4 


i8 


48 


11.13 


3.6484 


21 


54 


27-5 


6.415 


4 


20 


51 28.55 


a. 4647 


13 


59 


55.3 


12.768 


5 


i8 


50 49.98 


8.6465 


21 


47 


57.7 


6.579 


5 


20 


53 56.29 


a.4598 


13 


47 


6.4 


12.859 


6 


i8 


53 


28,71 


a. 6445 


21 


41 


18.0 


6.743 


6 


20 


56 23.73 


a.4549 


13 


34 


12.2 


12.948 


7 


i8 


56 


7.32 


a.64a4 


21 


34 


28.6 


6.903 


7 


20 


58 50.88 


a.45oa 


13 


21 


12.7 


X3.035 


8 


i8 


58 


45.80 


a.G|oa 


21 


27 


29.6 


7.064 


8 


21 


I 17.75 


a.4453 


13 


8 


8.0 


X3.I2X 


9 


19 


I 


24.15 


2.6379 


21 


20 


20.9 


7.224 


9 


21 


3 44.32 


a. 4403 


12 


54 


58.2 


X3.2Q3 


10 


19 


4 


2.35 


a. 6354 


21 


13 


2.7 


7.382 


10 


21 


6 10.61 


a.4357 


12 


41 


43.6 


13.284 


II 


19 


6 


40.40 


a.63a8 


21 


5 


35.0 


7.541 


II 


21 


8 36.61 


a.4310 


12 


28 


24.1 


13.3^ 


12 


19 


9 


18.29 


a.6308 


20 


57 


57.8 


7.696 


12 


21 


" 2.33 


a.426a 


12 


15 


0.0 


X3.440 


13 


19 


II 


56.02 


a.6a73 


20 


50 


II. 2 


7.853 


13 


21 


13 27.76 


«.4ai3 


12 


I 


31.3 


X3.515 


14 


19 


14 


33.57 


2.6244 


20 


42 


15.4 


8.008 


14 


21 


15 52.91 


a.4167 


II 


47 


58,2 


13.588 


15 


19 


17 


10.95 


a. 62x4 


20 


34 


10.3 


8.162 


15 


21 


18 17.77 


a.4xax 


II 


34 


20.7 


13.660 


i6 


19 


19 


48.14 


2.6183 


20 


25 


56.0 


8.314 


16 


21 


20 42.36 


a.4074 


II 


20 


39.0 


13.799 


17 


19 


22 


25.15 


a. 613a 


20 


17 


32.6 


8.465 


17 


21 


23 6,66 


a.4oa7 


11 


6 


53-2 


13.797 


i8 


19 


25 


1.96 


a. 61 19 


20 


9 


0.2 


8.614 


18 


21 


25 30.69 


a.39«» 


10 


53 


3.4 


X3.86a 


19 


19 


27 


38.58 


a. 6086 


20 





18.9 


8.7^ 


19 


21 


27 54.44 


a. 3935 


10 


39 


9.7 


X3.926 


20 


19 


30 


14.99 


a. 6051 


19 


51 


28.7 


8.909 


20 


21 


30 17.91 


3.3889 


10 


25 


12.3 


13.987 


21 


19 


32 


51.19 


a.6ozs 


19 


42 


29.8 


9.055 


21 


21 


32 41. II 


a. 3844 


10 


II 


"3 


14.047 


22 


19 


35 


27.17 


a.9099 


19 


33 


22.1 


9*200 


22 


21 


35 4*04 


a. 3799 


9 


57 


6.7 


14.104 


23 


19 


38 


2.94 ' 


a. SMS 


S.I9 


24 


5.8 


9.343 


23 


21 


37 26.70 


a.3754 i 


S. 9 


42 


58.8 


14.159 








SA 


TURDi 


\Y aa. 










M 


ONDAl 


f 24. 








O 


19 


40 


38.47 


a.59Q3 


S.19 


14 40.9 


9.485 





21 


39 49.09 


a. 3710 


S. 9 


28 


47.6 


14.2x3 


I 


19 


43 


13.78 


a. 5863 


19 


5 


7.6 


9.684 


I 


21 


42 11.22 


a. 3666 


9 


14 


33.2 


X4.265 


2 


19 


45 


48.85 


2.5826 


18 


55 


26.0 


9.76a 


2 


21 


44 33.08 


a. 3622 


9 





15.8 


14.314 


3 


19 


48 


23.69 


2.5767 


18 


45 


36.1 


9.899 


3 


21 


46 54,69 


a. 3579 


8 


45 


55.5 


14.36a 


4 


19 


50 


58.29 


2.5746 


18 


35 


38.1 


10.035 


4 


21 


49 16.03 


a. 3536 


8 


31 


32.3 


14.408 


5 


19 


53 


32.64 


a.57JH 


18 


25 


31.9 


10. 169 


5 


21 


51 37.12 


a. 3494 


8 


17 


6.5 


14.45a 


6 


19 


56 


6.74 


2.5662 


18 


15 


17.8 


XO.30X 


6 


21 


53 57.96 


a.S45a 


8 


2 


38.1 


14.494 


7 


19 


58 


40.59 


2.5600 


18 


4 


55.8 


10.431 


7 


21 


56 18.55 


2.34" 


7 


48 


7.2 


14.535 


8 


20 


I 


14.18 


a. 5577 


17 


54 


26.1 


10.360 


8 


21 


58 38.89 


a. 3369 


7 


33 


33.9 


14.57a 


9 


20 


3 


47.51 


a.SS3S 


17 


43 


48.6 


X0.6B8 


9 


22 


58.98 


2.3328 


7 


18 


58.5 


X4.608 


lO 


20 


6 


20.58 


a.549P 


X7 


33 


3.5 


XO.814 


10 


22 


3 18.83 


2.3288 


7 


4 


20,9 


14.643 


II 


20 


8 


53.39 


a. 5445 


17 


22 


10.9 


XO.937 


II 


22 


5 38.44 


2.3248 


6 


49 


41.3 


14.677 


12 


20 


II 


25.92 


a. 5400 


17 


II 


II. 


X1.099 


12 


22 


7 57.81 


2.3209 


6 


34 


59.7 


14.707 


13 


20 


13 


58.19 


a. 5355 


17 





3.8 


xx.xfio 


13 


22 


10 16.95 


a. 3171 


6 


20 


16.4 


14.735 


M 


20 


16 


30.18 


a. 5309 


16 


48 


49.4 


xx.aD9 


14 


22 


12 35.86 


2.313a 


6 


5 


31.5 


14.76a 


15 


20 


19 


1.90 


a.sa64 


16 


37 


27.9 


XX. 416 


15 


22 


14 54.54 


a. 3095 


5 


50 45.0 


14.787 


i6 


20 


21 


33.35 


a. 5217 


16 


25 


59.5 


xx.Sfx 


16 


22 


17 13.00 


a. 3058 


5 


35 


57.0 


X4.8XX 


17 


20 


24 


4.51 


8.5x70 


16 


14 


24.2 


IX. 644 


17 


22 


19 31.24 


2.3022 


5 


21 


7.7 


14.832 


i8 


20 


26 


35.39 


2.5124 


16 


2 


42.2 


XX.756 


18 


22 


21 49.26 


2.2986 


5 


6 


17. 1 


14.852 


19 


20 


29 


6.00 


a. 5077 


15 


50 


53.5 


xt.866 


19 


22 


24 7.07 


2.2951 


4 


51 


25.4 


X4.870 


20 


20 


31 


36.32 


2.5029 


15 


38 58.3 


".9?3 


20 


22 


26 24.67 


2.2916 


4 


36 


32.7 


X4.886 


21 


20 


34 


6.35 


2.4982 


15 


26 


56.7 


X2.079 


21 


22 


28 42.06 


2.288X 


4 


21 


39.1 


14.900 


22 


20 


36 36.10 


a. 4934 


15 


14 


48.8 


X2. 183 


22 


22 


30 59.24 


2.2847 


4 


6 


44.7 


14.91s 


23 


20 


39 


5.56 


2.4«87 


15 


2 


34.7 


12.286 


23 


22 


33 16.23 


2.28x4 


3 


51 


49.6 


14.984 


24 


20 


41 


34.74 


2.4839 


S.14 


50 


14.5 


X2.386 


24 


22 


35 33.01 


2.2781 


S. 3 


36 


53.8 


14.933 



120 



JULY, 1899. 



XI. 















GREENWICH 


MEAN TIME. ' 














• 






THE MOON'S RIGHT 


• 

ASCENSION AND DECLINATION. 








1 


Hoot. 


RiRht 

Ascensioa 


Diff. for 
X Minute. 


Declination. 


DiflE. for 
X Minote. 


Hoar. 


Right 
Ascensioa 


Diff. for 
x Minate. 


Declinatioa 


Diff. for 
X Minute. 

1 










T 


UESDA 


Y 25. 






THURSDAY 27. 










h 


m 


• 


• 


• » m 


m 




h m t 


t 


• 


f 


m 


m 




O 


22 


35 


33.01 


9.3781 


S. 3 36 53.8 


X4*933 





22 18.32 


8.193a 


N. 8 





3.0 


X3.554 




z 


22 


37 


49.60 


3.3749 


3 21 57.6 


X4.940 


Z 


24 29.90 


8.X928 


8 


13 


34.4 


X3.498 




3 


22 


40 


6.00 


3. 3718 


3 7 1.0 


14.946 


2 


26 41.46 


8.X925 


8 


27 


2.1 


X3.430 




3 


22 


42 


22.22 


3.3687 


2 52 4.1 


X4.950 


3 


28 53.00 


3.X923 


8 


40 


26.0 


X3.366 




4 


22 


44 


38.25 


3.3657 


2 37 7.0 


14.95a 


4 


31 4.54 


S.T932 


8 


53 


46.0 


X3.30X 




5 


22 


46 


54.10 


3.3637 


2 22 9.8 


X4.95a 


5 


33 z6.o6 


8. X919 


9 


7 


2.1 


X3.a35 




6 


22 


49 


9.78 


a-3sg9 


2 7 12.7 


X4.95a 


6 


35 27.57 


3. 1918 


9 


20 


14.2 


X3.X68 




7 


22 


51 


25.29 


3.3570 


z 52 15.6 


X4.949 


7 


37 39.08 


8.I918 


9 


33 


22.3 


13. xox 




8 


22 


53 


40.62 


3.2543 


I 37 18.8 


14. 944 


8 


39 50.59 


8.X918 


9 


46 


26.3 


13.033 




9 


22 


55 


55.80 


3.2516 


I 22 22.3 


14.938 


9 


42 2.Z0 


3. X918 


9 


59 


26.1 


X2.962 




zo 


22 


58 


10.81 


3.3488 


I 7 26.2 


14. 930 


10 


44 13.61 


3. 1919 


10 


12 


21.7 


X2.890 




II 


23 





25.66 


8.246a 


52 30.7 


14.9*1 


II 


46 25.13 


8.1930 


10 


25 


12.9 


xs.8z8 




12 


23 


2 


40.36 


a. 3437 


37 35-7 


14.910 


12 


48 36.65 


3.1923 


10 


37 


59.8 


X8.745 




13 


23 


4 


54.91 


a.a4i3 


22 41.5 


14.897 


13 


50 48.19 


3.X925 


10 


50 42.3 


X2.67X 




M 


23 


7 


9.32 


S.3389 


S. 7 48.0 


X4.883 


14 


52 59.75 


3.1937 


II 


3 


20.3 


13. 593 




15 


23 


9 


23.58 


■.3365 


N. 7 4.5 


14.867 


15 


55 11.32 


3.1930 


II 


15 


53.7 


X3.SI8 




i6 


23 


II 


37.70 


3. 2342 


21 56.0 


14. 850 


16 


57 22.91 


«.X934 


II 


28 


22.5 


X8.44a 




17 


23 


13 


51.69 


3.2330 


36 46.5 


X4.832 


17 


59 34.53 


8.X938 


II 


40 


46.7 


13.363 




i8 


23 


16 


5.54 


3.3398 


51 35.8 


14. 8x1 


18 


z z 46. Z7 


8.1942 


zz 


53 


6.1 


13.284 




19 


23 


18 


19.27 


3.3278 


I 6 23.8 


14. 789 


19 


I 3 57.83 


8.X946 


Z2 


5 


20.8 


X2.204 




20 


23 


20 


32.88 


3.3257 


z 21 10.5 


14.766 


20 


I 6 9.52 


8.X958 


Z2 


17 


30.6 


X3.X22 




21 


23 


22 


46.36 


3.2337 


I 35 55-7 


14.74X 


21 


I 8 21.25 


a.x957 


12 


29 


35.5 


X8.O4X 




22 


23 


24 


59.73 


S.3SI8 


I 50 39-4 


14.7x5 


22 


I zo 33.OZ 


8.X963 


12 


41 


35.5 


IX.958 




23 


23 


27 


12.98 
WE 


3. 3190 

DNESD 


N. 2 5 21.5 
►AY 26. 


14.687 


23 


I Z2 44.80 


8.1967 

•RIDAY 


N.I2 
' 28. 


53 


30.5 


XX.875 




o 


23 


29 


26.12 


8.8x83 


N. 2 20 Z.8 


X4.657 





z Z4 56.62 


a.x974 


N.I3 


5 


20.5 


IX.79X 




z 


23 


31 


39.16 


8. 3X^5 


2 34 40.3 


X4.6a7 


I 


z Z7 8.49 


3.X983 


13 


17 


5.4 


XX. 705 




a 


23 


33 


52.10 


8.8X48 


2 49 Z7.0 


<4.595 


2 


z Z9 20.40 


8.X988 


13 


28 


45.1 


XI. 6x8 




3 


23 


36 


4.94 


8.8X33 


3 3 51.7 


14.561 


3 


z 21 32.35 


8.X996 


13 


40 


19.6 


XX.53X 




4 


23 


38 


17.69 


8.3XX7 


3 x8 24.3 


X4.535 


4 


I 23 44.35 


3.3003 


13 


51 


48.8 


XI. 443 




5 


23 


40 


30.34 


8. 8X03 


3 32 54.7 


X4.489 


5 


I 25 56.39 


8.8OXX 


14 


3 


Z2.7 


XX.354 




6 


23 


42 


42.91 


3.8O88 


3 47 23.0 


X4.45a 


6 


z 28 8.48 


8.80x9 


14 


14 


31.3 


XX. 364 




7 


23 


44 


55.40 


8.3075 


4 I 49.0 


X4.4X3 


7 


z 30 20.62 


8.8087 


14 


25 


44.4 


IX. 173 




8 


23 


47 


7.81 


3.3063 


4 z6 Z2.6 


X4.37a 


8 


z 32 32.8Z 


3.8D36 


14 


36 


52. z 


XX. 082 




9 


23 


49 


20.14 


8.8048 


4 30 33.7 


X4.331 


9 


I 34 45.05 


8.8O45 


14 


47 


54.3 


X0.990 




10 


23 


51 


32.39 


3.8O37 


4 44 52.3 


14. 288 


10 


X 36 57.35 


8.3054 


14 


58 


50.9 


X0.897 




zz 


23 


53 


44.58 


8.8087 


4 59 8.3 


X4.a43 


II 


z 39 9.70 


8.8063 


15 


9 


41.9 


X0.802 




Z2 


23 


55 


56.71 


8.80X6 


5 13 21.5 


14.X97 


12 


z 4z 22.11 


1.8073 


15 


20 


27.2 


XO.707 




13 


23 


58 


8.77 


8.8005 


5 27 32.0 


X4.X5X 


13 


1 43 34.58 


a.8083 


15 


31 


6.8 


X0.6X3 




14 


o 





20.77 


8.X996 


5 41 39.6 


14.X03 


14 


I 45 47." 


8.3093 


15 


41 


40.7 


X0.5X7 




15 


o 


2 


32.72 


3.X987 


5 55 44.4 


14.054 


15 


I 47 59.69 


8.8X08 


15 


52 


8.8 


X0.430 




i6 


o 


4 


44.62 


8.X978 


6 9 46.1 


14.003 


16 


z 50 12.34 


S.8XX3 


16 


2 


31.1 


X0.332 




17 


o 


6 


56.46 


a.x97x 


6 23 44.7 


X3.95X 


17 


z 52 25.05 


8.8X34 


16 


12 


47.5 


X0.284 




i8 





9 


8.27 


3.1964 


6 37 40.2 


X3.898 


18 


I 54 37.83 


•.ai35 


16 


22 


58.0 


XO. Z25 




19 


o 


II 


20.03 


8.1957 


6 51 32.5 


X3.844 


19 


z 56 50.67 


8.3145 


16 


33 


2.5 


10. 025 




20 


o 


13 


31.75 


8.f95X 


7 5 21.5 


13.788 


20 


I 59 3.57 


8.8x56 


16 


43 


z.o 


9.935 




21 


o 


15 


43.44 


a.x94S 


7 19 7-x 


X3.731 


21 


2 z 16.54 


8.8x67 


Z6 


52 


53.5 


9.833 




22 





17 


55.09 


3.X940 


7 32 49.2 


X3.67S ' 


' 22 


2 3 29.57 


8.3x77 


17 


2 


39.8 


9.7aa 




23 


o 


20 


6.72 


3. 1936 


7 46 27.9 


13.6x5 


23 


2 5 42.67 


8.8x89 


17 


12 


20. z 


9.619 




34 


o 


22 


18.32 


8. 1933 


N. 8 3.0 


XS.554 


24 

1 


2 7 55.84 


8.3301 


N.17 


21 


54.1 


9* 3x5 



XII. 



JULY, 1899. 



121 



i 








GREENWICH 


MEAN TIME. 
















THE MOON'S RIGHT 


ASCENSION AND DECLINATION, 








Hour. 




RiRht 


Diff. for 


Declination. 


1 

J)iflF. for 


Honr. 


Right 


DiS. for 


Declinatioa 


Diff. for 




Ascension. 


I Minate. 




I Minute. 




Ascension. 


I Minate. 








I Minute. 






SA 


TURDi^ 


lY 29. 






MONDAY 31. 










h 


m a 


s 


e » V 


m 




h m s 


s 


• 


» 


m 


m 





2 


7 55.84 


a.aaoi 


N.X7 ai 54.1 


9.515 





3 55 39.03 


8.3603 


N.22 


49 


32.1 


3.978 


z 


2 


10 9.08 


a. 321a 


17 31 21.9 


9.4I8 


I 


3 57 54.65 


8.3603 


22 


53 


27.1 


3.856 


2 


2 


12 22.38 


a.aaas 


17 40 43.5 


9.307 


a 


4 10.27 


8.a6Q3 


22 


57 


14.8 


3.732 


3 


2 


14 35-76 


a.aa3S 


17 49 58.8 


9.2O8 


3 


4 2 25.89 


8.9603 


23 





55.0 


3.606 


4 


2 


16 49.20 


2.2246 


17 59 7.8 


9.097 


4 


4 4 41.51 


8.3603 


23 


4 


27.8 


3.485 


5 


2 


19 2.71 


a. 2257 


18 8 10.4 


8.990 


5 


4 6 57.13 


8. 8603 


23 


7 


53.2 


3.363 


6 


2 


21 16.29 


a. 2269 


18 17 6.6 


8.883 


6 


4 9 12.75 


8.2602 


23 


II 


II. 2 


3.338 


7 


2 


23 29.94 


a.2280 


18 25 56.4 


8.776 


7 


4 II 28.36 


8.2600 


23 


14 


21.8 


3.1x5 


8 


2 


25 43.65 


2.2291 


18 34 39-7 


8.667 


8 


4 13 43.95 


8.8597 


23 


17 


25.0 


8. 991 


9 


2 


27 57.43 


2.2302 


18 43 16.5 


8.558 


9 


4 15 59.53 


8.8595 


23 


20 


20.7 


8.867 


lO 


2 


30 11.28 


2.2314 


18 51 46.7 


8.448 


10 


4 18 15.09 


8.8598 


23 


23 


9.0 


8.743 


II 


2 


32 25.20 


a.asas 


19 10.3 


8.339 


II 


4 20 30.64 


8.3589 


23 


25 


49.9 


8.6x9 


12 


2 


34 39.18 


2.2336 


19 8 27.4 


8.839 


12 


4 22 46. 16 


8.3584 


23 


28 


23.3 


8.495 


13 


2 


36 53.23 


a.2347 


19 16 37.8 


8.X18 


13 


4 25 1.65 


8.3580 


23 


30 


49.3 


8.372 


14 


2 


39 7-35 


a. 2359 


19 24 41.6 


8.007 


14 


4 27 17.12 


8.3575 


23 


33 


7.9 


8.347 


15 


2 


41 21.54 


a.a37o 


19 32 38.6 


7.894 


15 


4 29 32.55 


8.3568 


23 


35 


19.0 


8.133 


i6 


2 


43 35.79 


2.2381 


19 40 28.9 


7.783 


16 


4 31 47.94 


8.2563 


23 


37 


22.7 


8.000 


17 


2 


45 50-11 


2.2392 


19 48 12.4 


7.669 


17 


4 34 3.30 


8.3557 


23 


39 


19.0 


1.877 


i8 


2 


48 4.49 


2.2402 


19 55 49.2 


7.556 


18 


4 36 18.62 


8.3549 


23 


41 


7.9 


1.752 


19 


2 


50 18.93 


2.24x2 


20 3 19. 1 


7.441 


19 


4 38 33.89 


8.3541 


23 


42 49.3 


X.638 


20 


2 


52 33.43 


a. 2422 


20 10 42.1 


7.337 


20 


4 40 49.11 


8.3533 


23 


44 


23.3 


X.506 


21 


2 


54 48.00 


a. 8433 


20 17 58.3 


7.313 


21 


4 43 4.-28 


8.3524 


23 


45 


50.0 


Z.382 


22 


2 


57 2.63 


a. 2442 


20 25 7.6 


7.097 


22 


4 45 19.40 


8.3515 


23 


47 


9.2 


X.358 


23 


2 


59 17-31 


3.245a 


N.20 32 lO.O 


6.981 


23 


4 47 34-46 


8.3505 


N.23 


48 


21.0 


i.135 






S 


UNDA1 


^ 30. 






TUESE 


)AY, AI 


JGUST 


I. 




O 

I 


3 
3 


I 32.05 
3 46.85 


2.2462 
2.2472 


N.20 39 5.3 
20 45 53.7 


6.864 
6.748 





4 49 49-46 


8.2495 


N.23 


49 


25-4 


X.0Z3 
















2 


3 


6 1. 71 


a. 3481 


20 52 35.1 


6.632 
















3 


3 


8 16.62 


a. 2489 


20 59 9-5 


6.514 
















4 
5 


3 


10 31.58 


2.2498 


21 5 36.8 


6.397 
















3 


12 46.60 


a. 2507 


21 II 57.1 


6.278 




PHASES 


OF TI 


iE MOON. 




6 
7 


3 
3 


15 1.66 
17 16.77 


2.3514 
8.3523 


21 18 10.2 
21 24 16.3 


6.x6o 
6.042 






























8 


3 


19 31.93 


3.3530 


21 30 15.2 


5.922 












d 


h m 


9 


3 


21 47-13 


8.8537 


21 36 6.9 


5.802 


• 


New Moon 


• • • 


. July 


7 


8 31.4 


10 


3 


24 2.37 


8.3544 


ai 41 51.4 


5.682 


3) 


First Quarte 


r • • 


• • 


. 


15 II 5Q.0 


II 

12 


3 
3 


26 17.66 
28 32.98 


3.2551 
8.3557 


21 47 28.8 

21 52 58.9 


5.562 
5.442 





Full Moon 


• • • 


• • 


• 


22 


9 41.4 


13 


3 


30 48.34 


3.3563 


21 58 21.8 


5.32a 


c 


Last Quarte 


r . • 


• • 


• 


29 


42.4 


14 
15 


3 
3 


33 3.73 
35 19.15 


8.8567 
8.3573 


22 3 37.5 
22 8 45.9 


5. 201 
5.079 






























i6 


3 


37 34.61 


3.3578 


22 13 47.0 


4.957 














d b 


17 


3 


39 50.09 


3.3583 


22 18 40.8 


4.836 


c 


Apogee • , 


1 ■ • 


a • 


July 10 4.3 


i8 


3 


42 5. 59 


3.3586 


22 23 27.3 
22 28 6.5 


4.714 


c 


Perigee . , 


t • • 


• • 


• 


22 23.7 


19 


3 


44 21.12 


8.3590 


4.592 
















20 
21 


3 
3 


46 36.67 
48 52.24 


a. 2593 
3.2597 


22 32 38.3 
22 37 2.8 


4.469 
4.347 






























22 


3 


51 7.83 


3.3599 


22 41 20.0 


4.335 
















1 *3 


3 


53 23.43 


3.2600 


22 45 29.8 


4*xoi 
















'24 


3 


55 39.03 


3.3602 


N.22 49 32.1 


3.978 

















122 



JULY, 1899. 



XIII. 









GREENWICH MEAN TIME. 








LUNAR DISTANCES. 


of the 
mth. 


Name and Direction 


Noon. 


P.L. 
of 


IIIJ>- . 


P.L. 

of 


Vlh. 


P.L. 
of 


IXh. 


P.L. 

of 


Q 


of Object 








Diff. 




Diff. 




DifL 




DifL 








• 


m 




• m 




• r m 




• » • 




I 


a Aquilae 


W. 


83 


41 23 


3058 


85 10 24 


3068 


86 39 13 


3078 


88 7 49 


3090 




Fomalhaut 


W. 


58 


18 15 


Saig 


59 44 2 


3309 


61 10 


3303 


62 36 6 


3196 




a Pegasi 


w. 


35 


56 58 


agGg 


37 27 49 


3933 


38 59 I 


2940 


40 30 29 


29129 




Aldebaran 


E. 


43 


45 6 


2649 


42 7 18 


2666 


40 29 53 


2685 


38 52 53 


3703 




Venus 


E. 


53 


7 5 


9986 


51 36 35 


3000 


50 6 22 


3013 


48 36 25 


3026 




Sun 


E. 


73 


39 28 


3894 


72 7 2 


2907 


70 34 52 


9930 


69 2 59 


3934 


2 


a Aquilse 


W. 


95 


27 13 


3x53 


96 54 18 


3x68 


98 21 6 


3183 


99 47 36 


3198 




Fomalhaut 


W. 


69 


47 54 


3186 


71 14 20 


3187 


72 40 45 


3188 


74 7 8 


319X , 




a Pegasi 


W. 


48 


10 18 


2906 


49 42 29 


2906 


51 14 40 


2907 


52 46 50 


1 
2909 




Venus 


E. 


41 


10 43 


3090 


39 42 21 


3102 


38 14 14 


3x14 


36 46 21 


3126 • 




Sun 


E. 


61 


27 36 


9996 


59 57 18 


3007 


58 27 14 


30x9 


56 57 25 


3031 ! 


3 


Fomalhaut 


W. 


81 


17 59 


3214 


62 43 51 


3221 


84 9 35 


3228 


85 35 II 


3335 i 




a Pegasi 


W. 


60 


26 56 


2924 


61 58 44 


2929 


63 30 26 


3934 


65 2 2 


3939 1 




Sun 


E. 


49 


31 52 


3087 


48 3 26 


3096 


46 35 12 


3x07 


45 7 II 


1 

31x8 


4 


Fomalhaut 


W. 


92 


40 50 


328b 


94 5 25 


3289 


95 29 49 


3300 


96 54 


3313 ^ 




a Pegasi 


W. 


72 


38 18 


2968 


74 9 II 


3974 


75 39 56 


29S1 


77 10 33 


2987 




a Arietis 


W. 


29 


3 49 


29x0 


30 35 55 


291X 


32 8 


3912 


33 40 3 


2916 




Sun 


E. 


37 


50 II 


3x67 


36 23 22 


3x77 


34 56 45 


3x86 


33 30 19 


3x95 


5 


a Pegasi 


W. 


84 


41 35 


302X 


86 II 22 


3028 


87 41 


3034 


89 10 30 


3043 




a Arietis 


W. 


41 


19 17 


2935 


42 50 52 


9039 


44 22 22 


3943 


45 53 46 


3949 




Sun 


E. 


26 


20 52 


3240 


24 55 30 


3349 


23 30 19 


3359 


22 5 19 


3367 


9 


Suh 


W. 


18 


16 xo 


3436 


19 37 46 


3437 


20 59 21 


3438 


22 20 54 


3440 




Mars 


E. 


38 


30 27 


3345 


37 7 7 


3351 


35 43 55 


3358 


34 20 51 


3367 




Spica 


E. 


77 


19 40 


3065 


75 50 47 


3068 


74 21 58 


3070 


72 53 12 


3073 


» 


Jupiter 


E. 


85 


34 4 


3093 


84 5 46 


3097 


82 37 33 


3101 


81 9 24 


3x03 


lO 


Sun 


W. 


29 


8 13 


3446 


30 29 37 


3447 


31 51 


3448 


33 12 22 


3448 




Spica 


E. 


65 


30 7 


3083 


64 I 37 


3084 


62 33 8 


3085 


61 4 40 


3086 




Jupiter 


E. 


73 


49 24 


3114 


72 21 32 


3115 


70 53 41 


3XX7 


69 25 52 


31x8 


II 


Sun 


W. 


39 


59 15 


3446 


41 20 40 


3444 


42 42 7 


3443 


44 3 36 


3440 




Spica 


E. 


53 


42 28 


3086 


52 14 I 


3085 


50 45 33 


3083 


49 17 3 


3082 




Jupiter 


E. 


62 


7 2 


3120 


60 39 17 


3x90 


59 II 32 


3x19 


57 43 46 


3XX9 




Antares 


E. 


99 


15 


3082 


97 46 29 


3081 


96 17 56 


3080 


94 49 22 


3078 




Saturn 


E. 


109 


42 21 


3060 


108 13 23 


3060 


106 44 24 


3058 


105 15 23 


3056 


12 


Sun 


W. 


50 


51 43 


3434 


52 13 32 


3430 


53 35 26 


3415 


54 57 25 


34x0 




Spica 


E. 


41 


54 2 


3070 


40 25 16 


3068 


38 56 27 


3064 


37 27 33 


3060 




Jupiter 


E. 


50 


24 36 


3111 


48 56 40 


3109 


47 28 41 


3107 


46 40 


3x04 




Antares 


E. 


87 


25 47 


3064 


85 56 53 


3060 


84 27 54 


3055 


82 58 49 


305X 




Saturn 


E. 


97 


49 35 


304a 


96 20 14 


3039 


94 50 49 


3034 


93 21 18 


3029 


13 


Sun 


W. 


61 


48 58 


3379 


63 II 39 


337X 


64 34 29 


336a 


65 57 29 


3354 




Regulus 


W. 


24 


42 42 


3106 


26 10 44 


3091 


27 39 5 


3075 


29 7 45 


3060 




Jupiter 


E. 


38 


39 42 


3089 


37 II 19 


3087 


35 42 53 


3084 


34 14 24 


3082 




Antares 


E. 


75 


31 52 


3022 


74 2 6 


3014 


72 32 11 


3007 


71 2 7 


3000 




Saturn 


E. 


85 


52 7 


3000 


84 21 54 


3993 


82 51 33 


2986 


81 21 3 


3978 



XIV. 



JULY, 1899. 



123 



GREENWICH MEAN TIME. 


LUNAR DISTANCES. 


-4 








P.L. 




P.L. 






P.L. 




P.L. 


og 


Name and Direction 1 


Midnight 


of 


XVh. 


of 


XVI I Ih. 


of 


XXIb. 


of 


Q 


of Object. 






Diff. 




Diff. 






Diff. 




Diff. 








m t m 




• » • 




• 9 


m 




• » » 




I 


a Aquilse 


W. 


89 36 II 


310X 


91 4 19 


31x3 


92 32 


13 


3X96 


93 59 51 


3x39 




Fomalhaut 


W. 


64 2 20 


319a 


65 28 39 


3x88 


66 55 


2 


3186 


68 21 28 


3x86 




a Pegasi 


W. 


42 2 II 


9921 


43 34 3 


29x5 


45 6 


3 


29x0 


46 38 9 


2908 




Aldebaran 


E. 


37 16 17 


VJTl 


35 40 7 


3743 


34 4 


24 


3764 


32 29 9 


2786 




Venus 


E. 


47 6 45 


3039 


45 37 21 


3052 


44 8 


13 


30^5 


42 39 20 


3078 




Sun 


E. 


67 31 23 


3946 


66 3 


2958 


64 28 


58 


WX 


62 58 9 


9984 


2 


a Aquilae 


W. 


loi 13 48 


3ax4 


102 39 40 


323X 


104 5 


13 


3248 


105 30 25 


3266 




Fomalhaut 


W. 


75 33 28 


3x94 


76 59 44 


3198 


78 25 


55 


3204 


79 52 


3209 




a Pegasi 


W. 


54 18 58 


9911 


55 51 3 


99x3 


57 23 


5 


29x6 


58 55 3 


2920 




Venus 


E. 


35 18 43 


3138 


33 51 19 


3x48 


32 24 


8 


3x60 


30 57 " 


3x72 




Sun 


E. 


55 27 51 


3043 


53 58 31 


3053 


52 29 


24 


3<«5 


51 31 


3076 


3 


Fomalhaut 


W. 


87 39 


3243 


88 25 57 


3S52 


89 51 


5 


32G0 


91 16 3 


3270 




a Pegasi 


W. 


66 33 31 


3945 


68 4 53 


2950 


69 36 


9 


9956 


71 7 17 


9962 




Sun 


E. 


43 39 23 


3x38 


42 II 47 


3x38 


40 44 


23 


3x48 


39 17 " 


3x58 


4 


Fomalhaut 


W. 


98 17 58 


3323 


99 41 43 


3336 


loi 5 


13 


3349 


102 28 28 


3362 




a Pegasi 


W. 


78 41 2 


«993 


80 II 23 


3001 


81 41 


35 


3007 


83 II 39 


30x4 




a Arietis 


W. 


35 12 2 


29x8 


36 43 58 


2922 


38 15 


49 


2933 


39 47 36 


2930 




Sun 


E. 


32 4 4 


3«H 


30 38 


3214 


29 12 


7 


3222 


27 46 24 


3a3X 


5 


a Pegasi 


W. 


90 39 51 


3049 


92 9 3 


3056 


93 38 


7 


3063 


95 7 2 


307X 




a Arietis 


W. 


47 25 3 


2954 


48 56 14 


2959 


50 27 


18 


2964 


51 58 16 


2969 




Sun 


E. 


20 40 29 


3276 


19 15 50 


3286 


17 51 


22 


3295 


16 27 5 


3304 


9 


Sun 


W. 


23 42 25 


3442 


25 3 54 


3443 


26 25 


22 


3445 


27 46 48 


3446 




Mars 


E. 


32 57 57 


3376 


31 35 13 


3385 


30 12 


39 


3394 


28 50 16 


3405 




Spica 


E. 


71 24 30 


3076 


69 55 51 


3078 


68 27 


14 


3079 


66 58 39 


3082 




Jupiter 


E. 


79 41 18 


3106 


78 13 16 


3x08 


76 45 


16 


3XX0 


75 17 19 


3x19 


lO 


Sun 


W. 


34 33 44 


3448 


35 55 6 


3448 


37 16 


28 


3447 


38 37 51 


3446 




Spica 


E. 


59 36 13 


3087 


58 7 47 


3087 


56 39 


21 


3087 


55 10 55 


3086 




Jupiter 


E. 


67 58 4 


31x9 


66 30 i8 


31x9 


65 2 


32 


3X90 


63 34 47 


3x20 


II 


Sun 


W. 


45 25 7 


3438 


46 46 41 


3435 


48 8 


18 


3431 


49 29 59 


3429 




Spica 


E. 


47 48 32 


3081 


46 19 59 


3078 


44 51 


23 


3076 


43 22 44 


3073 




Jupiter 


E. 


56 15 59 


3xx8 


54 48 II 


3x16 


53 20 


21 


3XX5 


51 52 30 


3XX3 




Antares 


E. 


93 20 45 


3076 


91 52 6 


3073 


90 23 


23 


3070 


88 54 37 


3067 




Saturn 


E. 


103 46 19 


3054 


102 17 13 


3P52 


100 48 


4 


3048 


99 18 51 


3046 


12 


Sun 


W. 


56 19 30 


3405 


57 41 41 


3399 


59 3 


59 


3392 


60 26 25 


3386 




Spica 


E . 


35 58 34 


3056 


34 29 31 


3052 


33 


22 


3047 


31 31 8 


3042 




Jupiter 


E . 


44 32 35 


3x01 


43 4 27 


3099 


41 36 


16 


3096 


40 8 I 


3092 




Antares 


E. 


81 29 39 


3046 


80 23 


3040 


78 31 





3034 


77 I 30 


3028 




Saturn 


E. 


91 51 41 


3024 


90 21 58 


3018 


88 52 


8 


30x3 


87 22 II 


3007 


13 


Sun 


W. 


67 20 38 


3345 


68 43 58 


3336 


70 7 


28 


3325 


71 31 10 


33x6 




Regulus 


W. 


30 36 43 


3047 


32 5 58 


3034 


33 35 


29 


3020 


35 5 17 


3007 




Jupiter 


E. 


32 45 52 


3080 


31 17 18 


3078 


29 48 


41 


3076 


28 20 2 


3075 




Antares 


E. 


69 31 54 


2991 


68 I 30 


2983 


66 30 


56 


2974 


65 II 


2965 




Saturn 


E. 


79 50 23 


2970 


78 19 33 


2962 


76 48 


32 


2953 


75 17 20 


2943 



124 



JULY, 1899. 



XV. 







GHRRNWICH MEAN TIME. 




• 














LUNAR DISTANCES. 














Day of the 
Month. 








P.L. 




P.L 






P.L. 






P.L. 


Name and Direction | 


Noon. 


of 


IIIlU 


of 


Vlh. 




of 


IXh. 


of 


of Object. 






Diff. 




Diff. 






Diff. 






Diff. 








• r m 




• » m 




• 


m 




• 


» m 




H 


Sun 


W. 


72 55 3 


3305 


74 19 9 


3994 


75 43 


27 


3383 


77 


7 59 


3370 1 




Regulus 


w. 


36 35 21 


3993 


38 5 42 


3981 


39 36 


19 


8967 


41 


7 13 


3954 




Antares 


E. 


63 29 14 


a955 


61 58 5 


2945 


60 26 


43 


3934 


58 


55 7 


3924 




Saturn 


E. 


73 45 56 


3934 


72 14 20 


3924 


70 42 31 


891 8 


69 


10 28 


2902 


15 


Sun 


W. 


84 14 24 


3*)3 


85 40 30 


3189 


87 6 


52 


3x74 


88 


33 32 


315S 




Regulus 


W. 


48 46 3 


3883 


50 18 43 


8869 


51 51 


42 


8853 


53 


25 I 


2838 




Mars 


W. 


30 33 34 


3157 


32 35 


3x36 


33 28 


I 


31x5 


34 


55 52 


3096 




Antares 


E. 


51 13 32 


0863 


49 40 26 


8850 


48 7 


3 


8836 


46 


33 22 


3823 




Saturn 


E. 


61 26 37 


3843 


59 53 3 


8838 


58 19 


12 


88x5 


56 


45 4 


8601 




a Aquilae 


E. 


104 8 3 


3368 


102 45 10 


3349 


loi 21 


55 


3339 


99 


58 17 


33x0 

1 


16 


Sun 


W. 


95 51 40 


3077 


97 20 18 


3059 


98 49 


18 


3O4X 


100 


18 40 


1 
3023 




Regulus 


W. 


61 16 37 


8758 


62 52 


374 X 


64 27 


45 


8734 


66 


3 53 


3707 




Mars 


W. 


42 21 12 


^997 


43 51 29 


3977 


45 22 


II 


«957 


46 


53 18 


2937 




Antares 


E. 


38 40 24 


8750 


37 4 50 


3735 


35 28 


56 


87x9 


33 


52 41 


2704 




Saturn 


E. 


48 49 38 


8726 


47 13 33 


87x0 


45 37 


7 


8695 


44 


20 


367H 




a Aquilae 


E. 


92 54 43 


3880 


91 28 58 


3»3 


90 2 


52 


3x87 


88 


36 27 


3170 


17 


Sun 


W. 


107 51 12 


8989 


109 22 54 


89x0 


"0 55 





8890 


112 


27 32 


3870 




Regulus 


W. 


74 10 24 


8618 


75 48 55 


t599 


77 27 


52 


3580 


79 


7 14 


2561 


• 


Mars 


W. 


54 35 10 


8837 


56 8 50 


38x7 


57 42 


56 


8797 


59 


17 28 


3776 




Spica 


W. 


20 8 39 


8640 


21 46 40 


a6i6 


23 25 


13 


3594 


25 


4 16 


2572 




a Aquilae 


E. 


81 19 40 


3096 


79 51 26 


3084 


78 22 


57 


3078 


76 


54 13 


3060 




Fomalhaut 


E. 


107 2 29 


3099 


105 34 18 


3073 


104 5 35 


3047 


102 


36 21 


3023 


18 


Sun 


W. 


120 16 34 


8771 


121 51 40 


8750 


123 27 


13 


873X 


125 


3 12 


87x0 




Regulus 


W. 


87 30 34 


8467 


89 12 33 


3448 


90 54 


59 


8430 


92 


37 51 


84IX 




Mars 


W. 


67 i6 52 


8^5 


68 54 6 


a655 


70 31 


47 


8634 


72 


9 56 


8614 




Spica 


W. 


33 27 


8467 


35 8 59 


3447 


36 51 


27 


8486 


38 


34 23 


340S 




Jupiter 


W. 


25 16 7 


3580 


26 55 30 


3550 


28 35 


34 


8533 


30 


16 17 


3494 




a Aquilae 


E. 


69 27 21 


3018 


67 57 30 


30x8 


66 27 


32 


3009 


64 


57 30 


3007 1 




Fomalhaut 


E. 


95 2 46 


agu9 


93 30 39 


8889 


91 58 


6 


8869 


90 


25 7 


8850 


19 


Mars 


W. 


80 27 27 


8517 


82 8 17 


3497 


83 49 


34 


2479 


85 


31 17 


8460 




Spica 


W. 


47 16 3 


83x8 


49 I 45 


«93 


50 47 


55 


8375 


52 


34 31 


3357 




Jupiter 


W. 


38 49 


a373 


40 33 13 


8353 


42 17 


56 


a33x 


44 


3 10 


83x1 




a Aquilae 


E. 


57 27 39 


3031 


55 58 5 


3044 


54 28 


47 


So6x 


52 


59 50 


3083 




Fomalhaut 


E. 


82 34 27 


3769 


80 59 18 


«755 


79 23 


51 


«743 


77 


48 8 


8732 




a Pegasi 


E. 


I02 14 3 


3443 


100 31 30 


2424 


98 48 


29 


•405 


97 


5 I 


8386 


20 


Mars 


W. 


94 6 9 


a375 


95 50 19 


8359 


97 34 


53 


*344 


99 


19 48 


«330 




Spica 


W. 


61 33 57 


8174 


63 23 4 


8159 


65 12 


34 


8143 


67 


2 27 


3130 




Jupiter 


W. 


52 56 25 


88x9 


54 44 24 


3803 


56 32 


48 


8x86 


58 


21 36 


8173 




Fomalhaut 


E. 


69 46 30 


8698 


68 9 48 


8697 


66 33 


4 


8698 


64 56 21 


3701 




a Pegasi 


E. 


88 21 19 


8303 


86 35 24 


8388 


84 49 


7 


«74 


83 


2 30 


S861 


21 


Spica 


W. 


76 17 3 


8066 


78 8 55 


ao55 


80 I 


4 


*H4 


81 


53 29 


«>35 




Jupiter 


W. 


67 31 2 


8tOS 


69 21 54 


3093 


71 13 


4 


8083 


73 


4 30 


3073 




Antares 


W. 


30 46 12 


8O78 


32 37 45 


8065 


34 29 


38 


«>53 


36 


21 49 


«043 




Fomalhaut 


E. 


56 54 52 


8756 


55 19 26 


3778 


53 44 


29 


8803 


52 


»o 5 


3835 




a Pegasi 


E. 


74 4 56 


8808 


72 x6 41 


8«>X 


70 28 


15 


8X94 


68 


39 39 


3188 



XVI. 



JULY, 1899. 



125 







GREENWICH MEAN TIME. 












LUNAR DISTANCES. 












P. L 




P. L. 






P. L. 






P.L. 


Day of 
Monti 


Name and Direction 
of Object 


Midnight 


of 
Diff. 


XVh. 


of 
Diff. 


XVIIIh- 


of 
Diff. 


XXI^ 


of 
Diff. 






• 


m 




e * ■• 




• 


m 




• 


m 




14 


Sun 


W. 


78 32 


46 


3258 


79 57 47 


3245 


81 23 


3 


3231 


82 48 


35 


32x7 




Regulus 


W. 


42 38 


24 


2940 


44 9 52 


2926 


45 41 


38 


29x2 


47 13 


41 


2898 




Antares 


E. 


57 23 


18 


291a 


55 51 14 


2f;OI 


54 18 


56 


2888 


52 46 


22 


2876 




Saturn 


E. 


67 38 


12 


2»9I 


66 5 41 


288. 


64 32 


56 


2867 


62 59 


55 


2854' 


15 


Sun 


W. 


90 


3^ 


3143 


91 27 49 


3127 


92 55 


26 


31x0 


94 23 


23 


3094 




Regulus 


W. 


54 58 


39 


2823 


56 32 37 


2807 


58 6 


56 


2791 


59 41 


36 


2775 




Mars 


W. 


36 24 


7 


3075 


37 52 47 


3056 


39 21 


51 


3036 


40 51 


19 


3016 




Antares 


E. 


44 59 


24 


2808 


43 25 7 


2795 


41 50 


32 


2780 


40 15 


38 


2765 




Saturn 


E. 


55 10 


37 


2786 


53 35 5^ 


2772 


52 


47 


2757 


50 25 


--3 


2741 




a Aquilae 


E. 


98 34 


17 


3291 


97 9 55 


3273 


95 45 


12 


3253 


94 20 


8 


3237 


16 


Sun 


W. 


lOI 48 


24 


3005 


103 18 31 


2986 


104 49 


I 


2967 


106 19 


55 


2949 




Regulus 


W. 


67 40 


23 


2689 


69 17 17 


2672 


70 54 


35 


2654 


72 32 


17 


2635 




Mars 


W. 


48 24 


50 


2917 


49 56 47 


2898 


51 29 


9 


2877 


53 1 


57 


2858 




Antares 


E. 


32 16 


6 


26S8 


30 39 10 


2672 


29 I 


53 


'657 


27 24 


15 


2641 




Saturn 


E. 


42 23 


II 


2662 


40 45 40 


2646 


39 7 


47 


2629 


37 29 


31 


26x2 




a Aquilse 


E. 


87 9 


42 


3155 


85 42 39 


3x39 


84 15 


17 


3124 


82 47 


37 


3XX0 


17 


Sun 


W. 


114 


29 


2850 


115 33 52 


2831 


117 7 


40 


28x1 


118 41 


54 


279X 




Regulus 


W. 


80 47 


2 


a543 


82 27 15 


2524 


84 7 


55 


2505 


85 49 


I 


2486 




Mars 


W. 


60 52 


27 


8756 


62 27 52 


2735 


64 3 


45 


27x5 


65 40 


5 


2695 




Spica 


W. 


26 43 


50 


asso 


28 23 54 


2529 


30 4 


27 


2508 


31 45 


29 


2487 




a Aquilse 


E. 


75 25 


14 


3049 


73 56 2 


3040 


72 26 


39 


303X 


70 57 


5 


3023 




Fomalhaut 


E. 


loi 6 


37 


ayJW 


99 36 23 


V75 


98 5 


39 


2952 


96 34 


26 


2931 


18 


Sun 


W. 


126 39 


38 


3691 


128 16 30 


2672 


129 53 


48 


2652 


131 31 


32 


2632 




Regulus 


W. 


94 21 


10 


2392 


96 4 56 


2374 


97 49 


8 


2356 


99 33 


46 


2337 




Mars 


W. 


73 48 


32 


2594 


75 27 35 


2574 


77 7 


6 


2555 


78 47 


3 


2535 




Spica 


w. 


40 17 


47 


3387 


42 I 40 


2368 


43 46 





2349 


45 30 


48 


2331 




Jupiter 


w. 


31 57 


39 


0468 


33 39 37 


4443 


35 22 


II 


2419 


37 5 


19 


2396 




a Aquilae 


E. 


63 27 


26 


3007 


61 57 22 


3009 


60 27 


21 


30x4 


58 57 


25 


3022 




Fomalhaut 


E. 


88 51 


44 


0831 


87 17 57 


28x5 


85 43 


48 


2798 


84 9 


18 


2782 


19 


Mars 


W. 


87 13 


26 


3443 


88 56 


2425 


90 38 


59 


2408 


92 22 


22 


• 
2391 




Spica 


W. 


54 21 


34 


2240 


56 9 2 


22S3 


57 56 56 


8206 


59 45 


14 


2x90 




Jupiter 


W. 


45 48 


53 


2291 


47 35 5 


2272 


49 21 


45 


«54 


51 8 


52 


2237 




a Aquilse 


E. 


51 31 


20 


3109 


50 3 21 


3139 


48 35 


59 


3176 


47 9 


21 


3220 




Fomalhaut 


E. 


76 12 


10 


8722 


74 36 


2713 


72 59 


38 


2707 


71 23 


7 


8702 




a Pegasi 


E. 


95 21 


6 


2368 


93 36 46 


«35« 


91 52 


I 


2335 


90 6 


52 


8318 


20 


Mars 


W. 


loi 5 


4 


2315 


102 50 41 


2302 


104 36 


37 


8289 


106 22 


52 


2278 




Spica 


W. 


68 52 


41 


2II5 


70 43 17 


2102 


72 34 


13 


2089 


74 25 


29 


2077 




Jupiter 


W. 


60 10 


46 


2157 


62 19 


2143 


63 50 


13 


2129 


65 40 


28 


2XX6 




Fomalhaut 


E. 


63 19 


42 


2706 


61 43 10 


2713 


60 6 


48 


2725 


58 30 


41 


2738 




a Pegasi 


E. 


81 15 


33 


2249 


79 28 18 


2237 


77 40 


46 


2227 


75 52 


58 


2217 


21 


Spica 


W. 


83 46 


8 


2026 


85 39 I 


2018 


87 32 


7 


20x0 


89 25 


25 


•004 




Jupiter 


W. 


74 56 


12 


2063 


76 48 8 


2055 


78 40 


16 


2048 


80 32 


36 


204X ! 




Antares 


W. 


38 14 


16 


2033 


40 6 58 


2024 


41 59 


55 


20X6 


43 53 


4 


2009 




Fomalhaut 


E. 


50 36 


22 


2870 


49 3 25 


29x2 


47 31 


22 


296X 


46 


20 


SOI8 




a Pegasi 


E. 


66 50 


54 


2184 


65 2 3 


2182 


63 13 


8 


2x80 


61 24 


II 


2x80 



126 



JULY, 1899. 



XVII. 



• 






GREENWICH MEAN TIME. 


















LUNAR DISTANCF^S. 












• 


Name and Direction 


Noon« 


P.L. 

of 


Illb. 


P.L. 
of 


Vlh. 




P.U 
of 


IX^ 


P.L 

of 


^ 


of Object 








DiflL 




Diff. 






DilE. 




Diff. 






• 


t m 




• t m 




e * 


m 




t m 




29 


Spica 


W. 


91 


18 53 


1998 


93 X2 30 


1993 


95 6 


15 


X989 


97 7 


X986 




Jupiter 


W. 


82 


25 7 


»35 


84 17 47 


3Q30 


86 10 


35 


303S 


88 3 30 


3032 




Antares 


w. 


45 


46 25 


9003 


47 39 56 


X997 


49 33 


35 


X992 


51 27 22 


1987 




Saturn 


w. 


35 


53 33 


I99I 


37 47 21 


1985 


39 41 


19 


X98X 


41 35 24 


1976 




a Pegasi 


E. 


59 


35 13 


Si8x 


57 46 17 


3x84 


55 57 


26 


3X88 


54 8 41 


3X95 




a Arietis 


E. 


lOI 


59 42 


20x6 


100 6 33 


aoxx 


98 13 


16 


3007 


96 19 52 


3003 


23 


Antares 


W. 


60 


57 26 


1981 


62 51 31 


1981 


64 45 


35 


1983 


66 39 36 


1986 




Saturn 


W. 


51 


7 3 


1968 


53 I 28 


X969 


54 55 


51 


X970 


56 50 le 


X973 




a Arietis 


E. 


86 


51 50 


1997 


84 58 II 


1998 


83 4 


33 


90UU 


81 10 58 


3003 


24 


Antares 


W. 


76 


8 19 


2009 


78 I 39 


30X6 


79 54 


48 


3034 


81 47 45 


3033 




Saturn 


W. 


66 


20 34 


1996 


68 14 14 


3003 


70 7 


43 


30XX 


72 I 


90x9 




a Arietis 


E. 


71 


44 38 


2030 


69 51 50 


«g7 


67 59 


13 


3045 


66 6 49 


2055 




Aldebaran 


E. 


104 


37 38 


3043 


102 45 9 


2048 


100 52 


50 


9055 


99 42 


•063 


25 


Saturn 


W. 


81 


23 51 


3070 


83 15 36 


2083 


85 7 


3 


3094 


86 58 II 


3107 




a Aquilx 


W. 


44 


48 


3198 


45 27 


3x38 


46 54 


24 


3088 


48 22 48 


3046 




a Arietis 


E. 


56 48 46 


3X71 


54 58 4 


3134 


53 7 


42 


3139 


51 17 42 


3153 




Aldebaran 


E. 


89 


43 28 


3113 


87 52 49 


3X36 


86 2 


29 


3x38 


84 12 28 


3X5X 


26 


a Aquilx 


W. 


55 


55 31 


99x5 


57 27 31 


29OX 


58 59 48 


3891 


60 32 18 


3883 




a Arietis 


E. 


42 


13 35 


3337 


40 26 3 


2257 


38 39 





3377 


36 52 26 


3398 




Aldebaran 


E. 


75 


7 35 


2334 


73 19 43 


2240 


71 32 


15 


3356 


69 45 II 


3379 




Sun 


E. 


129 


8 3 


3489 


127 26 35 


2506 


125 45 


30 


3533 


124 4 47 


«5S8 


27 


a Aquilse 


W. 


68 


16 22 


3877 


69 49 10 


388X 


71 21 


53 


3887 


72 54 29 


9894 




Fomalhaut 


W. 


43 


51 54 


3365 


45 14 50 


3319 


46 38 


39 


3380 


48 3 14 


3347 




Aldebaran 


E. 


60 


56 7 


3361 


59 II 36 


3380 


57 27 


32 


2398 


55 43 55 


84x7 




Sun 


E. 


"5 


47 5 


3625 


114 8 44 


a643 


112 30 


48 


fl66x 


no 53 16 


9680 


28 


Aquilae 


W. 


80 


34 48 


2944 


82 6 II 


a957 


83 37 


18 


a97x 


85 8 7 


998s 




Fomalhaut 


W. 


55 


14 2 


3148 


56 41 13 


3x38 


58 8 


37 


3x30 


59 36 10 


SX3S 




Aldebaran 


E. 


47 


12 43 


25x7 


45 31 53 


3538 


43 51 


33 


SS59 


42 II 42 


9s8x 




Venus 


E. 


89 


20 8 


2859 


87 46 57 


2879 


86 14 


II 


8897 


84 41 48 


3916 




Sun 


E. 


102 


51 42 


2771 


loi 16 36 


3788 


99 41 


53 


9807 


98 7 34 


983S 


29 


Fomalhaut 
a Pegasi 


W. 
W. 


66 
45 


54 49 
10 52 


3133 

3853 


68 22 31 
46 44 13 


3x37 
2853 


69 50 
48 17 


8 
32 


SX3I 
8856 


71 17 40 
49 50 47 


SI36 

9860 




Venus 


E. 


77 


5 43 


3006 


75 35 38 


3023 


74 5 


54 


304X 


72 36 32 


SO58 




Sun 


E. 


90 


21 44 


3912 


88 49 41 


3930 


87 18 





•946 


85 46 40 


9964 


30 


Fomalhaut 


W. 


78 


33 26 


3174 


80 6 


3x83 


81 26 


36 


3193 


82 52 54 


S302 




Pegasi 


W. 


57 


35 28 


389X 


59 7 59 


3898 


60 40 


21 


89^ 


62 12 32 


99x4 




Venus 


E. 


65 


14 51 


3x40 


63 47 30 


3x56 


62 20 


28 


tin 


60 53 45 


3x87 




Sun 


E. 


78 


15 9 


3043 


76 45 50 


3058 


75 16 


49 


3073 


73 48 7 


SO87 


31 


Fomalhaut 


W. 


90 


I 17 


3359 


91 26 17 


337X 


92 5» 


a 


9284 


94 15 32 


SI96 




a Pegasi 


W. 


69 


50 4^ 


2958 


71 21 54 


3966 


72 52 


49 


2975 


74 23 33 


9984 




a Arietis 


W. 


26 


14 16 


3914 


27 46 17 


3916 


29 18 


16 


3919 


30 50 II 


•999 




Venus 


E . 


53 


44 33 


3259 


52 19 33 


3271 


50 54 


48 


3384 


49 30 18 


3998 




Sun 


E. 


66 


28 55 


3157 


65 I 54 


3x69 


63 35 


8 


3x83 


62 8 38 


Sx»« 



XVIII. 



JULY, 1899. 



127 









GREENWICH MEAN TIME. 




. 






LUNAR DISTANCES. 


Day of the 
Month. 


Name and Direction 
of Object 


Midnight 


P.I* 

of 

Diff. 


XVb. 


P.I* 

of 

Diff. 


XVIIIJ>- 


P. L. 

of 

Diff 


XXJh 


> 


P. I. 

of 

Diff 






m f m 




• t m 




m t m 




• 9 


m 




22 


Spica 


W. 


98 54 4 


1982 


100 48 6 


1981 


102 42 10 


1980 


104 36 


16 


X979 




Jupiter 


w. 


89 56 30 


3019 


91 49 34 


2017 


93 42 42 


2016 


95 35 


51 


20x5 




Antares 


w. 


53 21 16 


1985 


55 15 14 


1982 


57 9 16 


X98X 


59 3 


20 


X980 




Saturn 


w. 


43 29 36 


1973 


45 23 53 


1970 


47 18 14 


X968 


49 12 


38 


Z968 




a Pegasi 


E. 


52 20 6 


3M3 


50 31 43 


3314 


48 43 37 


2228 


46 55 


51 


2244 




a Arietis 


E. 


94 26 22 


2000 


92 32 48 


1998 


90 39 10 


X996 


88 45 


30 


1996 


23 


Antares 


W. 


68 33 33 


X989 


70 27 25 


X993 


72 21 II 


1998 


74 14 49 


2003 




Saturn 


W. 


58 44 29 


X976 


60 38 41 


198X 


62 32 46 


1985 


64 26 


44 


X990 




a Arietis 


E. 


79 17 28 


9006 


77 24 3 


301 Z 


75 30 46 


90X6 


73 37 


37 


9023 


24 


Antares 


W. 


83 40 29 


9041 


85 32 59 


3051 


87 25 14 


9061 


89 17 


13 


9079 




Saturn 


W. 


73 54 4 


sos8 


75 46 54 


9038 


77 39 29 


9048 


79 31 


48 


2059 




a Arietis 


E. 


64 14 40 


2064 


62 22 46 


3075 


60 31 8 


9086 


58 39 


48 


2098 




Aldebarai] 


E. 


97 8 46 


8073 


95 17 4 


9081 


93 25 36 


9099 


91 34 


24 


2x02 


25 


Saturn 


W. 


88 48 59 


azaz 


90 39 26 


ax34 


92 29 33 


tX49 


94 19 


18 


2x63 




a Aquilse 


W. 


49 52 4 


3009 


51 22 5 


9980 


52 52 43 


2954 


54 23 


53 


2932 




a Arietis 


E. 


49 28 4 


3169 


47 38 49 


9183 


45 49 59 


9909 


44 I 


34 


32x9 




Aldebaran 


E. 


82 22 47 


3x65 


80 33 26 


9179 


78 44 27 


9194 


76 55 


50 


3308 


26 


a Aquilae 


W. 


62 4 59 


3877 


63 37 47 


9875 


65 10 38 


2874 


66 43 


30 


3874 




a Arietis 


E. 


35 6 24 


3390 


33 20 54 


«S44 


31 35 58 


2368 


29 51 


37 


2394 




Aldebaran 


E. 


67 58 31 


3289 


66 12 16 


a307 


64 26 27 


2325 


62 41 


4 


2343 




Sun 


E. 


122 24 27 


3556 


120 44 31 


357a 


119 4 58 


2590 


H7 25 


49 


3G08 


27 


a Aquilx 


W. 


74 26 56 


390X 


75 59 13 


99>z 


77 31 18 


3921 


79 3 


10 


3933 




Fomalhaut 


W. 


49 28 28 


3220 


50 54 14 


3195 


52 20 29 


3177 


53 47 


6 


3x6z 




Aldebaran 


E. 


54 45 


2437 


52 18 3 


9456 


50 35 48 


3476 


48 54 


I 


2497 




Sun 


£. 


109 16 9 


2698 


107 39 26 


97x6 


106 3 7 


2734 


104 27 


12 


8753 


28 


a Aquils 


W. 


86 38 39 


3000 


88 8 52 


S013 


89 38 46 


303X 


91 8 


20 


3047 




Fomalhaut 


W. 


61 3 49 


3122 


62 31 32 


3x19 


63 59 18 


3x19 


65 27 


4 


SX30 




Aldebaran 


E. 


40 32 21 


3603 


38 53 30 


9696 


37 15 II 


3650 


35 37 


24 


2675 




Venus 


E. 


83 9 49 


fl934 


81 38 13 


99Sa 


80 7 


9970 


78 36 


10 


2989 




Sun 


E. 


96 33 38 


3843 


95 6 


•8G0 


93 26 56 


9878 


91 54 


9 


2895 


29 


Fomalhaut 


W. 


72 45 6 


3143 


74 12 24 


3x49 


75 39 34 


3x57 


77 6 


35 


3165 




a Pegasi 


W. 


51 23 57 


2865 


52 57 I 


9870 


54 29 58 


9876 


56 2 


47 


2883 




Venus 


E. 


71 7 31 


3075 


69 38 51 


309X 


68 10 31 


3x08 


66 42 


31 


3124 




Sun 


E. 


84 15 42 


3980 


82 45 4 


9996 


81 14 46 


3019 


79 44 48 


3027 


30 


Fomalhaut 


W. 


84 19 X 


3ai3 


85 44 55 


3994 


87 10 36 


3336 


88 36 


3 


3247 




a Pegasi 


W. 


63 44 33 


2923 


65 16 23 


9931 


66 48 2 


3940 


68 19 


30 


2948 




Venus 


E. 


59 27 20 


S202 


58 I 13 


33x6 


56 35 23 


323X 


55 9 


50 


3244 




Sun 


E. 


72 19 42 


3102 


70 51 35 


3116 


69 23 45 


3130 


67 56 


12 


3x43 


31 


Fomalhaut 


W. 


95 39 48 


3310 


97 3 48 


3323 


98 27 33 


3337 


99 51 


2 


3351 




a Pegasi 


W. 


75 54 6 


29S» 


77 24 28 


300Z 


78 54 39 


30x0 


80 24 


39 


3018 




a Arietis 


W. 


32 22 2 


2925 


33 53 49 


2930 


35 25 30 


3935 


36 57 


5 


2940 




Venus 


E. 


48 6 4 


3310 


46 42 4 


3323 


45 18 19 


333S 


43 54 


48 


3346 




Sun 


E. 


60 42 22 


3307 


59 16 21 


3218 


57 50 33 


3230 


56 24 


59 


394X 



128 



AUGUST, 1899. 



AT GREENWICH APPARENT NOON. 



i 

I 



Tues. 
Wed. 
Thur. 

Frid. 
Sat. 

SC/N. 

Mon. 
Tues. 
Wed. 

Thur. 

Frid. 

Sat. 

sc/j\r. 

Mon. 
Tues. 

Wed. 
Thur. 
Frid. 

Sat. 

sc/j\r. 

Mon. 

• 

Tues. 
Wed. 
Thur. 

Frid. 

Sat. 

SC/N. 

Mon. 
Tues. 
Wed. 
Thur. 

Frid. 



4 

a 

o 



o 



I 

2 

3 

4 

5 
6 

7 

8 



lO 

II 

12 

13 
14 
15 

i6 

17 

i8 

20 
21 

22 

23 

24 

25 
26 

27 

28 
29 

3C 
3J 

32 



THE SUN'S 



Apparent 
Right Ascension. 



m 



8 45 38.46 

8 49 31.21 

8 53 23.36 

8 57 1493 

9 I 590 
9 4 56.27 

9 8 46.05 

9 12 35.24 

9 16 23.83 

9 20 11.84 

9 23 59.26 

9 27 46.09 

9 31 32.36 

9 35 18.06 

9 39 3-19 

9 42 47.78 

9 46 31.84 

9 50 1537 

9 53 58.39 

9 57 4092 

10 I 22.97 

10 5 4-55 

10 8 45.69 

10 12 26.40 

10 16 6.69 

10 19 46.60 

10 23 26.12 

10 27 5.29 

10 30 44.11 

10 34 22.60 

10 38 0.78 

10 41 38.66 



Diff. for 
X Hour. 



■ 
9.710 

9.685 

9.661 

9.636 
9.6 1 1 
9.586 

9.562 

9-537 
95" 

9.488 
9.464 
9.440 

9.416 
9.392 
9.369 

9.347 
9.325 
9.303 

9.281 
9.261 
9.24a 

9.223 
9.205 
9.188 

9.171 
9.155 
9.139 

9.125 
9.IXX 
9.098 
9.085 

9.072 



Apparent 
Declination. 



o » • 
N.18 I 22.5 
746 6.5 

7 30 33 o 

7 14 42.5 
6 58 35- 1 
6 42 11.3 

6 25 31.2 

6 835.3 
5 51 23.9 

5 33 57.3 
5 i6 15.8 

4 58 19-8 

440 9.4 
4 21 45.2 
4 3 7.4 

3 44 16.3 

3 25 I2.I 

3 5 55-2 

2 46 26.0 
2 26 44.6 
2 6 51.3 

I 46 46.6 
I 26 30.6 
I 6 3.6 

o 45 26.0 
o 24 38.1 
o 3 40.1 

9 42 32.4 
9 21 15.4 

8 59 49-2 
8 38 14.4 

N. 8 16 31. 1 



DiflLtor 
X Hoar. 



-37.80 

38.53 
39.25 

-39-95 
40.65 

41-33 

—42.00 
42.65 

43.29 

-43-92 
44-53 
45.13 

-45.72 
46.30 

46.86 

-47.41 

47.93 
48.45 

-48.97 

49-47 
49.96 

-5043 
50.89 

51.34 

-51.78 
52.21 
52.62 

-53.02 

5340 
53.77 
54-13 

-54.47 



Semi- 
diaxneter. 



5 47.98 
5 48.10 

5 48.23 

5 48.36 

5 48.50 
5 48.64 

5 48.79 
5 48.94 
5 49.10 

5 49.26 

5 49-43 
5 4960 

5 49-77 
5 49.95 
5 50.13 

5 50-32 

5 50.51 
5 50.70 

5 50.89 

5 51-09 
5 51.28 

5 51.48 
5 51-68 

5 51.89 

5 52-09 
5 52.30 
5 52.51 

5 52.72 

5 52.93 

5 53.15 

5 53.37 



15 53-6o 



Sidereal 
Time of 
Semi- 
diameter 
Passing 
Meridian. 



66*65 
66.56 
66.47 

66.38 
66.29 

66.21 

66.12 
66.04 

65-95 

65.87 
65.79 
65.71 

65.63 
65.55 
65.47 

65.40 
65.32 

65.25 

65.18 
65.11 
65.04 

64.97 
64.91 
64.85 

64-79 

64.73 
64.67 

64.61 
64.56 
64.51 
64.46 

64.42 



Bqnatiooof 

Uma^ 

to be 

Added to 



Subtracted 

from 

Apparent 

TimeL 



m ■ 

6 6.91 
6 3.12 

5 58.73 

5 53-75 
5 48.18 

5 42.02 

5 35.26 
5 27.91 
5 19-97 

5 ".44 
5 2.33 

4 52.64 

4 42.38 

4 31-55 
4 20.16 

4 8.24 

3 55-77 
3 42.78 

3 29.29 

3 15.30 
3 0.83 

2 4590 

2 30.53 
2 14.72 



I 
I 
I 



58.51 
41.91 

24.93 



I 7.59 
o 49.90 

o 31.89 

o 13.56 



5.06 



DilLfar 
xHoor. 



ax46 
0.170 
0.195 

0.220 
0.244 
0.269 

0.294 
0.319 

0.343 

0.368 
0.392 
0.4x6 

0.439 
0.463 
0.486 

0.508 
0.529 
0.55X 

0.572 
0.592 
0.612 

0.631 
0.649 
0.667 

0.684 
0.700 
0.715 

0.730 

0.744 
0.757 

0.770 
0.782 



HoTBri— The mean time of semidiameter passing may be fonnd by tabtracting a^.i8 from the sidereal tima 

The sign — prefixed to the hoarly change of declination indicate! that north declinations are decresstof . 



II. 



AUGUST, 1899. 



129 







4 


^T GREENWICH MEAN NOON. 






1 

1 

Q 


4 

§ 
s 

« 

1 




THE 


SUN'S 




Bqnation of 

Time, 

toba 
Snbtracted 

from 


Diff. for 
I Honr. 


Sidereal 

Time, 

or 

RiRht Ascension 

of 

Mean Sun. 


Apparent 
Right Ascensioa 


Diff. for 
1 Hoar. 


Apparent 
Declination. 


Diff. for 
z Hour. 


Added to 
Mean Time. 


Tues. 
Wed. 
Thur. 


X 
2 

3 


h m ■ 

8 45 37-47 
8 49 30.23 

8 53 22.40 


■ 
9.71 1 

9.686 

9.661 


m t m 
N.18 I 26.3 
17 46 10.3 
17 30 36.9 


-37.80 

38.53 
39.25 


m 8 

6 6.93 
6 3.13 

5 58.75 


■ 
0.146 

0.170 

0.195 


h m s 

8 39 30.54 
8 43 27.10 

8 47 23.65 


Frid. 

Sat. 

SUN. 


4 

5 
6 


8 57 13.98 

9 I 4-97 
9 4 55- 36 


9.636 
9.612 
9.587 


17 14 46.4 
16 58 39.0 
16 42 I5.I 


-39.95 
40.65 

41.33 


5 53.77 
5 48.20 

5 42.04 


0.220 
0.244 
0.269 


8 51 20.21 
8 55 16.76 
8 59 13.32 


Mon. 
Tues. 
Wed. 


7 

8 

9 


9 8 45.16 
9 12 34.37 
9 16 22.99 


9-563 
9-538 
9-5M 


16 25 35.0 

16 8 39.1 
15 51 27.7 


-42.00 
42.65 

43-29 


5 35-29 

5 27.94 
5 20.00 


0.294 
0.319 

0.343 


9 3 9-87 
9 7 6.43 
9 II 2.98 


Thur. 

Frid. 

Sat. 


lO 

II 

12 


9 20 11.02 
9 23 58.46 
9 27 45-33 


. 9-489 
9.465 
9.441 


15 34 1.0 
15 16 19.5 
14 58 23.4 


-43.92 
44-53 
45.13 


5 11.48 
5 2.37 
4 52.68 


0.368 
0.392 
0.416 


9 14 59-54 
9 18 56.10 

9 22 52.65 


SUN. 

Mon. 

Tues. 


13 
14 
15 


9 31 31.62 

9 35 17.35 
9 39 2.51 


9.417 

9-394 
9-371 


14 40 13.0 
14 21 48.7 
14 3 10.7 


-45.72 
46.30 
46.86 


4 42.42 

4 31.59 
4 20.20 


0.439 
0.463 

0.486 


9 26 49.20 
9 30 4576 
9 34 42.32 


Wed. 
Thur. 
Frid. 


i6 

17 
i8 


9 42 47-14 
9 46 3123 

9 50 14-79 


9.348 
9.326 

9.305 


13 44 19.5 
13 25 15.2 
13 5 58.2 


-47.41 

47-94 
48.46 


4 8.27 
3 55-80 
3 42.81 


0.508 
0.530 
0.552 


9 38 38.87 

9 42 35-42 
9 46 31.98 


Sat. 

SUN. 
Mon. 


19 

20 

21 


9 53 57.85 

9 57 4041 
10 I 22.50 


9.284 
9.264 
9.244 


12 46 28.7 
12 26 47.2 
12 6 53.8 


-48.98 
49-48 
49.97 


3 29.32 

3 15.33 
2 0.86 


0.573 
0.593 
0.612 


9 50 28.53 

9 54 25.09 
9 58 21.64 


Tues. 
Wed. 
Thur. 


22 

33 
24 


10 5 4.12 
10 8 45.30 
10 12 26.05 


9.225 
9.207 
9.190 


iz 46 48.8 
II 26 32.6 
11 6 5.5 


-50.44 
50.90 

51.35 


2 45-93 
2 30.55 
2 14-75 


0.631 
0.650 
0.667 


10 2 18.20 
10 6 14.75 
10 10 11.30 


Frid. 

Sat. 

SUN. 


25 
26 

27 


10 16 6.39 
10 19 46.34 
10 23 25.91 


9 173 

9.157 
9.141 


10 45 27.7 
10 24 39.5 
10 3 41.3 


-5x79 
52.22 

52.63 


I 58.53 
I 41.93 

I 24.95 


0.684 
0.700 

0.715 


10 14 7.86 

'10 18 4.41 

10 22 0.96 


Mon. 
Tues. 
Wed. 
Thur. 

Frid. 


28 
29 

30 
31 

32 


10 27 5.12 
10 30 43.98 
10 34 22.52 
10 38 0.75 

10 41 38.67 


9.126 
9.112 
9.099 
9.087 

9.075 


9 42 33.4 
9 21 16.1 

8 59 49.7 
8 38 14.5 

N. 8 16 31.0 


-53.03 

53.41 
53.78 

54-M 
-5448 


I 7.60 
49.91 
31.90 

13-57 


0.730 
0.744 

0.757 
0.770 

0.782 


10 25 57.52 
10 29 54.07 
10 33 50.62 
10 37 47.18 

10 41 43.73 


5.06 


Tl 


hesai 
liesig 
decri 


nidiameter for «eaj 
D — prefixed tc iho 
BasinK. 


1 noon may 
hourly chai 


be assumed the sam< 
ige of declination in< 


i as that for 
licates that 


apparent nooa 
north declinati 


1 

ons are 


Diff. for I Hour, 

+ 9" 8565. 
CTable IIL) 



130 



AUGUST, 1899. 



III. 



AT GKEENWICH MEAN NOON. 



I 

I 



I 

2 

3 

4 

5 

6 

7 

8 

9 

lo 
II 
la 

«3 

H 
JS 

i6 

17 

i8 

10 

JO 

21 

aa 

J3 
^4 



I 
I 

"8 



313 

ais 

316 

317 
318 

3X9 
330 
33 Z 

2 32 

3^4 

22$ 
3J6 
3^7 

3j8 
3Jig 
330 

331 

^33 

234 

336 



^5 • 337 
ajiS 



JO 

-*7 



3» : ^43 

I 



THE SUN'S 



TRUE LONGITUDE. 



28 58 38.0 

29 56 4-5 

30 53 32.0 



31 SI 
33 4« 
33 46 



0.7 

30.5 
1-5 



34 43 33-5 

35 41 6.5 

36 38 40.5 

37 36 15s 
3« 33 514 

39 31 28.3 

40 ag 6.1 

41 a6 45,0 
4a 34 347 

43 aa 5,6 

44 »9 47-6 

45 17 3^^ 6 

46 IS 150 

47 13 ^4 

48 10 47.4 



40 
5^ 
5* 



» 35-^ 
6 35.7 

4 *7-» 



53 3 10.4 
5J 60 5.4 

53 5-"^ ^1 



54 5^ 

55 54 

>C> SJ 



V.X7 
I .^ 



57 50-2 

55 16.5 

52 43-9 

50 ia.5 

47 42.1 

45 130 

4a 44.8 

40 17.7 

37 51-6 

35 26.4 

33 2.2 

30 39.0 

28 16.6 

25 55.4 

33 350 

31 15.7 
18 57.6 
x6 40,5 

14 24.8 

la lo.o 

9 5^-9 

7 45 2 

5 35 o 

3 -<^4 



3w 



•^ I 



19-5 

14-4 
u\9 

^4 

SI 12 2 



I 

5^) 
57 

55 



Diff. for 
1 Hoar. 



>7 50 ii,I , 4v) ltV5 



15^ 4S x^y 47 :^J.^ 



43-58 
4363 
4367 

43.72 
43.76 
43.81 

43.85 
43.90 
43.94 

43.98 
44.02 
44.06. 

44.10 

44.14 
44.18 

44.22 

4487 
44.3a 

44-37 
44-43 
44.49 

44.55 
44.01 

44.63 

44-75 
44.S2 

44-90 

44*oS 
4500 

4514 
45*^« 



LATITUDE. 



— O.OI 
0.14 
0.27 

— 0.40 
0.52 
0.62 

— 0.70 

0-75 

0.78 

-0.77 
0.73 

0.66 

— 0.57 
0.46 

0.34 

— 0.21 

— 0.08 

+ 0.05 

+ 0.17 
o.a6 

0-33 

+ 0-36 
0.38 

0.36 

+ 0.31 
0.24 
0.13 

+ 0.0 1 

— evil 
a -'4 

^37 

0.^0 



Logarithm 

of the 

Radins Vector 

of the 

Earth. 



Diff. for 
X Hour. 



0.0063786 
0.0063225 
0.0062643 

0.0062038 
0.00614 10 
0.0060758 

0.0060083 
0.0059383 
0.0058659 

0.0057918 
0.0057152 
0.0056366 

0.0055564 
0.0054745 
O.OO539II 

0.0053061 
0.0052200 
0.0051328 

0.0050445 
0.0049553 
0.0048653 

0.0047745 
0.0046827 
0.0045903 

0.0044968 
0.0044024 I 
0.0043070 ' 

0.0042103 
0.0041126 

aoo40i34 
0.003V) 1 29 



I 



—22.9 

23.8 
24.7 

-25.7 

26.7 

27.7 
-28.6 

29.6 

30.5 

-31.4 
323 
33.1 

-33.8 

34.5 

35-1 

-35-6 
36.1 

36.6 

-37-0 
37-4 
37.7 

-38.0 
38.4 

38.7 

-39- X 

39-5 
4Q.0 

-40.5 
41.0 
4X.6 
4X.i 

4^-3 



UK W 

((^l«. TW »«MtVe(> m cv-hituoi A c%Mrt«|HM9Kl w ibi« trwr «>tv a>»i «l th« dUt«k ia cv>tttata V to t^ ae &n 



Mean Urne 

of 

Sidereal Noon. 



3 47 32.75 

3 43 36 84 
3 39 40.94 
3 35 4503 

3 31 49-12 

3 27 53-21 

3 23 57.30 

3 20 1.40 



13 i^ 5-49 



for I Rm 



h m 8 

5 17 58.66 

5 14 2.75 

5 10 6.84 

5 6 10.93 

5 2 15.02 

4 58 19-11 

4 54 23.20 

4 50 27.29 

4 46 31-38 

4 42 35-47 

4 38 39- 56 

4 34 43-66 

4 30 47.75 

4 26 51.84 

4 22 55.93 

4 19 0.02 

4 15 4-II 

4 II 8.20 

4 7 12.29 

4 3 16.38 

3 59 20.48 

3 55 24.57 

3 51 28,66 I 



IV. 



AUGUST, 1899. 



131 









GREENWICH 


MEAN TIME. 








i 


THE MOON'S 


o 
1 


SBMIDIAMETER. 


HORIZONTAL PARALLAX. 


UPPBR TRANSIT. 


AGE. 


Noon. 


Mjd&ight 


NOOD. 


Diff. f 01 
1 Hoar. 


Midnight 


Diff. for 
z Hour. 


Meridian of 
Groenwich. 


DiflL for 
1 Hour. 


Noon. 


I 
2 

3 


f m 

15 6.1 
14 58.2 
14 52.2 


t m 

IS 1-9 

H 55-0 
14 49.8 


55 18.7 
54 49-» 
54 27.5 


m 

-x-35 
Z.07 

0.80 


# m 

55 3-4 
54 37.8 
54 18.7 


m 
-X.20 
0.93 
0.68 


h m 

20 53.6 

21 43-7 

22 32.0 


m 

2.12 
2.05 
X.96 


d 
24.6 

25.6 

26.6 


4 

5 
6 


H 47-7 
14 44.9 

14 43.6 


14 46.1 
14 44.0 

14 43-4 


54 1 1-3 
54 09 
53 55-9 


-0.55 

0.32 

-0.10 


54 5-4 
53 57.7 
53 55-4 


-0.43 

-0.2 X 

-10.02 


23 17-9 

6 
1.8 


X.87 
X.79 


27.6 

28.6 

0.0 


7 
8 

9 


14 43-7 

14 45-3 
14 48.6 


14 44-3 
14 46.7 

14 50.9 


53 56.3 

54 2.3 
54 143 


+0.13 
0.37 
0.64 


53 58.6 

54 7-5 
54 22.8 


-H).25 
0.50 
OW78 


44.0 

1 25.1 
a 5.8 


x-73 
1.70 

x.70 


I.O 
2.0 

3-0 


zo 
II 

12 


14 53.6 

15 07 
15 9.7 


14 56.9 

15 4-9 
15 I5-I 


54 32.9 

54 58.7 

55 32.1 


+0.92 

X-23 

x-55 


54 44-9 

55 14-4 
55 51-6 


-I-X.08 
1.39 

X.70 


2 47.1 

3 29.7 

4 147 


X.74 
X.82 
X.93 


4.0 

50 
6.0 


13 
14 
15 


15 20.9 
15 33-9 
15 48-3 


IS 27.2 
15 41-0 
15 55-9 


56 13-0 

57 0.8 
57 53-8 


+1.85 
2.11 
2.28 


56 36.1 

57 26.8 

58 21.5 


+X.99 

2.21 
2.31 


5 2.9 

5 54-8 

6 50.5 


2.08 
2.24 

2.39 


7.0 
8.0 
9.0 


i6 

17 
i8 


16 3.4 
16 18.1 
16 30.9 


16 10.9 
16 24.8 
16 36.1 


58 49.3 

59 43- 1 

60 30.2 


-1-2.30 
2.13 
1-73 


59 16.7 

60 7.9 

60 49.4 


-H2.24 
1.96 

x-45 


7 49-3 

8 49.9 

9 50-3 


2.50 

2.53 
2.49 


1 0.0 
1 1.0 
12.0 


19 

20 
21 


16 40.4 
16 45.2 
16 44.6 


16 43.4 
16 45.6 
16 42.3 


61 4.9 
61 22.6 
61 20.6 


+1.11 
+0.33 
-0.50 


61 16.2 
61 24.2 
61 12.1 


40.74 

-0.08 
0.91 


10 49.2 

11 45-9 

12 40.5 


2.4X 

2.31 
2.24 


13-0 
14.0 

150 


22 

23 
24 


16 38.7 
16 28.2 
16 14.5 


16 34.0 
16 21.7 
16 6.9 


60 58.8 
60 20.3 

59 29.9 


-X.28 
X.88 
2.26 


60 41.4 
59 56.2 
59 2.0 


— X.60 

2.10 

2.36 


13 335 

14 25.9 

15 i8.a 


2.19 
2.18 
2.19 


16.0 
17.0 
18.0 


25 
26 

27 


15 591 
15 43.4 
15 28.7 


IS 51.2 

15 35-9 
15 21.9 


58 33-3 
57 35-8 
56 41.6 


-2.40 

2-35 

2.14 


58 4-3 
57 8.1 
56 16.7 


-2.40 
2.26 
2.00 


16 10.9 

17 4.0 

17 57-1 


2.2X 
2.22 
2.20 


19.0 
20.0 
21.0 


28 
29 

30 
31 


15 15-6 
15 4-7 
14 56.2 
14 50.1 


IS 9-9 

15 0-2 

14 52.8 
14 47.8 


55 53-7 
55 13-7 
54 42.4 
54 198 


-X.84 

1.49 
1. 12 
0.77 


55 32.6 
54 57-0 

54 30-0 
54 1 1.6 


-1.67 
X.30 

0.94 

0.60 


18 49.5 

19 40.3 

20 29.2 

21 15.8 


2.16 
2.08 
1.99 
X.90 


22.0 
23.0 
24.0 
25.0 


32 


14 46.1 


14 44.9 


54 5-4 


-0.44 


54 i-o 


-0.29 


22 0.3 


I.81 


26.0 























132 



AUGUST, 1899. 



• V. 









GREENWICH 


MEAN 


TIME. 








1 




THE MOON'S 


RIGHT ASCENSION AND DECLINATION. 






Pour. 


Right 


DiflF.for 


DeclinatioiL 


Diflf. for 


Hour. 




Right 


Diflf. for 


Declination. 


Diff. for 




Ascension. 


X Minnte. 






X Minnte. 




AacensioxL 


X Minute. 






X Minute. 




T 


UESDi^ 


iY I. 










THURSDAY 3. 








h m • 


s 


e 


» m 


m 




h 


m ■ 


8 


» 


• 


m 


O 


4 49 49-46 


a. 4495 


N.23 


49 25.4 


1.0X3 





6 


35 38.01 


3.14x9 


N.22 21 


38.6 


4.51a 


I 


4 52 4- 40 


a. 2483 


23 


50 22.5 


0.890 


I 


6 


37 46.43 


3.X387 


22 17 


4.8 


4.6x5 


2 


4 54 19-26 


3.8472 


23 


51 12.2 


0.767 


2 


6 


39 54-66 


a.X355 


22 12 


24.8 


4.718 


3 


4 56 34- 06 


a. 3460 


23 


51 54-5 


0.644 


3 


6 


42 2.69 


3.X323 


22 7 


38.6 


4.831 


4 


4 58 48.78 


a.a447 


23 


52 29.5 


0.532 


4 


6 


44 10.53 


3.X29O 


22 2 


46.3 


4.922 


5 


5 I 3.43 


a. 8435 


23 


52 57.2 


0.400 


5 


6 


46 18.17 


3.X357 


21 57 


48.0 


5.03a 


6 


5 3 18.00 


3.3431 


23 


53 17.5 


0.378 


6 


6 


48 25.61 


3.X333 


21 52 


43-6 


S.X33 


7 


5 5 32.48 


3.3407 


23 


53 30.5 


0.157 


7 


6 


50 32.85 


3.1x90 


21 47 


33.3 


S.aaa 


8 


5 7 46-88 


3.3393 


23 


53 36.3 


+ 0.035 


8 


6 


52 39.89 


a.xi57 


21 42 


17.0 


5.3ax 


9 


5 10 1. 18 


a. 3376 


23 


53 34.7 


- 0.087 


9 


6 


54 46.73 


3.x 133 


21 36 


54-8 


5.4x9 


lO 


5 12 15.39 


3.336X 


23 


53 25.9 


0.907 


10 


6 


56 53.36 


3.1088 


21 31 


26.7 


5.517 


II 


5 14 29.51 


a. 3345 


23 


53 9.8 


0.338 


II 


6 


58 59.79 


3.XO54 


21 25 


52.8 


5.6x3 


12 


5 16 43.53 


3.3328 


23 


52 46.5 


0.448 


12 


7 


I 6.01 


3.I030 


21 20 


13-1 


5.709 


13 


5 18 57.45 


a. 3311 


23 


52 16.0 


0.569 


13 


7 


3 12.03 


3.0985 


21 14 


27.7 


5.805 


14 


5 21 11.26 


3.3393 


23 


51 38.2 


0.689 


14 


7 


5 17.83 


3.0950 


21 8 


36.5 


5.900 


15 


5 23 24.96 


3.3374 


23 


50 53.3 


0.808 


15 


7 


7 23.43 


a.0916 


21 2 


39.7 


5.993 


i6 


5 25 38.55 


3.3336 


23 


50 1.3 


0.937 


16 


7 


9 28.82 


a.o88x 


20 56 


37-3 


6.087 


I? 


5 27 52.03 


3.3337 


23 


49 2.1 


X.O47 


17 


7 


II 34.00 


3.0846 


20 50 


29.3 


6.X79 


i8 


5 30 5-39 


3.33X7 


23 


47 55.7 


X.1G6 


18 


7 


13 38.97 


3.08x0 


20 44 


15-8 


6.373 


19 


5 32 18.63 


a. 2197 


23 


46 42.2 


X.283 


19 


7 


15 43-72 


3.0775 


20 37 


56.7 


6.363 


20 


5 34 31.75 


3.3x76 


23 


45 21.7 


X.4OI 


20 


7 


17 48.27 


a. 0740 


20 31 


32.2 


6.453 


21 


5 36 44.74 


a.ax54 


23 


43 54.1 


X.518 


21 


7 


19 52.60 


3.0704 


20 25 


2.3 


6.543 


22 


5 38 57.60 


3.3x33 


23 


42 19.5 


X.635 


22 


7 


21 56.72 


3.0668 


20 18 


27.0 


6.633 


23 


5 41 10-33 


3.3IIO 


N.23 


40 37.9 


1.75a 


23 


7 


24 0.62 


3.0633 


N.20 II 


46.4 


6.731 




WE 


DNESE 


)AY 2. 








F 


RIDAY 


4. 






O 


5 43 22.92 


3.3087 


N.23 


38 49.2 


1.869 





7 


26 4.32 


3.0598 


N.20 5 


0.5 


6.Sn8 


I 


5 45 35.38 


3.3065 


23 


36 53.6 


1.984 


I 


7 


28 7.80 


3.0563 


19 58 


9.4 


6.896 


2 


5 47 47.70 


3.804X 


23 


34 51-1 


3.X00 


2 


7 


30 11.07 


3.0537 


19 51 


13.0 


6.98a 


3 


5 49 59.87 


3.30X6 


23 


32 41.6 


3.3X5 


3 


7 


32 14.12 


a. 0491 


19 44 


11.5 


7.0^ 


4 


5 52 11.89 


•.199a 


23 


30 25.3 


3.339 


4 


7 


34 16.96 


3.0455 


19 37 


4.9 


7.«53 


5 


5 54 23.77 


3.1967 


23 


28 2.1 


a. 443 


5 


7 36 19-58 


3.0419 


19 29 


53.2 


7aS7 


6 


5 56 35.50 


S.X94a 


23 


25 32.1 


a. 557 


6 


7 


38 21.99 


a. 0384 


19 22 


36.5 


7.319 


7 


5 58 47.07 


a. 19x6 


23 


22 55.3 


3.670 


7 


7 


40 24.19 


a. 0349 


19 15 


14.9 


7.403 


8 


6 58.49 


a.x8go 


23 


20 1 1.7 


3.783 


8 


7 


42 26.18 


a.0313 


19 7 48.3 


7.484 


9 


6 3 9.75 


3.X863 


23 


17 21.4 


3.894 


9 


7 


44 27.95 


3.0277 


19 


16.8 


7.566 


10 


6 5 20.85 


a,x836 


23 


14 24.4 


3.007 


10 


7 


46 29.51 


3.0343 


18 52 


40.4 


7.647 


II 


6 7 31.78 


a. 1807 


23 


II 20.6 


3.1x7 


II 


7 


48 30.85 


3.0307 


18 44 


59.2 


7.7a6 


12 


6 9 42.54 


a. 1780 


23 


8 10.3 


3.337 


12 


7 


50 31-99 


8.0x73 


18 37 


13.3 


7.804 


13 


6 II 53.14 


a. 175a 


23 


4 53.3 


3.338 


13 


7 


52 32.91 


a. 0x37 


18 29 


22.7 


7.883 


14 


6 14 3.56 


3.1733 


23 


I 29.7 


3.447 


14 


7 


54 33.63 


a.oxoa 


18 21 


27.4 


7.960 


15 


6 16 13.82 


3.1695 


22 


57 59.6 


3.557 


15 


7 


56 34.13 


a.oo66 


18 13 


27.5 


8.037 


i6 


6 18 23.90 


a.x665 


22 


54 22.9 


3.666 


16 


7 


58 34.42 


a.OQsx 


18 5 


23.0 


8.1X3 


17 


6 20 33.80 


3.X635 


22 


50 39.7 


3.773 


17 


8 


34.50 


1.9997 


17 57 


14.0 


8.X87 


i8 


6 22 43.52 


a. 1606 


22 


46 50.1 


3.88X 


18 


8 


2 34.38 


1.996a 


17 49 


0-5 


8.a6a 


19 


6 24 53.07 


3.1576 


22 


42 54.0 


3.987 


19 


8 


4 34.04 


i-99a7 


17 40 


42.6 


8.336 


20 


6 27 2.43 


a. 1544 


22 


38 51.6 


4*093 


20 


8 


6 33.50 


1.989a 


17 32 


20.2 


8.409 


21 


6 29 11.60 


3.X5X3 


22 


34 42.8 


4. 199 


21 


8 


8 32.75 


X.9858 


17 23 


53-5 


8.481 


22 


6 31 20.59 


3.1483 


22 


30 27.7 


4-304 


22 


8 


10 31.80 


1.9834 


17 15 


22.5 


8.553 


23 


6 33 29.40 


a. 145a 


22 


26 6.3 


4.409 


23 


8 


12 30.64 


1.9790 


17 6 


47.2 


8.683 


24 


6 35 38.01 


a.i4«9 


N.22 


21 38.6 


4.5«a 


24 


8 


14 29.28 


1.9757 


N.16 58 


7.7 


8.693 



VI. 



AUGUST, 1899. 



133 



GREENWICH MEAN TIME. 



THE MOON'S RIGHT ASCENSION AND DECLINATION. 



Hoar. 



Right 
Atcension. 



Diff.for 
I Minute. 



Declination. 



Diff. for 
X Minnte. 



O 

I 

2 

3 

4 

5 
6 

7 
8 

9 

10 

II 

12 

13 

14 

15 
i6 

17 
i8 

19 

20 
21 
22 

23 



O 
I 
2 

3 

4 

5 
6 

7 

8 

9 

lO 
IX 
12 

13 

14 

15 
i6 

17 
i8 

19 

20 
21 
22 

23 
24 



SATURDAY 5. 



h m 

8 14 

8 16 
8 18 
8 20 
8 22 
8 24 
8 26 
8 28 
8 30 
8 32 

8 34 
8 36 

8 37 
8 39 
8 41 

8 43 
8 45 
8 47 
8 49 
8 51 
8 53 
8 55 
8 57 
8 59 



• 
29.28 

27.72 

25-95 

23-99 
21.82 
19.46 
16.90 

14-15 
11.20 

8.06 

4.73 
1. 21 

57-50 
53-61 

49.53 
45-27 
40.83 
36.21 
31.41 
26.44 
21.29 

15-97 
10.48 

4.82 



■ 

X.9757 

x.97a3 

1.9689 

1.9656 

Z.9638 

1.9590 

J.9557 

«.95a5 

i>949a 

I. 9461 

X.9429 
1.9397 
X.9367 
X.9336 
X.9305 
1.9*75 
1.9*45 
1.9215 
I. 9186 

1.9x57 
1.9x27 

X.9099 

1.9071 
1.9043 



N. 



N. 



6 
6 
6 
6 
6 
6 
6 

5 
5 
5 
5 
5 
5 
4 
4 
4 
4 
4 
4 
4 
3 
3 
3 
3 



9 
9 
9 
9 
9 
9 
9 
9 
9 
9 
9 
9 
9 
9 
9 
9 
9 
9 
9 
9 
9 
9 
9 
9 
9 



o 

2 

4 
6 

8 

10 

12 

14 
16 

17 

19 
21 

23 

25 

27 
29 

31 
32 

34 
36 
38 
40 
42 

44 
45 



SUNDAY 6, 

N.13 

3 
2 

2 

2 

2 

2 
I 
I 
I 
I 
I 
I 
o 
o 
o 
o 
o 
o 

9 
9 
9 
9 

9 

N. 8 



58.99 


1.9015 


53.00 


X.8988 


46.85 


2.8963 


40.54 


X.8935 


34-07 


X.8908 


27.44 


1.888a 


20.66 


X.8857 


13.73 


1.8833 


6.65 


1.8808 


59.43 


1.8784 


52.06 


X.8759 


44.54 


1.8736 


36.89 


1.87x3 


29.10 


1.8690 


21.17 


X.8667 


I3.II 


1.8646 


4.92 


1.8604 


56.60 


Z.8603 


48.16 


X.8583 


39.60 


1.8562 


30.91 


1.8542 


22.11 


1.8523 


13.19 


1.8504 


4.16 


1.8486 


55.02 


1.8467 



58 

49 
40 

31 

22 
13 

4 
55 

46 

37 

27 

18 

9 
59 
49 
40 
30 
20 
II 

I 

51 
41 
31 

21 



7.7 
24.0 

36.2 

44.3 
484 

48.5 
44-6 
36.8 
25.2 

9.7 

50.5 
27.6 

i.o 

30.8 

56.9 

19.5 
38.6 

54.3 
6.6 

15.5 
21. 1 

23.4 
22.4 

18.3 



II II.X 




I 0.7 




50 47.3 




40 30.9 




30 II.5 




19 49.2 




9 24.0 




58 56.0 




48 25.2 




37 51.6 




27 15.3 




16 36.4 




5 54-8 




55 10.7 




44 24.0 




33 34.8 




22 43.2 




II 49.2 




52.8 




49 54.2 




38 53.2 




27 50.0 




16 44.6 




5 37-1 




54 27.4 





m 

8.693 
8.762 
8.83X 
8.898 
8.965 
9.032 

9-097 
9.16a 
9.226 
9.289 

9.S5X 
9.4x2 

9.473 
9*534 
9.594 
9.65a 

9.7x0 
9.767 

9.823 
9.879 

9.934 

9.9BJ 

10.042 

10.094 



10.147 
XO.198 
10.248 
XO.298 

XO.347 
10.396 

XO.443 
I0.49P 

XO.537 
10.582 
XO.627 
10.671 
10.714 

10. 757 
XO.799 
XO.840 
10.880 
10.920 
XO.958 
10.997 

1X.035 
XX. 071 
11.107 

XX. 143 
11.178 



Hoar. 



Right 
Aacensioa 



Diff. for 
I Minute. 



Declination. 



Diff. for 
1 Minato. 



O 
X 
2 

3 

4 

5 
6 

7 

8 

9 
10 

II 

12 

13 

14 

15 
16 

17 
18 

19 
20 

21 

22 

23 I 



o 

X 
2 

3 
4 

5 

6 

7 
8 

9 
10 

II 

12 

13 

14 

15 
16 

17 
18 

19 
20 

21 

22 

23 
24 



MONDAY ^. 



h 

9 

9 

9 

9 

9 

9 

9 

9 
10 

10 

10 

10 

10 

10 

10 

10 

10 

10 

10 

10 

10 

10 

10 

10 



xo 
10 
10 
10 
10 
10 
10 
10 
10 
10 
10 
10 
10 
10 
10 
10 
10 
II 
II 
II 
II 
II 
II 
II 
II 



45 
47 
49 
51 
53 
55 
56 
58 
o 
2 

4 
6 

7 

9 
II 

15 

17 
18 

20 

22 

24 
26 

28 



29 
31 

33 
35 

37 
38 
40 
42 

44 
46 

47 
49 
51 
53 
55 
57 
58 
o 
2 

4 
6 

7 

9 

II 

13 



55.02 

45.77 
36.42 

26.97 

17.42 

7.77 
58.03 

48.20 

38.28 

28.28 

18.19 

8.03 

57-78 
47.46 
37.08 
26.62 
16.10 

5.52 
54.88 
44.19 

33.44 
22.65 

II. 81 

0.92 



■ 
1.8467 

X.8450 

X.8433 

X.8417 

X.8400 

x-8384 
1.8369 

X.8354 
1.8340 
1.8326 
1.8312 
1.8299 
1.8286 
1.8275 
1.8263 
1.8252 
1.8242 
X.8232 
X.8232 
X.8213 
X.820S 
1.8197 
1.8x89 
X.8188 



N. 



N. 



8 
8 
8 
8 
8 

7 

7 

7 

7 

7 

7 
6 

6 

6 

6 

6 

5 
5 
5 
5 
5 
4 
4 
4 



32 
20 

9 
58 



TUESDAY 8. 



49.99 
39.03 
28.03 
17.00 

5.94 
54.86 

43.75 
32.63 

21.49 

10.34 

59.18 

48.02 

36.85 
25.68 

14.52 

3.37 
52.22 
41.09 
29.98 
18.89 

7.82 
56.78 

45.77 
34.80 

23.86 






.8176 
.8170 
.8x64 
.8159 
.8155 
.8151 

.8x47 
.8145 

.8143 
.8141 
.8140 
.8139 
.8138 
.8139 
.8x41 
.8x42 
.8x43 

.8147 
.8x50 

.8x53 

.8x57 
.8x62 

.8x68 
.8174 
.8x81 



N. 



N. 
S. 

s. 



4 

4 

3 

3 

3 

3 

3 
2 

2 

2 

2 
2 

I 
I 

I 
I 

X 

o 
o 
o 
o 
o 
o 
o 
o 



54 27.4 

43 15-7 
2.0 

46.3 

28.7 

9.2 

46 47.8 

35 24.6 

59.6 

32.9 
4.6 

34.6 

2.9 

29.7 

55.0 
18.8 
41.2 

21.8 

40.0 

57.0 

12.8 

27.4 
40.9 



23 

12 
I 

49 
38 
26 

14 
3 
51 
40 
28 
16 

4 
53 
41 
29 



17 
6 

54 
42 

30 

18 
6 

54 
42 

31 
19 

7 
55 
43 
31 
19 

7 
55 
43 
31 
19 

7 

4 
16 

28 



53.2 

4-4 
14.6 

23.8 

32.1 

39.4 

45-9 

51.5 

56.4 

0.5 

3.9 

6.7 
8.8 

10.4 

II. 4 

II. 9 

II. 9 

11.5 

10.7 

9.6 

8.1 

6.4 

55-5 
57.6 
59.8 



11.176 

XX.2X2 

XX. 245 

XI.277 
XI.309 ' 

xi.34» 
XX. 372 
XX. 40a 
XX. 431 
IX. 458 

XI.486 

XX.5I4 
1X.54I 

XX.S66 
XX. 591 
XX. 615 
XX. 638 
XX.662 
X1.685 
XX.707 
XX.727 

XI. 747 
XX.766 

11.785 



1X.804 
xx.8aa 
IX. 838 
XI. 854 
X 1.870 
XX.885 

11.899 
II. 912 
xx.9a5 
11.937 
X1.948 

X 1.959 
11.969 

11.978 
IX. 987 
XX. 996 
12. 003 

X2.0IO 

X2.0I6 
x2.oaa 
12.027 
12.030 
X2.033 
xa.036 
X2.058 



134 



AUGUST, 1899. 



VII. 









GREENWICH 


MEAN 


TIME. 




• 


1 


THE MOON'S RIGHT ASCENSION AND DECLINATION. 


Honr. 


Right 


DiflLfor 


DecUnatioiL 


Diff. for 


Hour. 




Right 


niflf.for 


Declination. 


Dilt for 




Ascension. 


X Minute. 




X Minute. 




AacenaioiL 


I Minute. 




X Minute. 




WE 


DNESE 


►AY 9. 








FRIDAY 


II. 






h m s 


s 


e t m 


m 




h 


m ■ 


■ 


• f m 


m 


O 


II 13 23.86 


x.8z8i 


S. 28 59.8 


XS.Q38 





12 


42 31.00 


1.9178 


S. 9 55 51.7 


XI.300 


I 


II 15 12.97 


1.8x88 


41 2.2 


X3.04O 


I 


12 


44 26.18 


1.9213 


10 7 8.7 


11.266 


2 


II 17 2.II 


X.8X95 


53 4.6 


xa.040 


2 


12 


46 21.56 


X.9249 


10 18 23.6 


XX. 232 


3 


II 18 51.31 


x.8«H 


I 5 7.0 


xa.040 


3 


12 


48 17.17 


X.9287 


10 29 36.5 


11.197 


4 


II 20 40.56 


i.8ai3 


I 17 9.4 


X2.a40 


4 


12 


50 13.00 


1.9323 


10 40 47.2 


IX. 159 


5 


II 22 29.86 


X.8393 


I 29 II. 8 


xa.039 


5 


12 


52 9.05 


1.9360 


10 51 55.6 


II. 122 


6 


II 24 19.22 


X.823S 


I 41 14. 1 


i«.037 


6 


12 


54 5.32 


1.9398 


II 3 1.8 


IX.084 


7 


II 26 8.64 


1.8243 


I 53 16.2 


X2.033 


7 


12 


56 1.83 


1.9437 


II 14 5.7 


11.045 


8 


II 27 58.13 


x.8a53 


2 5 i8"i 


za.030 


8 


12 


57 58.57 


1.9476 


II 25 7.2 


XI. 005 


9 


II 29 47.68 


x.8a65 


2 17 19.8 


18. 026 


9 


12 


59 55.54 


1.93x6 


II 36 6.3 


10.965 


lO 


II 31 37.31 


i.8a77 


2 29 21.2 


za.oax 


10 


13 


I 52.76 


1-9557 


II 47 3.0 


10.923 


II 


II 33 27.01 


X.8289 


2 41 22.3 


xa.ois 


II 


13 


3 50.22 


1.9S97 


II 57 57.1 


10. 881 


12 


II 35 16.78 


X.8309 


2 53 23.0 


xa.009 


12 


13 


5 47.93 


1.9639 


12 8 48.7 


10.837 


13 


II 37 6.64 


I. 8317 


3 5 23.4 


xa.ooa 


13 


13 


7 45.89 


Z.968X 


12 19 37.6 


10.793 


14 


II 38 56.59 


i.833« 


3 17 23.3 


XX.994 


14 


13 


9 44.10 


1.9783 


12 30 23.9 


10.748 


15 


II 40 46.62 


1.8347 


3 29 22.7 


X1.986 


15 


13 


II 42.57 


1.9767 


12 41 7.4 


X0.702 


i6 


II 42 36.75 


Z.836S 


3 41 21.6 


IX. 977 


16 


13 


13 41.30 


1.9811 


12 51 48.1 


10.655 


17 


II 44 26.98 


X.8379 


3 53 20.0 


X1.967 


17 


13 


15 40.30 


1.9855 


13 2 26.0 


X0.607 


i8 


II 46 17.30 


X.8396 


4 5 17.7 


11.957 


18 


13 


17 39.56 


1.9899 


13 13 i.o 


10.559 


19 


II 48 7.73 


1.8414 


4 17 14.8 


XI. 946 


19 


13 


19 39.09 


1.994s 


13 23 33.1 


10.509 


20 


II 49 58.27 


1.843a 


4 29 II. 2 


11.934 


20 


13 


21 38.90 


1.9991 


13 34 2.1 


10.458 


21 


II 51 48.92 


X.845X 


4 41 6.9 


xi.9aa 


21 


13 


23 38.98 


a. 0037 


13 44 28.1 


10.407 


22 


II 53 39.68 


X.8469 


4 53 1.8 


XI. 908 


22 


13 


25 39.34 


a.0084 


13 54 51.0 


10.355 


23 


II 55 30.55 
TH 


X.8489 

VRSDA 


S. 5 4 55.9 
lY 10. 


11.894 


23 


13 


27 39.99 
SA 


a. 013a 
TURD^ 


S.14 5 10.7 

LY 12, 


10.301 


o 


II 57 ai.55 


X.8510 


S. 5 16 49.1 


XX. 879 





13 


29 40.92 


a.0179 


S.14 15 27.1 


10. 247 


I 


II 59 12.67 


Z.853X . 


5 28 41.4 


XX.864 


I 


13 


31 42.14 


3.0227 


14 25 40.3 


10.19a 


2 


12 I 3.9a 


x.855a 


5 40 32.8 


XX. 848 


2 


13 


33 43.65 


a. 0277 


14 35 50.1 


10.135 


3 


12 2 55.30 


X.8575 


5 52 23.2 


XX.83X 


3 


13 


35 45.46 


2.0336 


14 45 56.5 


10.078 


4 


12 4 46.82 


1.8597 


6 4 12.5 


xx.8ia 


4 


13 


37 47.56 


3.0376 


14 55 59.4 


X0.020 


5 


12 6 38.47 


X.862X 


6 16 0.7 


IX.794 


5 


13 


39 49.97 


3.0487 


15 5 58.9 


9.961 


6 


12 8 30.27 


X.8645 


6 27 47.8 


IX.776 


6 


13 


41 52.68 


a.0477 


15 15 54.7 


9.900 


7 


12 10 22.21 


X.8C69 


6 39 33.8 


11.757 


7 


13 


43 55.70 


3.0528 


15 25 46.9 


9.839 


8 


12 12 14.30 


X.8695 


6 51 18.6 


1X.736 


8 


13 


45 59.02 


3.0580 


15 35 35.4 


9.777 


9 


12 14 6.55 


1.8/iU 


7 3 2.1 


11.714 


9 


13 


48 2.66 


3.063a 


15 45 20.1 


9.713 


lO 


12 15 58.96 


1.8747 


7 14 44.3 


XX. 69a 


10 


13 


50 6.61 


a. 0685 


15 55 1.0 


9.649 


II 


12 17 51.52 


X.8773 


7 26 25.1 


XX.M8 


II 


13 


52 10.88 


a. 0738 


16 4 38.0 


9.584 


12 


12 19 44.24 


X.880X 


7 38 4.4 


11.644 


12 


13 


54 15.47 


2.079a 


16 14 II. I 


9.518 


13 


12 21 37-13 


X.8849 


7 49 42.4 


xx.6ax 


13 


13 


56 20.38 


a. 0846 


16 23 40.2 


9.451 


14 


12 23 30.19 


x.88s8 


8 I 18.9 


IX. 595 


14 


13 


58 25.62 


2.0900 


16 33 5.2 


9.382 


15 


12 25 23.43 


X.8888 


8 12 53.8 


XX.569 


15 


14 


31.18 


•a.0955 


16 42 26.0 


9.31a 


i6 


12 27 16.85 


X.89x8 


8 24 27.2 


XI. 543 


16 


14 


2 37.08 


a. loio 


16 51 42.7 


9.<4S 


17 


12 29 10.45 


1.8948 


8 35 59.0 


XX. 5x6 


17 


14 


4 43.30 


3.1065 


17 55.0 


9.170 


i8 


12 31 4.23 


X.8979 


8 47 29.1 


XX.487 


18 


14 


6 49.86 


a.ixaa 


17 10 3.1 


9.098 


19 


12 32 58.20 


X.901X 


8 58 57.4 


XI. 457 


19 


14 


8 56.76 


3.1X77 


17 19 6.8 


9.024 


20 


12 34 52.36 


X.9043 


9 10 24.0 


xx.4a8 


20 


14 


II 3.99 


a.i«3S 


17 28 6.0 


8.949 


21 


12 36 46.72 


X.9077 


9 21 48.8 


11.397 


21 


14 


13 11.56 


3.1391 


17 37 0.7 


8.874 


22 


12 38 41.28 


X.9ZX0 


9 33 11.7 


XI.S66 


22 


14 


15 19.48 


a. 1348 


17 45 50.9 


8.797 


23 


12 40 36.04 


Z.9143 


9 44 32.7 


XX.33S 


23 


14 


17 27.74 


2.1406 


X7 54 36.4 


8.7x8 


24 


12 42 31.00 


1.9178 


S. 9 55 51.7 


XX. 300 


24 


14 


19 36.35 


a. 1464 


S.18 3 17. I 


8.^ 

1 



VIII. 



AUGUST, 1899. 



135 



GREENWICH MEAN TIME. 



Hoar. 



THE MOON'S RIGHT ASCENSION AND DECLINATION. 



Right 
Asceusion. 



Diff. for 
I Minute. 



Declination. 





h 


m 


s 





M 


19 


36.35 


I 


14 


21 


45.31 


2 


14 


23 


54.62 


3 


14 


26 


4.28 


4 


14 


28 


14.29 


5 


H 


30 


24.66 


6 


14 


32 


35.38 


7 


14 


34 


46.47 


8 


14 


36 


57.91 


9 


14 


39 


9.71 


lO 


14 


41 


21.88 


II 


14 


43 


34.41 


12 


14 


45 


47.30 


13 


14 


48 


0.56 


14 


14 


50 


14.18 


15 


14 


52 


28.17 


i6 


14 


54 


42.53 


17 


14 


56 


57.25 


i8 


14 


59 


12.34 


19 


15 


I 


27.80 


20 


15 


3 


43.63 


21 


15 


5 


59.83 


22 


15 


8 


16.39 


23 


15 


xo 


33.32 



SUNDAY 13. 

8 • 

3.1464 S. 18 

3.1532 18 

3.I58I 18 

3.X639 18 

3.X698 18 

2.1757 18 

3.1817 18 

3.1877 19 

3.1937 19 

3.1997 19 

3.3058 19 

3.3II8 19 

2.2x79 19 

3.2340 19 

3.330X 19 

3.2362 20 

2.2423 20 

3.3484 20 

3.3546 20 

3.3608 20 

3.3669 20 

3.3730 20 

3.3791 20 

3.3853 S.20 



3 
II 

20 

28 

37 

45 

53 
I 

9 
17 
25 
33 
40 
48 

55 

3 
10 

17 
24 
31 



17. 1 

53.1 
24.2 

50.4 
II. 6 

27.8 

38.9 
44.8 

45.4 
40.7 

30.6 

15. 1 
54.0 

27.3 
55.0 
16.9 

33.1 

43-3 
47.6 

45-8 
38 38.0 
45 24.0 
52 3.8 
58 37.3 



MONDAY 14. 






15 12 


I 


15 15 


2 


15 17 


3 


15 19 


4 


15 22 


5 


15 24 


6 


15 26 


7 


15 29 


8 


15 31 


9 


15 33 


10 


15 36 


II 


15 38 


12 


15 40 


13 


15 43 


14 


15 45 


15 


15 47 


16 


15 50 


17 


15 52 


18 


15 55 


19 


15 57 


20 


15 59 


21 


16 2 


22 


16 4 


23 


16 7 


24 


16 9 



50.62 

8.29 

26.33 

44.73 
3.50 

22.63 
42.12 

1.98 

22.20 
42.78 

3.72 
25.01 

46.66 

8.67 

31.02 

53.73 

16.78 

40.18 

3.93 

28.01 

52.43 
17.19 

42.28 

7.70 

33-44 



3.3914 
3.397^ 
3.3037 
a. 3097 
3.3x58 
3.3318 
8.3379 

3.3340 
3.3400 
3.3460 
3.35x9 

3.3578 
2.3638 

2.3697 

a. 3755 
2.3813 

2,3871 
3.3929 
3.3986 
3.4043 
3.4098 

2.4154 
3.4309 

3.4263 
8.4317 



S.2I 
21 
21 
21 
21 
21 
21 
21 
21 
21 
22 
22 
22 
22 
22 
22 
22 
22 
22 
22 
22 
22 
22 

23 
S.23 



5 
II 

17 

23 
29 

35 
41 
47 
52 

58 

3 

8 

13 

18 

23 
28 

32 

37 

41 

45 

49 

53 

57 

I 

4 



4.3 
25.0 

39.1 
46.7 

47.6 

41.7 

29.1 

9.6 

43.1 

9.7 
29.1 

41.4 

46.5 

44.3 

34.7 
17.7 

53.2 
21.2 

41.5 
54.1 
59.0 
56.0 

45.1 
26.3 

59-4 



Diff. for 
X Minute. 



8.639 
8.559 

8.477 
8.395 

8.3x2 

8.227 

8.X42 

8.054 

7.966 

7.877 
7.787 

7.695 
7.602 
7.508 
7.413 

7.317 
7.220 

7.I2X 

7.021 
6.920 

6.818 
6.715 

6.6XX 
6.504 



6.397 
6.290 

6.x8x 
6.071 

5.958 
5.846 

5.73a 
3.6x7 
5.50X 

5.383 
5.264 

5.145 
5.024 
4.902 
4.778 
4.654 

4.529 
4.402 

4.274 
4.146 
4.0x6 
3.884 
3.752 
3.619 
3.485 



Honr. 



O 

I 
2 

3 

4 

5 
6 

7 
8 

9 
10 

II 

12 

13 

14 

15 
16 

17 

18 

19 
20 

21 

22 

23 



o 

X 

2 

3 
4 

5 

6 

7 
8 

9 
10 

II 

12 

13 

M 

15 
16 

17 
18 

19 
20 

21 

22 

23 
24 



Rif?ht 
Ascension. 



Diff. for 
x Minute. 



Declination. 



Diff. for 
X Minute. 



TUESDAY 15. 



h 

16 
16 
16 
16 
16 
16 
16 
16 
16 
16 
16 
16 
16 
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 

17 

17 

17 

17 

17 

17 
18 

18 

18 

18 

18 



m 

9 
II 

14 
16 

19 
21 

24 

26 

29 
31 
34 
36 

39 

41 

44 
46 

49 
51 
54 
56 

59 
I 

4 
6 



9 
II 

14 
16 

19 
22 

24 

27 

29 
32 

34 
37 
40 
42 
45 
47 
50 
52 

55 

58 

o 

3 

5 

8 

II 



■ 

33.44 

59.51 
25.89 

52.59 
19.60 

46.92 

14.55 
42.48 

10.70 

39.21 
8.01 

37.10 
6.46 

36.09 

5.99 
36.16 

6.58 

37.26 

8.18 

39.34 
10.75 

42.38 
14.23 

46.30 



■ 
8.4317 

8.4371 
3.4433 

3.4476 
a.4527 
2.4579 
3.4630 
3.4679 
3.4737 
2.4776 
3.4834 

a.4871 
3.49x6 

3.496X 
3.5006 

2.5049 
3.5092 

3.5133 
2.5173 
2.52x4 
2.5253 
3.5390 
2.5327 
3.5363 



S.23 

23 
23 



4 

8 

II 



23 14 

23 17 
23 20 

23 23 

23 26 

23 28 

23 30 

23 32 

23 34 
23 36 

23 38 

23 40 

23 41 

23 42 

23 43 
23 44 

23 45 
23 46 
23 46 

23 47 
S.23 47 



59.4 

24.5 

41.3 
50.0 

50.4 

42.5 
26.2 

1.4 

28.1 
46.2 

55.7 
56.6 

48.6 

31.9 
6.4 

31.9 

48.5 
56.1 

54.7 
44.2 

24.5 
55-6 
17.6 
30.2 



WEDNESDAY 16. 



18.59 
51.09 

23.78 
56.67 

29.75 
3.01 

36.45 
10.06 

43.83 
17.76 

51.84 

26.06 

0.41 

34.90 

9.51 

44.23 

19.07 

54.01 

29.04 

4.16 

39-37 
14.65 
49.99 

25.40 
0.87 



3.485 
3.349 
3.213 
3.076 

2.937 
2.798 

2.657 
8.5x6 

2.373 
2.230 
3.087 

1.941 
1.794 
X.648 

X.500 
X.351 

X.302 
X.052 
0.901 
0.748 
0.595 
0.442 
0.288 
-0.133 



a. 5399 


S.23 


47 


33.6 


+ 0.033 


8.543a 


23 


47 


27.6 


0.177 


a. 5465 


23 


47 


12.3 


0.334 


a.5497 


23 


46 


47.5 


0.493 


t.5528 


23 


46 


13-2 


0.650 


a. 5558 


23 


45 


29.5 


0.808 


2.5587 


23 


44 


36.3 


0.967 


3.56x5 


23 


43 


33-5 


X.137 


3. 5642 


23 


42 


21. 1 


X.286 


a. 5667 


23 


40 


59.2 


1.446 


3.5692 


23 


39 


27.6 


X.607 


a. 5714 


23 


37 


46.4 


1.767 


a. 5737 


23 


35 


55.5 


1-929 


a. 5758 


23 


33 


54.9 


2.090 


a. 5777 


23 


31 


44.7 


2.252 


a. 5797 


23 


29 


24.7 


3.4x4 


2.5815 


23 


26 


55.0 


a. 577 


a. 5831 


23 


24 


15.5 


a. 739 


3.5846 


23 


21 


26.3 


2.902 


3.5861 


23 


18 


27.3 


3.064 


3.5874 


23 


15 


18.6 


3.237 


3.5885 


23 


12 


0.1 


3.390 


2.5896 


23 


8 


31.8 


3.S5a 


2.5907 


23 


4 


53.8 


3.7x3 


3.5915 


S.23 


I 


6.0 


3.878 



136 



AUGUST, 1899. 



IX. 













GREENWICH 


MEAN TIME 


















THE MOON'S 


RIGHT ASCENSION AND DECLINATION. 








Hour. 




Right 


Diltfor 


DecliaAtion. 


DifL for 


Hoar. 




Right 


Diff.for 


Declination. 


DifE.flbr 




Ascensioa 


X Minnto. 






X Minute. 




Aacension. 


X Minute. 








z Minute. 








TK 


[URSDi 


vr 17. 








SATURDAY 19, 








h 


m 


■ 


■ 


• 


V 


m 




h 


m • 


■ 


• 


9 


m 


m 





i8 


11 


0.87 


3.591S 


S.23 


I 6.0 


3.878 





20 


14 24.97 


a. 5174 


S.16 


55 


56.9 


ZX.009 


I 


i8 


13 


36.38 


S.S923 


22 


57 8.4 


4.042 


I 


20 


16 55.92 


3.5142 


16 


44 


52.7 


11.131 


2 


i8 


x6 


11.93 


a. 59^8 


22 


53 1.0 


4.ao4 


2 


20 


19 26.67 


8.5108 


16 


33 


41.2 


11.831 


3 


i8 


i8 


47.52 


a.SQSS 


22 


48 43.9 


4.367 


3 


20 


21 57.22 


3.5076 


16 


22 


22.6 


IX.369 


4 


i8 


21 


23.13 


a. 5937 


22 


44 I7-0 


4.339 


4 


20 


24 27.58 


3. 5043 


16 


10 


56.9 


IX.487 


5 


i8 


23 


58.76 


a. 5940 


22 


39 40.4 


4.693 


5 


20 


26 57.73 


8.3008 


15 


59 


24.2 


XX.603 


6 


i8 


26 


34.41 


«.594a 


22 


34 54.0 


4.853 


6 


20 


29 27.68 


a. 4974 


15 


47 


44.6 


11.717 


7 


i8 


29 


10.06 


a. 594a 


22 


29 58.0 


5.0x5 


7 


20 


31 57.42 


a. 4939 


15 


35 


58.2 


11. 838 


8 


i8 


31 


45.71 


a. 594a 


22 


24 52.2 


5.177 


8 


20 


34 26.95 


a.4905 


15 


24 


5.2 


11.939 


9 


i8 


34 


21.36 


a. 59*1 


22 


19 36.8 


5.337 


9 


20 


36 56.28 


3.4871 


15 


12 


5.5 


13.048 


lO 


i8 


36 


57.00 


a. 5938 


22 


14 11.7 


5.498 


10 


20 


39 25.40 


a. 4836 


14 


59 


59.4 


13.155 


II 


i8 


39 


32.62 


a. 3934 


22 


8 37.0 


5.658 


II 


20 


41 54.31 


3.4800 


14 


47 


46.9 


13.261 


12 


i8 


42 


8.21 


8.59a9 


22 


2 52.7 


3. 818 


12 


20 


44 23.00 


3.4765 


14 


35 


28.1 


18. 365 


13 


i8 


44 43.77 


«.59«3 


21 


56 58.8 


5.977 


13 


20 


46 51.49 


a. 4730 


14 


23 


3.1 


X8.467 


14 


i8 


47 


19.29 


a. 3916 


21 


50 55.4 


6.136 


H 


20 


49 19.76 


a. 4694 


14 


10 


32.1 


13. 567 


15 


i8 


49 


54.76 


a. 5907 


21 


44 42.5 


6.394 


15 


20 


51 47.82 


8.4658 


13 


57 


55.1 


13.666 


i6 


i8 


52 


30.18 


a. 5898 


21 


38 20.1 


6.452 


16 


20 


54 15.66 


3. 4633 


13 


45 


12.2 


13.763 


17 


i8 


55 


5.54 


a. 3888 


21 


31 48.2 


6.610 


17 


20 


56 43.29 


a.4587 


13 


32 


23.6 


12.857 


i8 


i8 


57 


40.84 


a. 5877 


21 


25 6.9 


6.766 


18 


20 


59 10.71 


8.4553 


13 


19 


29.3 


12.951 


19 


19 





16.07 


a. 5866 


21 


18 16.3 


6.933 


19 


21 


I 37.91 


a.4515 


13 


6 


29.5 


13.043 


20 


19 


2 


51.23 


a. 5853 


21 


II 16.3 


7.077 


20 


21 


4 4.89 


a. 4479 


12 


53 


24.2 


13.13a 


21 


19 


5 


26.31 


a. 5839 


21 


4 7.0 


7.232 


21 


21 


6 31.66 


a. 4444 


12 


40 


13.7 


13.319 


22 


19 


8 


1.30 


a. 5834 


20 


56 48.5 


7.385 


22 


21 


8 58.22 


a. 4408 


12 


26 


57.9 


13.306 


23 


19 


10 


36.20 
F 


3.3808 
•RIDAY 


S.20 
18. 


49 20.8 


7.537 


23 


21 


II 24.56 
S 


a.437a 
UNDA^ 


S.I2 
' 20. 


13 


37.0 


13.390 


O 


19 


13 


11.00 


S.3799 


S.20 


41 44.0 


7.689 





21 


13 50.69 


a.4337 


S.I2 





II. I 


»3.47a 


I 


19 


15 


45.70 


a. 3774 


20 


33 58.1 


7.841 


I 


21 


16 16.61 


a. 430a 


II 


46 


40.4 


13.553 


2 


19 


18 


20.29 


a. 5756 


20 


26 3.1 


7.991 


2 


21 


18 42.31 


8.4367 


II 


33 


4.9 


13.630 


3 


19 


20 


54.77 


a. 5737 


20 


17 59-2 


8.Z40 


3 


21 


21 7.81 


8.4838 


II 


19 


24.8 


13.707 


4 


19 


23 


29.13 


a. 5717 


20 


9 46.3 


8.388 


4 


21 


23 33.09 


a.4196 


II 


5 


40.1 


13.783 


5 


19 


26 


3.37 


a. 5696 


20 


I 24.6 


8.435 


5 


21 


25 58.16 


a. 4 168 


10 


51 


51.0 


13.854 


6 


19 


28 


37.48 


a. 5674 


19 


52 54.1 


8.583 


6 


21 


28 23.03 


3.4137 


10 


37 


57.6 


13.925 


7 


19 


31 


11.46 


a. 365a 


19 


44 14.8 


8.737 


7 


21 


30 47.69 


3.4093 


lO 


24 


0.0 


>«.994 


8 


19 


33 


45.30 


a. 5638 


19 


35 26.8 


8.873 


8 


21 


33 12.14 


a.4057 


10 


9 


58.3 


14.063 


9 


19 


36 


19.00 


a. 5603 


19 


26 30.2 


9.015 


9 


21 


35 36.38 


2.4023 


9 


55 


52.6 


14.137 


lO 


19 


38 52.56 


a. 5580 


19 


17 25.0 


9.J57 


10 


21 


38 0.42 


8.3990 


9 


41 


43- X 


14.189 


II 


19 


41 


25.96 


a. 3354 


19 


8 II. 4 


9.397 


II 


21 


40 24.26 


a. 3956 


9 


27 


29.9 


14.350 


12 


19 


43 


59.21 


a. 55*9 


18 


58 49.4 


9.437 


12 


21 


42 47.89 


3.3923 


9 


13 


13. X 


14.309 


13 


19 


46 


32.31 


3.5503 


18 


49 19.0 


9.575 


13 


21 


45 ".33 


3.3890 


8 


58 


52.8 


M.S67 


14 


19 


49 


5.24 


a. 5475 


18 


39 40.4 


9.71a 


14 


21 


47 34.57 


a. 3857 


8 


44 


29.1 


14.433 


15 


19 


51 


38.01 


a. 5447 


18 


29 53-6 


9.848 


15 


21 


49 57.62 


a. 3835 


8 


30 


2.1 


14.476 


i6 


19 


54 


10.61 


a. 5419 


18 


19 58.6 


9.983 


16 


21 


52 20.47 


a. 379a 


8 


15 


32.0 


14.538 


17 


19 


56 


43.04 


a. 5390 


18 


9 55.6 


X0.116 


17 


21 


54 43.13 


3.3761 


8 





58.8 


M.577 


i8 


19 


59 


15.29 


a. 5361 


17 


59 44-7 


10.347 


18 


21 


57 5.60 


a. 3729 


7 46 


22.8 


14.634 


19 


20 


X 


47.37 


a. 5331 


17 


49 25.9 


10.377 


19 


21 


59 27.88 


3.3698 


7 


31 


43.9 


14.671 


20 


20 


4 


19.26 


a. 5300 


17 


38 59.4 


10.507 


20 


22 


I 49.98 


2.3667 


7 


17 


2.3 


14.714 


21 


20 


6 


50.97 


8.5369 


17 


28 25.1 


10.635 


21 


22 


4 11.89 


a. 3637 


7 


2 


18.2 


M.755 


22 


20 


9 


22.49 


3.5338 


17 


17 43.2 


10. 762 


22 


22 


6 33.62 


3.3607 


6 


47 


31.7 


H.795 


23 


20 


II 


53.83 


a. 5207 


17 


6 53.8 


10.886 


23 


22 


8 55.17 


a. 3577 


6 


32 


42.8 


14.834 


24 


20 


14 


24.97 


2.5174 


S.16 


55 56.9 


zt.009 


24 


22 


II 16.54 


a. 3547 


S. 6 


17 


51.6 


14.87Q ' 

} 



X 



AUGUST, 1899. 



137 













GREENWICH 


MEAN TIME. 














THE MOON'S 


. RIGHT 


ASCENSION AND DECLINATION. 




Hoor. 




RiRht 


DiflF. for 


Declination. 


Diff. for 


Hour. 


Right 


Diff. for 


Declinatioxi. 


Diff. for 


( 


Ascension. 


X Minute. 








I Minute. 




Ascension. 


I Minute. 




I Minute. 








M 


ONDA1 


I 21. 










WEDNESDAY 23. 






b 


m 


■ 


8 


• 


* 


• 


m 




h m ■ 


■ 


• m 


m 


O 


22 


II 


16.54 


«.3547 


S. 6 


17 


51.6 


Z4.870 





I 48.16 


«.a694 


N. 5 41 40.2 


14.431 


X 


22 


13 


37.74 


a. 35 19 


6 


2 


58.4 


14.903 


X 


4 4.31 


2.3688 


5 56 4.6 


14.381 


2 


22 


15 


58.77 


a.349X 


5 


48 


3.2 


X4'93S 


2 


6 20.42 


2.368a 


6 10 25.9 


14.338 


3 


22 


i8 


19.63 


a. 346a 


5 


33 


6.2 


14.965 


3 


8 36.50 


a.2677 


6 24 44.0 


X4.375 


4 


22 


20 


40.32 


2.3434 


5 


18 


7.4 


X4.994 


4 


10 52.55 


a.a673 


6 38 58.9 


Z4.83X 


5 


22 


23 


0.84 


2.3407 


5 


3 


6.9 


Z5.oao 


5 


13 8.58 


3*3670 


6 53 10.5 


I4.X65 


6 


22 


25 


21.21 


3.338X 


4 


48 


5.0 


15.044 


6 


15 24.59 


S.3666 


7 7 18.7 


14.107 


7 


22 


27 


41.41 


a. 3354 


4 


33 


1.6 


15.067 


7 


17 40.57 


3.3663 


7 21 23.4 


14.048 


8 


22 


30 


1.46 


a. 3328 


4 


17 


56.9 


15.087 


8 


19 56.54 


3.3660 


7 35 24. 5 


13.987 


9 


22 


32 


21.35 


2.330a 


4 


2 


5I-I 


15.106 


9 


22 12.49 


a. 3657 


7 49 21.9 


13.936 


lO 


22 


34 


41.09 


2.3277 


3 


47 


44.2 


15.123 


10 


24 28.43 


8.3656 


8 3 15.6 


13.863 


II 


22 


37 


0.68 


2.335a 


3 


32 


36.4 


15.137 


II 


26 44.36 


a. 3654 


8 17 5.5 


13.798 


12 


22 


39 


20.12 


a. 3328 


3 


17 


27.7 


15.151 


12 


29 0.28 


8.3653 


8 30 51.4 


13.73a 


13 


22 


41 


39-42 


a. 3205 


3 


2 


18.3 


15.161 


13 


31 16.19 


8.8653 


8 44 33.4 


X3.665 


14 


22 


43 


58.58 


a. 3x83 


2 


47 


8.4 


15.170 


14 


33 32.10 


8. 3653 


8 58 II. 2 


13.596 


15 


22 


46 


17.61 


a.3161 


2 


31 


57.9 


15.177 


15 


35 48.01 


8.3653 


9 II 44-9 


13.527 


i6 


22 


48 36.51 


3.3138 


2 


16 


47.1 


15. 183 


16 


38 3.92 


8.865a 


9 25 14.4 


13.456 


17 


22 


50 


55.27 


3.3116 


2 


I 


36.0 


15. 187 


17 


40 19.84 


8.3653 


9 38 39.6 


13.384 


i8 


22 


53 


13.90 


3.3095 


I 


46 


24.7 


15.188 


18 


42 35.76 


a. 3653 


9 52 0.5 


13.311 


19 


22 


55 


32.41 


2.3074 


I 


31 


13-4 


15.188 


19 


44 51.68 


a. 3654 


xo 5 16.9 


13.335 


20 


22 


57 


50-79 


2.3054 


I 


16 


2.1 


15.187 


20 


47 7.61 


8.8657 


10 18 28.7 


13.158 


21 


23 





9.06 


2.3035 


I 





51.0 


15.183 


21 


49 23.56 


3.3659 


10 31 35-9 


X3.0S3 


22 


23 


2 


27.21 


a. 301 5 





45 


40.2 


15.177 


22 


51 39.52 


8.3661 


10 44 38.5 


13.003 


23 


23 


4 


45.24 

Tl 


2.2997 
JESDA 


S. 
Y 22. 


30 


29.8 


15.170 


23 


53 55.49 
TH 


8.8663 

URSD/ 


N.io 57 36.3 
LY 24. 


12.923 


O 


23 


7 


3-17 


3.3979 


S. 


15 


19.8 


15.161 





56 11.48 


8.2667 


N.I I 10 29.3 


12.842 


I 


23 


9 


20.99 


3.2961 


S. 





10.5 


15. 149 


I 


58 27.49 


3.3670 


11 23 17.4 


X2.761 


2 


23 


II 


38.70 


2.2944 


N. 


14 


58.1 


15.137 


2 


I 43.52 


8.3673 


II 36 0.6 


12.677 


3 


23 


13 


56.32 


3.3927 





30 


5.9 


15. 123 


3 


X 2 59.57 


2.2677 


II 48 38.7 


12.592 


4 


23 


16 


13.83 


3.291Z 





45 


12.8 


15.XO6 


4 


I 5 15.64 


8.a68x 


12 I II. 7 


12.507 


5 


23 


18 


31.25 


3.3896 


I 





18.6 


15.087 


5 


I 7 31.74 


3.3686 


12 13 39.6 


13.433 


6 


23 


20 


48.58 


3.288Z 


I 


15 


23.3 


Zj.068 


6 


I 9 47.87 


8.3690 


12 26 2.3 


12.3?4 


7 


23 


23 


5-82 


a. 2866 


I 


30 


26.8 


15.047 


7 


I 12 4.02 


8.3694 


12 38 19.7 


X8.346 


8 


23 


25 


22 97 


2.2853 


I 


45 


28.9 


15.033 


8 


I 14 20.20 


8.3700 


12 50 31.8 


18. 156 


9 


23 


27 


40.04 


3.2838 


2 





29.6 


14.999 


9 


I 16 36.42 


8.3705 


13 2 38.4 


Xa.065 


lO 


23 


29 


57.03 


3.3825 


2 


15 


28.8 


14.973 


10 


I 18 52.66 


8.37x0 


13 14 39.6 


".973 


II 


23 


32 


13-94 


a.a8i2 


2 


30 


26.3 


14.944 


II 


I 21 8.94 


8.37x7 


13 26 35.2 


XX.880 


12 


23 


34 


30.78 


2.2801 


2 


45 


22.1 


14.914 


12 


I 23 25.26 


8.3733 


13 38 25.2 


11.787 


13 


23 


36 


47-55 


3.2789 


3 





16.0 


14-883 


13 


I 25 41.61 


8.8738 


13 50 9.6 


XX. 693 


14 


23 


39 


4.25 


2.2777 


3 


15 


8.0 


14.850 


14 


I 27 58.00 


8.3734 


14 I 48.2 


11.596 


15 


23 


41 


20.88 


2.2767 


3 


29 


58.0 


14.815 


15 


I 30 14.42 


8.3740 


14 13 21. I 


XX. 500 


i6 


23 


43 


37.45 


2.2757 


3 


44 


45-8 


14.778 


16 


I 32 30.88 


8.8747 


14 24 48.2 


IX. 40a 


17 


23 


45 


53.97 


2.2748 


3 


59 


31.4 


14-741 


17 


I 34 47-38 


8.8754 


14 36 9.3 


XX. 303 1 


i8 


23 


48 


10.43 


2.2738 


4 


14 


14.7 


14.701 


18 


I 37 3.93 


3.376X 


14 47 24.6 


ZI.304 


19 


23 


50 


26.83 


3. 2729 


4 


28 


55-5 


14.659 


19 


I 39 20.51 


a. 3767 


14 58 33.8 


XX.X03 


20 


23 


52 


43.18 


2.2722 


4 43 


33.8 


14.617 


20 


I 41 37.13 


8.3774 


15 9 37.0 


IX. 003 


21 


23 


54 


59-49 


2.2715 


4 


58 


9.6 


14.573 


21 


I 43 53.80 


3.3781 


15 20 34.1 


10.900 1 


22 


23 


57 


15.76 


2.2707 


5 


12 


42.6 


14.527 


22 


I 46 10.50 


3.3788 


15 31 25.0 


10.797 1 


23 


23 


59 


31.98 


3.2700 


5 


27 


12.9 


14.480 


23 


I 48 27.25 


3.2796 


15 42 9.7 


10.693 


24 

1 


o 


I 


48.16 


t.3694 


N. 5 


41 


40.2 


14.431 


24 


1 50 44.05 


3.3803 


N.15 52 48.2 


X0.589 

1 



138 



AUGUST, 1899. 



XL 











GREENWICH 


MEAN 


TIME. 
















THE MOON'S 


RIGHT 


ASCENSION AND DECLINATION. 








Honr. 


RiRbt 


Diif. for 


DechnadoiL 


DiflE. for 


Honr. 




Right 


Diif. for 


DecHnadon. 


Diif for 




Ascensioa 


X Minute. 








X Minute. 




Ascensica 


X Minate. 








X Minute. 






I 


'RIDAT^ 


'25. 












SUNDAY 


'27. 










h m 


■ 




• 


1 


• 1 


m 




h 


m ■ 


8 


e 


# 


m 


m 


O 


I 50 


44.05 


8.a8Q3 


N.15 


52 48.2 


XO.589 





3 


40 51.59 


2.3002 


N.22 


8 


27.4 


4.886 


I 


I 53 


0.89 


a.aSio 


16 


3 


20.4 


XO.483 


I 


3 


43 9.59 


2.2999 


22 


13 


16.7 


4.758 


2 


I 55 


17.77 


a. 2817 


16 


13 


46.2 


XO.377 


2 


3 


45 27.58 


8.2996 


22 


17 


58.4 


4.632 


3 


I 57 


34-69 


S.2824 


16 


24 


5.7 


10.371 


3 


3 


47 45.54 


2.2992 


22 


22 


32.5 


4.504 


4 


I 59 


51-66 


8.383a 


16 


34 


18.7 


zo. 163 


4 


3 


50 3.48 


8.3987 


22 


26 


58.9 


4.376 


5 


2 2 


8.67 


2.3838 


16 


44 


25.2 


XO.O54 


5 


3 


52 21.39 


8.3983 


22 


31 


17.6 


4.248 


6 


^ 4 


25.72 


3.2846 


16 


54 


25.2 


9.946 


6 


3 


54 39.27 


3.2977 


22 


35 


28.7 


4.I2X 


7 


2 6 


42.82 


3.3853 


17 


4 


18.7 


9.836 


7 


3 


56 57.12 


3.2973 


22 


39 


32.1 


3.993 


8 


2 8 


59-96 


3.366X 


17 


M 


5.5 


9.724 


8 


3 


59 14.94 


3.2966 


22 


43 


27.8 


3.865 


9 


2 II 


17.15 


3.3868 


17 


23 


45-6 


9. 61 8 


9 


4 


I 32.71 


2.29:9 


22 


47 


15.9 


3.737 


10 


2 13 


34-38 


2.3875 


17 


33 


19.0 


9.5OX 


10 


4 


3 50.45 


8.2952 


22 


50 


56.3 


3'6zo 


II 


2 15 


51.65 


3.3883 


17 


42 45.7 


9.388 


II 


4 


6 8.14 


3.3945 


22 


54 


29.1 


5.488 


12 


2 i8 


8.96 


3.3889 


17 


52 


5.6 


9.273 


12 


4 


8 25.79 


3.3937 


22 


57 


54.2 


3.354 


13 


2 20 


26.32 


8. 3896 


18 


I 


18.7 


9.163 


13 


4 


10 43.39 


3.3938 


23 


I 


II. 6 


3.237 


14 


2 22 


43-71 


3*3903 


18 


10 


25.0 


9.047 


14 


4 


13 0.93 


3.2919 


23 


4 


21.4 


3.099 


15 


2 25 


1.15 


3.3910 


18 


19 


24.3 


8.931 


15 


4 


15 18.42 


8.3910 


23 


7 


23- 5 


8.972 


i6 


2 27 


18.63 


3.3917 


18 


28 


16.7 


8.816 


16 


4 


17 3585 


8.2900 


23 


10 


18.0 


8.844 


17 


2 29 


36.15 


3.2923 


18 


37 


2.2 


8.700 


17 


4 


19 53.22 


2.S89O 


23 


13 


4.8 


8.717 


i8 


2 31 


53-71 


8. 3929 


18 


45 


40.7 


8.583 


18 


4 


22 10.53 


8.2879 


23 


15 


44.0 


2.590 


19 


2 34 


11.30 


8.3935 


18 


54 


12. 1 


8.465 


19 


4 


24 27.77 


8.3867 


23 


18 


15.6 


a. 463 


20 


2 36 


28.93 


8.394Z 


19 


2 


36.5 


8.347 


20 


4 


26 44.94 


8.2856 


23 


20 


39.6 


a-336 


21 


2 38 46.59 


3.3947 


19 


10 


53.8 


8.328 


21 


4 


29 2.04 


8.3843 


23 


22 


55.9 


8.308 


22 


2 41 


4.29 


3.3953 


19 


19 


3.9 


8.XO9 


22 


4 


31 19.06 


3.2830 


23 


25 


4.6 


8.088 


23 


2 43 


22.03 
SA 


3.3958 
TURD/ 


N.19 

lY 26 


27 


6.9 


7.990 


23 


4 


33 36.00 
M 


3.3817 

ONDA\ 


N.23 

r 28. 


27 


5.7 


1.956 


O 


2 45 


39-79 


8.3963 


N.19 


35 


2.7 


7.870 





4 35 52.86 


8.3803 


N.23 


28 


59.3 


1.830 1 


I 


2 47 


57-59 


3.3968 


19 


42 


51.3 


7.750 


I 


4 


38 9.64 


3.2788 


23 


30 


45.3 


1.703 1 


2 


2 50 


15.41 


8.2973 


19 


50 


32.7 


7.629 


2 


4 


40 26.32 


8.2773 


23 


32 


23.7 


».577 


3 


2 52 


33.27 


3.3978 


19 


58 


6.8 


7.507 


3 


4 


42 42.92 


3.2759 


23 


33 


54-5 


1.451 


4 


2 54 


51.15 


8.3983 


20 


5 


33.6 


7.386 


4 


4 


44 59.43 


2.2743 


23 


35 


17.8 


X.326 


5 


2 57 


9.05 


3.8986 


20 


12 


53.1 


7.364 


5 


4 


47 15.83 


3.3736 


23 


36 


33-6 


X.200 


6 


2 59 


26.98 


8.3990 


20 


20 


5.3 


7.142 


6 


4 49 32.14 


3.27x0 


23 


37 


41.8 


«.o75 , 


7 


3 I 


44-93 


a. 8993 


20 


27 


10. 1 


7.0x8 


7 


4 


51 48.35 


3.3693 


23 


38 


42.6 


0.951 


8 


3 4 


2.90 


8.3997 


20 


34 


7.5 


6.895 


8 


4 


54 4.45 


8.3674 


23 


39 


35.9 


0.826 


9 


3 6 


20.89 


8.3000 


20 


40 


57.5 


6.772 


9 


4 


56 20.44 


8.3656 


23 


40 


21.7 


0.701 


lO 


3 8 


38.90 


8.3003 


20 


47 


40.1 


6.647 


10 


4 


58 36.32 


8.3637 


23 


41 


0.0 


0.577 


II 


3 10 


56.92 


3.3004 


20 


54 


15.2 


6.523 


II 


5 


52.09 


3.86x8 


23 


41 


30.9 


0.453 


12 


3 13 


14-95 


3.3007 


21 





42.9 


6.399 


12 


5 


3 7.74 


8.3598 


23 


41 


54.4 


0.330 


13 


3 15 


33.00 


3.3008 


21 


7 


3.1 


6.274 


13 


5 


5 23.27 


8.2578 


23 


42 


10.5 


0.207 


H 


3 17 


51.05 


8.3009 


21 


13 


15.8 


6.149 


14 


5 


7 38.68 


2.2557 


23 


42 


19.2 


+ 0.084 


15 


3 20 


9. 1 1 


8.3011 


21 


19 


21.0 


6.024 


15 


5 


9 53.96 


«.2537 


23 


42 


20.6 


- 0.038 


i6 


3 22 


27.18 


8.301X 


21 


25 


18.7 


5.898 


16 


5 


12 9.12 


2.2515 


23 


42 


14.6 


o.t6i 


17 


3 24 


45.24 


8.301X 


21 


31 


8.8 


5.772 


17 


5 


14 24.14 


8.8492 


23 


42 


1.3 


0.282 


i8 


3 27 


3-31 


8.3018 


21 


36 


51.4 


5.647 


18 


5 


16 39.03 


2.3470 


23 


41 


40.7 


0.403 


19 


3 29 


21.38 


8.301X 


21 


42 


26.4 


5.520 


19 


5 


18 53.78 


3.2447 


23 


41 


12.9 


0.524 


20 


3 31 


39.44 


8.3009 


21 


47 


53.8 


5.393 


20 


5 


21 8.40 


2.2424 


23 


40 


37.8 


0.645 


21 


3 33 


57-49 


8.3008 


21 


53 


13.6 


5.867 


21 


5 


23 22.87 


8.2400 


23 


39 


55.5 


0.765 


22 


3 36 


15-54 


3.3007 


21 


58 


25.8 


5.140 


22 


5 


25 37.20 


8.3376 


23 


39 


6.0 


0.883 


23 


3 38 


33-57 


3.3004 


22 


3 


30.4 


5.013 


23 


5 


27 51.38 


8.2351 


. ^3 


38 


9.3 


X.004 


24 


3 40 


51.59 


3.3002 


N.22 

1 


8 


27.4 


4.886 


24 


5 30 5.41 


3.3326 


N.23 


37 


5.5 


1. 122 



XII. 



AUGUST, 1899. 



139 











GREENWICH 


MEAN TIME. 














THE MOON'S RIGHT 


ASCENSION AND DECLINATION. 






Hour. 




Wgbt 


Diff. for 


Declination. 


Diff. for 


Hour. 


Right 


Diff. for 


Declination. 


Diff. for 




Ascension. 


z Minute. 




X Minute. 




Ascension. 


X Minute. 






1 Minute. 






Ti 


JESDA 


V 29. 






THURSDAY 31. 






h 


m ■ 


s 


t It 


m 




h m ■ 


8 


e 


* m 


m 


O 


5 


30 5.41 


a. 9336 


N.23 37 5-5 


Z.I22 





7 13 43.81 


2.0771 


N.20 


36 9.5 


6.187 


I 


5 


32 19.29 


S.330X 


23 35 54-6 


1.241 


I 


7 15 48.33 


2.0735 


20 


29 55.6 


6.877 


2 


5 


34 33-02 


8.2874 


23 34 36.6 


1.359 


2 


7 17 52.63 


2.0696 


20 


23 36.3 


6.367 


3 


5 


36 46.58 


2. 2248 


23 33 "-5 


J.477 


3 


7 19 56.71 


2.0662 


20 


17 II. 6 


6.455 


4 


5 


38 59-99 


2.2222 


23 31 39.3 


X.594 


4 


7 22 0.58 


2.0627 


20 


10 41.7 


6.543 


5 


5 


41 13-24 


a.2194 


23 30 0.2 


1.710 


5 


7 24 4-23 


2.0590 


20 


4 6.5 


6.631 


6 


5 


43 26.32 


2.2166 


23 28 14. 1 


X.827 


6 


7 26 7.66 


a.0554 


19 


57 26.0 


6.7x7 


7 


5 


45 39-23 


2.2x38 


23 26 21.0 


X.942 


7 


7 28 10.88 


2.05x8 


19 


50 40.4 


6.8o2 


8 


5 


47 51-98 


2.21X0 


23 24 21.0 


2.057 


8 


7 30 13.88 


2.0482 


19 


43 49-7 


6.887 


9 


5 


50 4-55 


2.908z 


23 22 14. 1 


2.172 


9 


7 32 16.67 


a. 0447 


19 


36 53-9 


6.972 


lO 


5 


52 16.95 


2.2052 


23 20 0.3 


2.287 


10 


7 34 19-24 


2.04XX 


19 


29 53.1 


7.056 


II 


5 


54 29.18 


a. 2023 


23 17 39-7 


a.399 


II 


7 36 21.60 


2.0376 


19 


22 47 2 


7*139 


12 


5 


56 41.23 


a.Z993 


23 15 12.4 


2.512 


12 


7 38 23.75 


2.0340 


19 


15 36.4 


7.221 


13 


5 


58 53.10 


2.1963 


23 12 38.2 


2.626 


13 


7 40 25.68 


2.0304 


19 


8 20.7 


7.302 


14 


6 


I 4.79 


2.1933 


23 9 57-3 


2.737 


14 


7 42 27.40 


2.0269 


19 


I 0.1 


7.384 


15 


6 


3 16.30 


2.1902 


23 7 9-7 


2.849 


15 


7 44 28.91 


8.0233 


18 


53 34.6 


7.465 


i6 


6 


5 27.62 


2. 1871 


23 4 15-4 


2.960 


16 


7 46 30.20 


2.0198 


18 


46 4-3 


7.544 


17 


6 


7 38.75 


2. Z84O 


23 I 14.5 


3.070 


17 


7 48 31-29 


2.0x63 


18 


38 29.3 


7.623 


i8 


6 


9 49-70 


2.1809 


22 58 7.0 


3.X80 


18 


7 50 32.16 


2.0x28 


18 


30 49-6 


7.701 


1 '9 


6 


12 0.46 


a. 1777 


22 54 52.9 


3.290 


19 


7 52 32.83 


2.0094 


18 


23 5-2 


7.777 


20 


6 


14 11.02 


a. 1744 


22 51 32.2 


3.398 


20 


7 54 33- 29 


2.0059 


18 


15 16.3 


7.854 


21 


6 


16 21.39 


2. 17x2 


22 48 5.1 


3.506 


21 


7 56 33-54 


2.0025 


18 


7 22.7 


7.93X 


1 22 


6 


18 31-57 


8.Z680 


22 44 31.5 


3.614 


22 


7 58 33-59 


1.999a 


17 


59 24.6 


8.006 


23 


6 


20 41.55 


2.1647 


N.22 40 51.4 


3.781 


23 


8 33.44 


X.9957 


N.I7 


51 22.0 


8.081 






WE 


DNESD 


AY 30. 






FRIDAY 


\ SEPT 


EMBER I. 




o 
I 


6 

6 


22 51.33 
25 0.91 


2. X613 
2.1580 


N.22 37 5.0 
22 33 12.2 


3.827 
3.932 





8 2 33.08 


x.99a3 


N.17 


43 14.9 


8. 155 














2 


6 


27 10.29 


a. 1547 


22 29 13. 1 


4.P37 














3 


6 


29 19-47 


8.15x3 


22 25 7.7 


4.148 














4 


6 


31 28.45 


8.1479 


22 20 56.0 


4.846 














1 5 


6 


33 37-22 


2.1444 


22 16 38.2 


4.349 




PHASES 


OF Tl 


iE MOON. 




■ 6 
1 7 


6 
6 


35 45-78 
37 54.14 


2. 14Z0 
a. 1376 


22 12 14. 1 
22 7 43.9 


4.45a 
4.554 


























8 


6 


40 2. 29 


a.x34X 


22 3 7.6 


4.655 










d 


h m 


9 


6 


42 10.23 


2.1306 


21 58 25.3 


4.756 





New Moon 


. • • 


• Aug. 5 23 47.9 1 


lO 


6 


44 17-96 


2.Z271 


21 53 36.9 


4.856 


D 


First Qiiarte 


r • • 


• . 


. 13 2.^ 54.1 1 


II 

12 


6 
6 


46 25.48 
48 32.79 


2. 1236 
2.120X 


21 48 42.6 

21 43 42.3 


4.955 
5.054 





Full Moon 


• • • 


• • 


• 20 1 


6 45.0 


13 


6 


50 39.89 


2.x 165 


21 38 36.1 


5.15a 


C 


Last Quarte 


r . • 


• • 


. 27 II 56.9 1 


14 
15 


6 
6 


52 46.77 
54 53.44 


2.x 129 
2.X094 


21 33 24.0 
21 28 6.1 


5.250 
5.347 
























1 


i6 


6 


56 59.90 


2.X058 


21 22 42.4 


5.44a 












d h 1 


. 17 


6 


59 6. 14 


2.Z022 


21 17 13.0 


5.537 


C 


Apogee . , 


• . • 


• • 


Aug. 


6 10.3 


! i8 

1 




I 12.17 


2.0987 


21 II 37.9 


5.63a 


c 


Perigee . 


• . • 


• • 


• • 20 Q.6 1 


1 ^9 




3 17-98 


2.0951 


21 5 57-1 


5.7a7 


^^ 


€j 








^ — 1 


' 20 

! 21 




5 23.58 
7 28.96 


2.0915 
2.0879 


21 10.6 
20 54 18.6 


5.821 
5.9x3 


























22 




9 34-13 


a. 0843 


20 48 21. 1 


6.005 














23 




II 39.08 


2.0807 


20 42 18.0 


6.097 














24 




13 43.81 


2.077Z 


N.20 36 9.5 


6.187 















140 



AUGUST, 1899. 



XIII. 







GREENWICH MEAN TIME. 










LUNAR DISTANCES. 




Day of tha 
Month. 


Name and Direction 
of Object 


Noon. 


P.L. 

of 
Diff. 


III»«- 


P.L. 

of 
Diff. 


• 

Vlh. 


P.L 

6t 
Diff. 


IXh. 


P.L. 

of 
Diff. 






• f V 




• * V 




• * w 




e * » 




I 


Fomalhaut 
a Pegasi 
a Arietis 
Venus 
Sun 


W. 
W. 
W. 
E. 
£. 


loi 14 14 
81 54 29 
38 28 33 
42 31 30 
54 59 38 


3366 

30«7 
9946 
33S8 

325a 


102 37 9 

83 24 8 

39 59 54 
41 8 26 

53 34 30 


3380 
3Q35 
2951 
3370 
$963 


103 59 48 

84 53 37 
41 31 8 

39 45 35 
52 9 35 


3396 

3044 
3958 
338X 
Sa73 


105 22 9 

86 22 55 
43 2 14 

38 22 57 

50 44 52 


34X3 

305a , 
2963 
339a 
3383 




2 


a Pegasi 
a Arietis 
Sun 


W. 
W. 
E. 


93 46 56 
50 35 54 
43 44 5 


3093 

^993 
S330 


95 15 15 
52 6 16 

42 20 28 


310X 
2998 
5338 


96 43 24 
53 36 31 
40 57 I 


3to8 
3004 
3347 


98 II 24 

55 6 39 
39 33 44 


3115 
3009 

33S5 


• 


3 


a Arietis 

Aldebaran 

Sun 


W. 
W. 
E. 


62 35 45 
30 9 2 

32 39 42 


3P34 
314X 
3397 


64 5 16 

31 36 22 
31 17 22 


3038 
3Z3S 
3405 


65 34 42 
33 3 49 
29 55 II 


yna 

3x31 
3413 


67 4 3 
34 31 21 
28 33 9 


3047 
3137 
34aa 




4 


a Arietis 

Aldebaran 

Sun 


W. 
W. 
E. 


74 29 33 
41 49 55 
21 45 35 


3065 

3li3 

347« 


75 58 26 

43 17 43 
20 24 40 


306B 

3"7 
3486 


77 27 15 

44 45 32 
19 4 


307X 
3116 

3500 


78 56 
46 13 22 

17 43 36 


3073 
3116 i 

35i« 




7 


Sun 

Spica 

Jupiter 


W. 
E. 
E. 


II 46 17 
56 42 12 
67 10 28 


3636 
3080 

3137 


13 4 12 
55 13 38 
65 43 3 


3603 
3080 

3x37 


14 22 44 

53 45 4 
64 15 38 


3575 
3079 
3x37 


15 41 46 
52 16 29 
62 48 13 


355a 
3078 
3136 




8 


Sun 

Spica 

Jupiter 

Antares 

Saturn 


W. 
E. 
E. 
E. 
E. 


22 21 49 

44 53 13 
55 30 54 
90 25 54 

99 44 15 


3487 
3Q7a 
3131 
3067 

3057 


23 42 28 
43 24 29 
54 3 22 
88 57 4 
98 15 13 


3478 

3069 
3x30 
3065 
3056 


25 3 17 
41 55 42 
52 35 49 
87 28 II 
96 46 9 


347X 
3067 
3139 
3063 
3053 


26 24 14 
40 26 52 
51 8 14 

85 59 15 
95 17 2 


34C3 
3065 

3X37 

30S9 
3050 




9 


Sun 

Spica 

Jupiter 

Antares 

Saturn 


W. 
E. 
E. 
E. 
E. 


33 10 59 
33 2 
43 49 48 
78 33 35 
87 50 27 


3430 
305a 
3118 
304a 
3033 


34 32 42 
31 32 51 
42 22 

77 4 14 
86 20 55 


34a3 
3049 
3115 
3037 
3038 


35 54 32 
30 3 39 
40 54 9 
75 34 47 
84 51 17 


34x6 
3046 
3XX4 
3033 
3033 


37 16 30 
28 34 23 
39 26 16 

74 5 15 
83 21 33 


3409 
3043 
3113 
3038 
3019 




xo 


Sun 

Antares 

Saturn 


W. 
E. 
E. 


44 8 19 
66 35 59 
75 51 22 


3374 
3000 

0991 


45 31 5 
65 5 46 
74 20 58 


3365 
9994 

3985 


46 54 I 
63 35 26 
72 50 27 


3358 
3987 
3978 


48 17 6 

62 4 57 
71 19 47 


3349 
3981 
3971 




II 


Sun 

Antares 
Saturn 
a Aquilae 


W. 
E. 
E. 
E. 


55 15 2 
54 30 16 

63 44 7 
106 58 4 


3303 
S94a 
a93a 
3461 


56 39 10 

52 58 50 

62 12 29 

105 36 56 


3393 
393a 
3933 

344S 


58 3 30 

51 27 12 

60 40 39 

104 15 30 


3383 
3931 
3914 

34a8 


59 28 2 

49 55 23 

59 8 38 

102 53 45 


3a7x 

nu 

9904 
34it 




12 


Sun 

Antares 
Saturn 
a Aquilae 


W. 
E. 
E. 
E. 


66 34 

42 13 14 
51 25 22 
96 37 


3813 

3864 
9853 
3338 


67 59 54 
40 40 9 

49 52 2 
94 37 9 


3300 

a8s3 
aB4X 

3334 


69 26 3 
39 6 50 

48 18 27 

93 13 25 


3x87 
3843 
3839 
S3XX 


70 52 28 
37 33 16 
46 44 37 
91 49 26 


3x73 

3831 
s8i8 

3*97 




13 

1 

1 


Sun 
Mars 
Saturn 
a Aquilae 


W. 
W. 
E. 
E. 


78 8 43 
34 7 7 
38 51 29 
84 45 45 


3x01 
3034 
a754 
3a36 


79 36 51 
35 36 38 
37 16 I 
83 20 19 


3086 
3014 
a74« 
3135 


81 5 18 

37 6 33 

35 40 15 
81 54 40 


3070 
•995 

9797 
3314 


82 34 4 
38 36 52 

34 4 II 

80 28 48 


3054 
•977 
a7X3 
3104 

1 





XIV. 



AUGUST, 1899. 



141 







GREENWICH MEAN TIME. 










LUNAR DISTANCES. 


Day of the 
Month. 


Name and Direction 
of Object. 


Midnight 


P.L. 

of 

Diff. 


XVh. 


P. L. 

of 
Diff. 


XVIIIh. 


P.U 

of 
Difl: 


XXJh. 


P.L. 

of 

Diff. 






O f w 




9 * m 




• f 


m 




• m 




I 


Fomalhaut 
a Pegasi 
a Arietis 
Venus 
Sun 


W. 
W. 
W. 
E. 
E. 


io6 44 12 

87 52 3 

44 33 13 

37 31 
49 20 20 


3499 
3060 

3969 

3403 
3393 


108 5 56 
89 21 I 

46 4 4 
35 38 18 

47 56 


3446 
3069 
3975 
3414 
3309 


109 27 
90 49 

47 34 
34 16 
46 31 


21 

49 
48 

17 
51 


3463 

3077 
2981 

3424 

33 xa 


I 10 48 26 
92 18 27 

49 5 25 
32 54 28 
45 7 53 


3481 
3084 
2987 
3435 
3320 


2 


a Pegasi 
a Arietis 
Sun 


W. 
W. 
E. 


99 39 15 
56 36 41 
38 10 36 


3xa3 
3014 
3364 


loi 6 57 
58 6 36 
36 47 38 


313X 
3019 
3379 


102 34 
59 36 
35 24 


29 
25 
50 


3138 
3024 
3380 


104 I 53 
61 6 8 
34 2 II 


3x46 
3029 

3389 


3 


a Arietis 

Aldebaran 

Sun 


W. 
W. 

E. 


68 33 18 

35 58 58 
27 II 17 


305X 
3x24 
343X 


70 2 28 
37 26 38 
25 49 35 


3054 

3X3X 

3439 


71 31 
38 54 
24 28 


34 
22 

3 


3057 
3x19 

3450 


73 36 
40 22 8 
23 6 43 


3061 
31x9 
3461 


4 


a Arietis 

Aldebaran 

Sun 


W. 
W. 
E. 


80 24 42 

47 41 12 
16 23 32 


3076 
3x16 

3539 


81 53 21 
49 9 2 
15 3 51 


3079 
3x15 
3566 


83 21 
50 36 
13 44 


56 

53 
40 


3083 

3x15 
360Z 


84 50 28 

52 4 44 
12 26 7 


3083 
3zz6 

3647 


7 


Sun 

Spica 

Jupiter 


W. 
E. 
E. 


17 I 13 
50 47 53 
61 20 47 


3534 
3077 
3135 


18 21 

49 19 15 
59 53 20 


3SX9 
3076 
3x35 


19 41 3 
47 50 36 
58 25 53 


3506 

3074 
3x33 


21 I 20 
46 21 55 
56 58 24 


3496 
3Q73 
3x33 


8 


Sun 

Spica 

Jupiter 

Antares 

Saturn 


W. 
E. 
E. 
E. 
E. 


27 45 20 
38 58 

49 40 37 
84 30 15 
93 47 51 


3455 
3063 

3i«5 
3056 

3047 


29 6 34 

37 29 5 
48 12 58 
83 I 12 
92 18 37 


3449 
3060 

3194 
3059 
3043 


30 27 
36 

46 45 
81 32 
90 49 


55 

7 

17 

4 
18 


3443 
3057 
319a 

3049 
3040 


31 49 23 

34 31 5 

45 17 34 
80 2 52 

89 19 55 


S436 
3055 
3119 

3045 
3Q36 


9 


Sun 

Spica 

Jupiter 

Antares 

Saturn 


W. 
E. 
E. 
E. 
E. 


38 38 36 

27 5 4 
37 58 21 

7a 35 37 
81 51 44 


34Q3 
3040 
3x10 

3023 
3014 


40 49 

25 35 41 
36 30 24 

71 5 53 
80 21 49 


3395 
3038 
310B 
30x8 
3009 


41 23 
24 6 

35 2 
69 36 
78 51 


IX 

15 
24 

2 

47 


3388 

3035 
3106 
3012 
Scxq 


42 45 41 
22 36 46 

33 34 22 
68 6 4 
77 21 38 


338X 

3Q33 
3x05 
3006 
2997 


xo 


Sun 

Antares 
Saturn 


W. 
E. 
E. 


49 40 21 
60 34 20 
69 48 58 


334X 
2973 
9964 


51 3 45 

59 3 34 
68 18 


3339 
9965 
0956 


52 27 

57 32 
66 46 


20 

38 
52 


3393 
9958 
9949 


53 51 5 
56 I 32 

65 15 35 


3313 
9950 
9940 


II 


Sun 

Antares 
Saturn 
a Aquilse 


W. 
E. 
E. 
E. 


60 52 47 
48 23 22 

57 36 24 
loi 31 42 


3360 

•905 

9894 
3396 


62 17 45 

46 51 9 

56 3 58 

100 9 21 


3949 
9895 
3885 
338X 


63 42 
45 18 

54 31 
98 46 


56 

44 
20 

43 


3937 

a88s 

9874 
3366 


65 8 21 

43 46 6 
52 58 28 

97 23 48 


3925 

9874 
2863 

3353 


12 


Sun 

Antares 
Saturn 
a Aquilse 


W. 
E. 
E. 
E. 


72 19 9 

35 59 28 
45 10 32 
90 25 II 


3x60 
2819 
a805 
3984 


73 46 6 
34 25 25 
43 36 II 
89 41 


3145 

a8o8 

9793 
3973 


75 13 

32 51 
42 I 

87 35 


21 

7 
34 

57 


3X3X 
9796 
3780 
3959 


76 40 53 
31 16 34 
40 26 40 
86 10 58 


3xx6 

9783 
2767 
3947 


13 


Sun 
Mars 
Saturn 
a Aquilae 


W. 
W. 
E. 
E. 


84 3 10 

40 7 34 
32 27 48 

79 a 44 


3038 
9958 
9699 
3195 


85 32 36 
41 38 40 
30 51 7 
77 36 29 


302a 

9939 
a685 
3186 


87 2 

43 10 

29 14 
76 10 


22 
10 

7 
3 


3005 
3920 

a67x 
3x78 


88 32 29 

44 42 4 
27 36 48 

74 43 27 


9987 

3900 

9657 
3x69 



142 



AUGUST, 1899. 



XV. 







GREENWICH MEAN TIME. 








1 


LUNAR DISTANCES. 


• 
of 










P.U 




P.L. 




P.U 






P.L. 


Name and Direction 


Noon. 


of 


Illh- 


of 


Vlh. 


of 


IXh. 




of 


O 

Q 


of Object 








DiflF. 




Diflf. 




Diff. 






Die. 






e * 


m 




e > V 




• 1 m 




• - » 


IT 




H 


Sun 


W. 


go 2 


58 


9970 


91 33 48 


a953 


93 5 


2935 


94 36 


35 


2917 




Mars 


W. 


46 14 


23 


2881 


47 47 6 


2862 


49 20 13 


2P43 


50 53 


45 


282s 




Spica 


W. 


29 2 


3 


2646 


30 39 56 


2628 


32 18 13 


2610 


33 56 


54 


2592 




a Aquilae 


E. 


73 16 


41 


3163 


71 49 47 


3157 


70 22 46 


3151 


68 55 


38 


3148 




Fomalhaut 


E. 


99 5 


41 


3092 


97 37 22 


3072 


96 8 38 


3053 


94 39 


31 


3034 


15 


Sun 


W. 


102 20 


15 


2825 


103 54 II 


2806 


105 28 31 


2787 


107 3 


16 


2769 




Mars 


W. 


58 47 


37 


2728 


60 23 40 


2709 


62 8 


2689 


63 37 


2 


2670 




Spica 


W. 


42 16 


33 


2502 


43 57 44 


2483 


45 39 21 


2465 


47 21 


24 


2447 




Jupiter 


W. 


31 13 


39 


2598 


32 52 37 


2574 


34 32 7 


2552 


36 12 


8 


2530 




a Aquilae 


E. 


61 39 


15 


3146 


60 12 I 


3151 


58 44 53 


3158 


57 17 


54 


3168 




Fomalhaut 


E. 


87 8 


14 


8947 


85 36 55 


2931 


84 5 16 


2917 


82 33 


19 


2902 




rt Pegasi 


E. 


107 I 


36 


8640 


105 23 36 


2621 


103 45 9 


«6oi 


102 6 


15 


2s8x 


i6 


Sun 


W. 


"5 3 


12 


2675 


116 40 26 


2636 


118 18 5 


2638 


119 56 


9 


2620 




Mars 


W. 


71 48 


5 


2574 


73 27 36 


2555 


75 7 33 


2536 


76 47 


56 


2517 




Spica 


W. 


55 58 


6 


a355 


57 42 45 


2338 


59 27 49 


2320 


61 13 


19 


2302 




Jupiter 


W. 


44 39 


43 


2426 


46 22 41 


2405 


48 6 8 


2387 


49 50 


2 


2367 




Fomalhaut 


E. 


74 49 


19 


2845 


73 15 49 


2835 


71 42 7 


2828 


70 8 


16 


2822 




a Pegasi 


E. 


93 45 


6 


2487 


92 3 34 


2469 


90 21 37 


24SX 


88 39 


15 


2434 


17 


Mars 


W. 


85 16 


15 


2429 


86 59 9 


2411 


88 42 28 


2394 


90 26 


II 


2378 




Spica 


W. 


70 7 


14 


22x7 


71 55 16 


2200 


73 43 43 


2184 


75 32 


34 


2169 , 




Jupiter 


W. 


58 36 


21 


2276 


60 22 56 


2259 


62 9 56 


2243 


63 57 


20 


2226 1 




Fomalhaut 


E. 


62 17 


47 


2818 


60 43 43 


2825 


59 9 47 


2832 


57 36 


I 


2844 I 




a Pegasi 


E. 


80 I 


29 


«354 


78 16 48 


2340 


76 31 47 


2326 


74 46 


26 


2313 


i8 


Mars 


W. 


99 10 


23 


2304 


100 56 17 


2291 


102 42 30 


2279 


104 29 


I 


2266 




Spica 


W. 


84 42 


29 


2097 


86 33 33 


2085 


88 24 56 


2072 


90 16 


38 


2o6x 




Jupiter 


W. 


73 


13 


2152 


74 49 53 


2x38 


76 39 54 


2126 


78 30 


13 


2x14 




Antares 


W. 


39 " 


6 


2105 


41 I 57 


2092 


42 53 8 


2079 


44 44 


39 


2066 




Saturn 


W. 


29 59 


46 


2104 


31 50 39 


2090 


33 41 53 


2077 


35 33 


28 


2064 




a Pegasi 


E. 


65 55 


21 


2262 


64 8 25 


2254 


62 21 18 


2247 


60 34 


I 


2243 




a Arietis 


E. 


108 33 


57 


2x19 


106 43 27 


2x05 


104 52 36 


2093 


103 I 


26 


ao8i 


19 


Spica 


W. 


99 39 


22 


20Z1 


loi 32 39 


2003 


103 26 9 


1996 


105 19 


49 


X989 




Jupiter 


W. 


87 46 


8 


2063 


89 38 4 


2055 


91 30 12 


2048 


93 22 


31 


2042 




Antares 


W. 


54 6 


46 


2014 


55 59 58 


2006 


57 53 23 


1999 


59 46 


59 


1992 i 




Saturn 


W. 


44 55 


52 


2012 


46 49 8 


2004 


48 42 36 


1996 


50 36 


16 


1989 1 




a Pegasi 


E. 


51 36 


30 


224Z 


49 49 4 


2247 


48 I 46 


2235 


46 14 


40 


9266 1 




a Arietis 


E. 


93 41 


14 


2030 


91 48 27 


2022 


89 55 27 


20x5 


88 2 


16 


9009 ■ 

1 


20 


Antares 


W. 


69 17 


16 


1970 


71 II 38 


1968 


73 6 3 


19^7 


75 


30 


1 
X966! 




Saturn 


W. 


60 6 


53 


1968 


62 I 18 


1965 


63 55 47 


X964 


65 50 


18 


1964 




a Arietis 


E. 


78 34 


15 


1989 


76 40 23 


1987 


74 46 28 


1986 


72 52 


32 


19B7 




Aldebaran 


E. 


III 25 


38 


2002 


109 32 7 


2000 


107 38 32 


1998 


105 44 


54 


>997 


21 


Antares 


W. 


84 32 


28 


1977 


86 26 39 


1981 


88 20 43 


X986 


90 14 


39 


1933 




Saturn 


W. 


75 22 


33 


1974 


77 16 48 


1979 


79 10 55 


1984 


81 4 


54 


X991 




a Aquils 


W. 


39 10 


23 


3409 


40 32 29 


3304 


41 56 36 


32x4 


43 22 


29 


3X35 1 




a Arietis 


E. 


63 23 


29 


200X 


61 29 57 


2007 


59 36 34 


20x4 


57 43 


21 


2021 I 




Aldebaran 


E. 


96 16 


49 


2005 


94 23 23 


2009 


92 30 3 


toz4 


90 36 


51 


MIX ! 



XVI 



AUGUST, 1899. 



143 









GREENWICH MEAN TIME. 












LUNAR DISTANCES. 


• 








P.U 




P.L. 




P.L. 






« 


PL. 


Name and Direction 1 


Midnight 


of 


XW^ 


of 


XVIIJh. 


of 


XXI»^ 


■ 


of 


Q 


of Object 






Diff. 




DifE. 




Diff. 








Diff 








• f m 




» m 




• V • 




• 


* 


m 




14 


Sun 


W. 


96 8 32 


a899 


97 40 52 


9880 


99 13 36 


2862 


100 


46 


43 


9843 




Mars 


W. 


52 27 41 


2805 


54 2 3 


2786 


55 36 49 


2767 


57 


12 





9747 


1 


Spica 


W. 


35 36 


a574 


37 15 31 


2556 


38 55 26 


2538 


40 


35 


47 


2520 


1 
1 


a Aquilse 


E. 


67 28 26 


3144 


66 I 10 


3x49 


64 33 51 


314a 


63 


6 


32 


3143 


1 


Fomalhaut 


E. 


93 10 


3015 


91 40 6 


9997 


90 9 50 


2980 


88 


39 


12 


2964 


15 


Sun 


W. 


108 38 25 


3749 


no 14 


27SX 


III 49 59 


27x9 


113 


26 


23 


2693 




Mars 


W. 


65 14 22 


a65i 


66 52 8 


2^Z 


68 30 21 


26x2 


70 


9 





2593 




Spica 


W. 


49 3 52 


2428 


50 46 47 


2410 


52 30 7 


239X 


54 


13 


54 


a374 




Jupiter 


W. 


37 52 39 


«So8 


39 33 41 


2487 


41 15 12 


2466 


42 


57 


13 


2445 




a Aquilae 


E. 


55 51 7 


3x8z 


54 24 35 


3198 


52 58 23 


32x6 


51 


32 


33 


3238 




Fomalhaut 


E. 


81 I 3 


2889 


79 28 30 


2876 


77 55 41 


2863 


76 


22 


37 


9854 




a Pegasi 


E. 


100 26 54 


3s6x 


98 47 6 


9543 


97 6 52 


2524 


95 


26 


12 


2505 


1 

16 


Sun 


W. 


121 34 37 


2G01 


123 13 30 


2584 


124 52 47 


2566 


126 


32 


28 


2550 




Mars 


W. 


78 28 45 


2499 


80 10 


248X 


8i 51 40 


2463 


83 


33 


45 


a445 




Spica 


W. 


62 59 15 


2285 


64 45 37 


2268 


66 32 24 


225 z 


68 


19 


36 


2233 




Jupiter 


W. 


51 34 24 


2348 


53 19 13 


2330 


55 4 29 


23x1 


56 


50 


12 


2294 




Fomalhaut 


E. 


68 34 17 


2818 


67 12 


28x5 


65 26 4 


2815 


63 


51 


55 


28x5 




a Pegasi 


E. 


86 56 29 


24x7 


85 13 19 


24OZ 


83 29 45 


2384 


81 


45 


48 


2369 


i 17 


Mars 


W. 


92 10 17 


236a 


93 54 46 


9347 


95 39 37 


933a 


97 


24 


50 


23x8 


( 


Spica 


W. 


77 21 48 


2IS4 


79 II 25 


ai39 


81 I 25 


2125 


82 


51 


46 


2XXX 




Jupiter 


W. 


65 45 9 


22 ZO 


67 33 21 


ai95 


69 21 56 


2180 


71 


10 


54 


2x66 




Fomalhaut 


E. 


56 2 30 


2858 


54 29 17 


2877 


52 56 29 


2900 


51 


24 


10 


2929 




a Pegasi 


E. 


73 46 


2301 


71 14 48 


2290 


69 28 34 


9279 


67 


42 


4 


9970 


! 18 


Mars 


W. 


106 15 50 


2255 


108 2 56 


2245 


109 50 17 


9833 


III 


37 


53 


9995 




Spica 


W. 


92 8 38 


2050 


94 55 


9039 


95 53 29 


9029 


97 


46 


18 


9019 




Jupiter 


W. 


80 20 51 


2103 


82 II 46 


2099 


84 2 58 


2081 


85 


54 


26 


2072 




An tares 


W. 


46 36 30 


2055 


48 28 39 


»<H4 


50 21 5 


2033 


52 


13 


48 


2023 




Saturn 


W. 


37 25 22 


«>53 


39 17 34 


2041 


41 10 4 


203X 


43 


2 


50 


202X 




a Pegasi 


E. 


58 46 37 


3239 


56 59 8 


2937 


55 II 35 


2236 


53 


24 


I 


2238 




a Arietis 


E. 


loi 9 57 


8U69 


99 18 10 


9059 


97 26 7 


2048 


95 


33 


48 


9039 


19 


Spica 


W. 


107 13 40 


1984 


109 7 40 


1979 


III I 47 


X975 


112 


56 


I 


X979 


1 


Jupiter 


W. 


95 15 


2036 


97 7 38 


2039 


99 23 


2027 


100 


53 


15 


9024 




Antares 


W. 


61 40 46 


X986 


63 34 42 


I98X 


65 28 47 


1976 


67 


22 


59 


X973 




Saturn 


W. 


52 30 7 


1984 


54 24 7 


X978 


56 18 16 


X974 


58 


12 


32 


X970 




a Pegasi 


E. 


44 27 51 


2280 


42 41 22 


2298 


40 55 19 


9319 


39 


9 


47 


2345 




a Arietis 


E. 


86 8 55 


9003 


84 15 25 


X998 


82 21 48 


1994 


80 28 


4 


X991 


20 


Antares 


W. 


76 54 58 


1967 


78 49 25 


X966 


80 43 50 


1970 


82 


38 


II 


X973 




Saturn 


W. 


67 44 49 


1964 


69 39 20 


Z966 


71 33 48 


1968 


73 


28 


13 


197X 




a Arietis 


E. 


70 58 37 


X988 


69 4 44 


X990 


67 10 54 


X993 


65 


17 


9 


1996 




Aldebaran 


E. 


103 51 15 


X996 


loi 57 35 


1998 


100 3 57 


X999 


98 


10 


21 


200X 


21 


Antares 


W. 


92 8 25 


2000 


94 2 


9007 


95 55 24 


90XS 


97 


48 


35 


9025 




Saturn 


W. 


82 58 43 


X997 


84 52 22 


2005 


86 45 49 


9014 


88 


39 


2 


2022 




Aquilas 


W. 


44 49 56 


3067 


46 18 46 


3008 


47 48 49 


9957 


49 


19 


56 


9913 




a Arietis 


E. 


55 50 20 


2030 


53 57 32 


9039 


52 4 58 


9049 


50 


12 


40 


2o6z 




Aldebaran 


E. 


88 43 49 


9027 


86 50 57 


9035 


84 58 18 


9044 


83 


5 


52 


9053 



144 



AUGUST, 1899. 



XVII. 







GREENWICH MEAN TIME. 












LUNAR DISTANCES. 


• 








p. L. 




P. L. 




P. L. 








P. L. 


Day of 
Mont 


Name and Direction 
of Object. 


Noon. 


of 
Diff. 


Illh. 


of 
Diff. 


Vlh. 


of 
Diff. 


IX^' 




of 
Diff. 








• . * m 




e t m 




e * i» 




e 


* 


m 




22 


Antares 


W. 


99 41 31 


0034 


lOI 34 12 


2044 


103 26 37 


2055 


105 


18 


45 


2068 




Saturn 


w. 


90 32 2 


2032 


92 24 47 


2042 


94 17 15 


2053 


96 


9 


26 


2065 




a Aquilae 


w. 


50 51 58 


2876 


52 24 47 


2844 


53 58 18 


2818 


55 


32 


23 


2796 




a Arietis 


E. 


48 20 40 


2072 


46 28 58 


2086 


44 37 37 


2X00 


42 


46 38 


aiis 




Aldebaran 


E. 


81 13 40 


9063 


79 21 44 


2073 


77 30 4 


2085 


75 38 


4« 


2098 


23 


a Aquilae 


W. 


63 28 25 


V37 


65 4 16 


2735 


66 40 ID 


2734 


68 


16 


5 


a735 




Fonialhaut 


W. 


39 32 25 


3431 


40 54 6 


3351 


42 17 18 


3284 


43 


41 


48 


3228 




Aldebaran 


E. 


66 26 53 


2169 


64 37 38 


2184 


62 48 47 


2202 


61 





22 


2218 




Pollux 


E. 


108 19 


2184 


106 30 9 


2x98 


104 41 38 


22Z2 


I02 


53 


29 


2227 


24 


a Aquilse 


W. 


76 14 28 


2767 


77 49 39 


2779 


79 24 35 


279X 


80 


59 


15 


2804 




Fonialhaut 


W. 


50 58 II 


3051 


52 27 21 


3030 


53 56 56 


3015 


55 


26 


50 


3004 




Aldebaran 


E. 


52 4 56 


2313 


50 19 16 


2335 


48 34 7 


2355 


46 


49 


28 


2378 




Pollux 


E. 


93 58 33 


23x0 


92 la 48 


2327 


90 27 28 


2345 


88 


42 


34 


2364 




Sun 


E. 


133 37 20 


2588 


131 58 8 


26QS 


130 19 20 


2624 


128 


40 


58 


2643 


25 


a Aquilse 


W. 


88 47 52 


2885 


90 20 30 


2904 


91 52 44 


2924 


93 


24 


33 


2944 




Fomalhaut 


W. 


62 58 48 


2985 


64 29 20 


2987 


65 59 49 


999X 


67 


30 


13 


2996 




a Pegasi 


W. 


41 10 15 


2726 


42 46 20 


2725 


44 22 27 


2726 


45 


58 


32 


2729 




Aldebaran 


E. 


38 14 21 


a497 


36 33 3 


2523 


34 52 22 


2551 


33 


12 


19 


2580 




Pollux 


E. 


80 4 46 


2458 


78 22 34 


2477 


76 40 49 


2497 


74 


59 


32 


25x7 




Sun 


E. 


120 35 29 


«738 


118 59 40 


2759 


117 24 18 


8779 


115 


49 


22 


2798 


26 


Fomalhaut 


W. 


75 5 


3040 


76 29 28 


3052 


77 58 37 


3c€4 


79 


27 


31 


3076 




a Pegasi 


W. 


53 57 24 


3763 


55 32 40 


2774 


57 7 42 


2785 


58 


42 


30 


2795 




Pollux 


E. 


66 39 56 


2615 


65 I 22 


2636 


63 23 16 


2636 


61 


45 


37 


2675 




Sun 


E. 


Z08 I 8 


2897 


106 28 45 


29x6 


104 56 47 


2935 


103 


25 


13 


2954 


27 


Fomalhaut 


W. 


86 47 54 


3148 


88 15 5 


3163 


89 41 58 


3x79 


91 


8 


32 


3196 




a Pegasi 


w. 


66 32 44 


2856 


68 5 59 


2869 


69 38 57 


2882 


71 


IZ 


39 


2894 




Pollux 


E. 


53 43 57 


2775 


52 8 56 


2795 


50 34 21 


28x5 


49 





12 


2835 




Sun 


E. 


95 53 19 


3047 


94 24 5 


3065 


92 55 12 


3082 


91 


26 


41 


3099 


28 


Fomalhaut 


W. 


98 16 23 


3282 


99 40 56 


3300 


loi 5 7 


33x9 


102 


28 


57 


3337 




a Pegasi 


W. 


78 51 6 


9938 


80 22 II 


2970 


81 53 I 


2982 


83 


23 


36 


2995 




a Arietis 


W. 


35 20 55 


2885 


36 53 33 


2894 


38 25 59 


2504 


39 


58 


13 


1912 




Pollux 


E. 


41 16 4 


3939 


39 44 35 


2962 


38 13 34 


2984 


36 


43 


I 


S008 




Sun 


E. 


84 9 7 


3x79 


82 42 33 


3x95 


81 16 18 


3S09 


79 


50 


20 


3224 


29 


a Pegasi 


W. 


90 52 45 


3053 


92 21 52 


3064 


93 50 46 


3074 


95 


19 


27 


S085 




a Arietis 


W. 


47 36 31 


2958 


49 7 36 


2967 


50 38 30 


2975 


52 


9 


14 


•984 . 




Sun 


E, 


72 44 35 


3289 


71 20 II 


330a 


69 56 2 


3313 


68 


32 


6 


3324 


30 


a Pegasi 


W. 


102 39 41 


3135 


104 7 8 


3145 


105 34 23 


3x54 


107 


I 


27 


( 

SI64 




a Arietis 


W. 


59 40 22 


3022 


61 10 8 


3038 


62 39 46 


3034 


64 


9 


16 


9041 




Aldebaran 


W. 


27 14 59 


3x44 


28 42 15 


3138 


30 9 39 


3x33 


31 


37 


9 


3x29 ' 




Sun 


E. 


61 35 28 


3374 


60 12 42 


3383 


58 50 6 


3392 


57 


27 


40 


9400 


31 


a Arietis 


W. 


71 35 


3066 


73 3 51 


3071 


74 32 36 


3075 


76 


I 


16 


3078 




Aldebaran 


W. 


38 55 23 


3x23 


40 23 5 


312a 


41 50 48 


3122 


43 


18 


31 


3X22 




Sun 


E. 


50 37 42 


3436 


49 16 6 


3442 


47 54 37 


3448 


46 


33 


15 


3454 



XVllI. 



AUGUST, 1899. 



145 







GREENWICH MEAN TIME. 












' 


LUNAR DISTANCES. 


h 

of 


Name ud Direction 


Midnight 


P.L. 

of 


xv«>- 


P.L. 

of 


XVI Ilh. 


P.L. 
of 


XXP». 


P.L. 
of 


a* 


ox WJOCb 






IMS. 




Diff. 






Diff. 








Diff. 






• 1 m 




• ^ f l» 




e > 


w 




e 


f 


m 




%2 


Antares 


W. 


107 10 34 


9080 


109 2 4 


2092 


1 10 53 


15 


txo6 


112 


44 


5 


2x20 




Saturn 


W. 


98 I 19 


•077 


99 52 53 


209U 


10 1 44 


7 


2x03 


103 


35 


I 


2XX8 




a Aqniiie 


W. 


57 6 56 


«77® 


58 41 53 


9763 


60 17 


10 


975X 


61 


52 42 


9743 


^ 


a Arietis 


E. 


40 56 2 


sxsa 


39 5 52 


2x49 


37 16 


8 


2x69 


35 


26 


53 


2x89 




Aldebaran 


E. 


73 47 39 


SIX! 


71 56 56 


2x24 


70 6 


33 


2x38 


68 


16 


32 


9X53 


a3 


a Aquilae 


W. 


69 51 59 


0738 


71 27 48 


«743 


73 3 


31 


2750 


74 39 


5 


2758 




Fomalhaut 


W. 


45 7 24 


3x79 


46 33 58 


3x37 


48 I 


23 


3x02 


49 


29 


30 


3074 




Aldebaran 


E. 


59 12 22 


«37 


57 24 49 


2233 


55 37 


43 


2274 


53 


51 


5 


2294 




Pollux 


E. 


loi 5 42 


S24S 


99 z8 19 


2259 


97 31 


19 


2276 


95 


44 44 


2292 


M 


a Aquilae 


W. 


82 33 38 


28IB 


84 7 42 


«833 


85 41 


27 


2849 


87 


14 


51 






Fomalhaut 


W. 


56 56 58 


9995 


58 27 17 


9989 


59 57 44 


9985 


61 


28 


15 


2964 




Aldebaran 


E. 


45 5 «i 


4400 


43 21 46 


2422 


41 38 


43 


9447 


39 


56 


15 


947X 




Pollnv 


E. 


86 58 7 


3382 


85 14 6 


240X 


83 30 


32 


2419 


81 


47 


25 


9439 




Sum 


E. 


127 3 I 


9662 


125 25 30 


268X 


123 48 


24 


9700 


122 


II 


44 


2719 


as 


a Aquilae 


W. 


94 55 56 


3965 


96 26 52 


^^ 


97 57 


21 


3009 


99 


27 


22 


3033 




Fomalhaut 


W. 


69 31 


3003 


70 30 40 


30x0 


72 


40 


30x9 


73 


30 


29 


3030 




a Pegasi 


W. 


47 34 34 


«733 


49 10 30 


9739 


50 46 


18 


9747 


52 


21 


56 


9754 




Aldebaran 


E. 


31 32 56 


«6io 


29 54 15 


9643 


28 16 


18 


269^ 


26 


39 


9 


2716 




Pollux 


E. 


73 18 42 


9536 


71 38 19 


9556 


69 58 


24 


2576 


68 


18 


56 


9596 




Sun 


E. 


114 14 52 


28x8 


Z12 40 48 


2838 


III 7 


9 


2838 


109 


33 


56 


2877 


a6 


Fomalhaut 


W. 


80 56 10 


9090 


82 24 32 


3x04 


83 52 


37 


3XX9 


85 


20 


24 


3X33 




a Pegasi 


W. 


60 17 4 


•807 


61 51 23 


28x9 


63 25 


26 


283X 


64 


59 


13 


9844 




Pollux 


E. 


60 8 24 


«695 


58 31 38 


9715 


56 55 


18 


9735 


55 


19 


24 


•755 




Sun 


E. 


loi 54 3 


9973 


100 23 17 


9993 


98 52 


55 


30XX 


97 


22 


56 


3029 


27 


Fomalhaut 


W. 


92 34 46 


3ax3 


94 40 


3929 


95 26 


15 


3947 


96 


51 


29 


3964 




a Pegasi 


W. 


72 44 5 


2907 


74 16 15 


2990 


75 48 


8 


2933 


77 


19 


45 


2946 




Pollux 


E. 


47 26 30 


a855 


45 53 14 


2876 


44 20 


24 


2896 


42 


48 





29x8 




Sun 


E. 


89 58 30 


3xx6 


88 30 40 


3x33 


87 3 


10 


3x48 


85 


35 


59 


3164 


28 


Fomalhaut 


W. 


103 52 26 


3336 


105 15 33 


3376 


106 38 


17 


3395 


108 





39 


34x5 




a Pegasi 


W. 


84 53 55 


3007 


86 23 59 


3018 


87 53 


49 


3030 


89 


23 


24 


3042 




a Arietis 


W. 


41 30 16 


2922 


43 2 7 


293X 


44 33 


47 


2940 


46 


5 


15 


9950 




Pollux 


E. 


35 12 58 


303a 


33 43 25 


3059 


32 14 


25 


3087 


30 45 


59 


3x17 




Sum 


E. 


78 24 39 


3237 


76 59 14 


3959 


75 34 


6 


3965 


74 


9 


13 


3977 


39 


a Pegasi 


W. 


96 47 55 


3096 


98 16 10 


3x06 


99 44 


12 


31x6 


lOI 


12 


2 


3x25 




a Arietis 


W. 


53 39 47 


3999 


55 10 10 


3000 


56 40 


23 


3007 


58 


10 


27 


30x4 




Sun 


E. 


67 8 22 


S33S 


65 44 51 


3345 


64 21 


32 


3356 


62 


58 


25 


3365 


30 


a Pegasi 


W. 


108 28 19 


S173 


109 55 


3182 


HI 21 


31 


3x91 


112 


47 


51 


3200 




a Arietis 


W. 


65 38 38 


3047 


67 7 53 


3059 


68 37 


2 


3057 


70 


6 


4 


3062 




Aldebaran 


W. 


33 4 43 


3127 


34 32 20 


3X94 


36 





3x24 


37 


27 


41 


3x93 




Sun 


E. 


56 5 23 


3408 


54 43 15 


34x5 


53 21 


16 


3493 


51 


59 


25 


3430 


31 


a Arietis 


W. 


77 29 52 


3082 


78 58 23 


3085 


80 26 


51 


30B7 


81 


55 


16 


309X 




Aldebaran 


W. 


44 46 14 


3x22 


46 13 57 


3x23 


47 41 


39 


3X92 


49 


9 


22 


3x93 




Sun 


£• 


45 " 59 


S4&> 


43 50 50 


3464 


42 29 


46 


3470 


41 


8 


48 


3474 



ID 



146 



SEPTEMBER, 1899. 



AT GREENWICH APPARENT NOON. 






.a 






Frid. 
Sat. 

SUN. 

Mon. 
Tues. 
Wed. 

Thur. 

Frid. 

Sat 

SC/N, 

Mon. 

Tues. 

Wed. 
Thur. 
Frid. 

Sat 

S(/N. 

Mon. 

Tues. 
Wed. 
Thur. 

Frid. 

Sat 

SWN. 

Mon. 
Tues. 
Wed. 

Thur. 

Frid. 

Sat. 

S(/N. 



a 

o 

« 



o 



I 

2 
3 

4 

5 
6 

7 

8 



lO 

II 

12 

15 

i6 

17 
i8 

20 
21 

22 

23 
24 

25 
26 

27 

28 

29 
30 

31 



THE SUN'S 



Apparent 
Right Ascension. 



h m 8 

10 41 38.66 

10 45 16.25 

10 48 53.58 

10 52 30.65 

10 56 7.48 

10 59 44.08 



3 20.47 

6 56.66 

10 32.67 

14 8.51 

17 44.20 

21 19.77 

24 55-22 

28 30.58 

32 5.86 

35 41.10 

39 16.30 

42 51-51 

46 26.73 

50 1.99 

53 37-32 






11 57 12.74 

12 o 48.27 
12 4 23.95 

12 7 59.78 

12 II 35.80 

12 15 12.02 

12 18 48.48 

12 22 25.18 

12 26 2.14 

12 29 39.39 



Diff. for 
I Hour. 



■ 
9.072 

9.060 

9.050 

9.040 
9*030 
9.021 

9.012 
9.004 
8.997 

8.991 
8.985 
8.980 

8.975 

8.971 
8.969 

8.968 
8.967 
8.967 

8.968 
8.970 

8.974 

8.979 
8.984 
8.990 

8.997 
9'005 
9.014 

9.024 

9*035 
9.046 

9.058 



Apparent 
Declination. 



N. 8 16 31. 1 

7 54 39-8 
7 32 40.8 

7 10 34-4 
6 48 21.0 

6 26 i.o 

6 3 34-7 
541 2.3 
5 18 24.4 

4 55 41-1 

4 32 53-0 
4 10 0.2 

3 47 3-2 
3 24 2.1 

3 057.4 

2 37 49-4 
2 14 38.4 

I 51 24.6 

I 28 8.5 
I 4 50.2 
o 41 30.2 

N. o 18 8.7 

S. o 5 13.9 

o 28 37.4 

52 1.3 

1 15 25.3 

1 38 49.2 

2 2 12.5 
2 25 34.9 
2 48 56.1 

S. 3 12 15.5 



Diff. for 
z Hour. 



-54.47 
54.80 

5512 

-55.42 
55-70 
55.97 

-56.23 

56.47 
56.69 

-56-90 
57-" 
57.29 

-57-46 
57.62 

57.77 

-57.90 
58.02 
58.13 

-58.22 
58.30 
58.37 

-58.42 
58.46 

58.49 

-58.50 
58.50 

58.49 

-58.46 
58.41 
58.35 

-58.27 



Semi- 
diameter. 



5 53.60 

5 53.83 
5 54.06 

5 54.29 
5 54-53 
5 54.77 

5 55.02 

5 55.27 
5 55.52 

5 55-77 
5 56.03 
5 56.29 

5 56.56 
5 56.82 
5 57-08 

5 57.35 
5 57-62 
5 57.88 

5 58.15 

5 58.41 
5 58.68 

5 58.95 
5 59-22 

5 59.48 

5 59.75 

6 0.0 1 

6 0.28 



6 
6 



0.55 

0.82 



6 1.09 
6 1.37 



Sidereal 
Time of 
Semi- 
diameter 
Passing 
Meridian. 



Equation of 

Time, 

to be 

Subtracted 

from 

Apparent 

Time. 



64.42 
64.38 

64.34 

64.30 
64.26 
64.23 

64.20 
64.17 
64.15 

64.13 
64.11 
64.09 

64.08 
64.07 
64.06 

64.06 
64.06 
64.06 

64.07 
64.08 
64.09 

64.11 
64.13 

64.15 

64.17 
64.20 

64.23 

64.26 
64.29 

6433 



m s 

o 5.06 

o 23.97 

o 43.14 

I 2.57 

I 22.24 

1 42.14 

2 2.25 
2 22.56 

2 4304 

3 3.70 

3 24.50 

3 45.43 

4 6.48 
4 27.61 

4 48.82 

5 10.08 

5 31.37 

5 52.66 

6 13.94 
6 35-17 

6 56.34 

7 17.41 
7 38.37 

7 59.19 

8 19.85 

8 40.33 

9 0.60 

9 20.65 

9 40.45 

9 59.98 



Diff.lbr 

I Hour. 



64.37 10 19.23 






0.78a 

0.793 
0.804 

0.814 
0.824 
0.833 

0.842 
0.850 

0.857 

0.864 
0.870 
0.875 

0.879 
0.883 
0.885 

0.886 
0.887 
0.887 

0.886 

0.884 
0.880 

0.875 
0.870 
0.864 

0.857 
0.849 
0.840 

0.830 
0.820 
0.809 

0.796 



NoTB. — ^The mean time of semidiameter passing may be found by subtracting 
The sign — prehxed to the hourly change of declination indicates tha 
south declinations increasing. 



o^.iS from ihe sidereal timeu 
north declinations are decreasing ; 



■•.^P^NW 



IL 



SEPTEMBER, 1899. 



147 



AT GREENWICH MEAN NOON. 



: 






Frid. 
Sat. 

s(/^r. 

Men. 
Tues. 
Wed. 

Thur. 

Frid. 

Sat. 

SC/AT, 

Mon. 

Tues. 

Wed. 
Thur. 
Frid. 

Sat. 

Men. 

Tues. 
Wed. 
Thur. 

Frid. 

Sat. 

SC/N. 

Mon. 
Tues. 
Wed. 

Thur. 

Frid. 

Sat. 

SC/N. 



o 
« 

■s 



Q 



I 
2 

3 

4 

5 
6 

7 
8 



lO 

II 

12 

13 

14 
15 

16 

17 
18 

19 

20 

21 

22 

23 
24 

25 
26 

27 

28 
29 

30 
31 



THE SUN'S 



Apparent 
Right Aacensioa 


DiflE. for 
I Hour. 


b m 8 
10 41 38.67 

10 45 16.31 

10 48 53.69 


■ 
9.075 

9.063 

9.052 


10 52 30.81 
10 56 7.68 

10 59 44-33 


9.042 
9032 
9.023 


II 3 
II 6 
II 10 


20.77 

57-OI 
33-07 


9.014 
9.006 
8.999 


II 14 
II 17 
II 21 


8.97 
44.71 
20.33 


8.993 
8.987 

8.982 


II 24 
II 28 
II 32 


55.83 
31.24 

6.58 


8.977 
8.973 
8.971 


II 35 
II 39 

II 42 


41.87 

17-13 
52.38 


8.970 
8.969 
8.970 


II 46 
II 50 
II 53 


27.66 
2.97 

38.35 


8.971 

8.973 
8.976 


11 57 

12 

12 4 


13.83 
49.42 

25-15 


8.981 
8.986 
8.992 


12 8 
12 II 
12 15 


1.03 
37.10 
13.38 


8.999 
9.007 

9.016 


12 18 
12 22 
12 26 


49.88 
26.63 

3-65 


9.026 

9.037 
9.049 


12 29 40.95 


9.06Z 



Apparent 
Declination. 



N. 8 16 31.0 

7 54 39-4 
7 32 40-1 

7 10 33-4 
6 48 19.7 

6 25 59.4 

6 3 32.7 
5 41 0.0 
5 18 21.7 

4 55 38.2 
4 32 49-7 
4 9 56.6 

3 46 59.2 
3 23 57-8 
3 o 52.7 

2 37 44.4 
2 14 33.0 

I 51 18.9 

I 28 2.4 

I 4 43.8 
o 41 23.4 

N. o 18 1.6 

S. o 5 21.4 

o 28 45.2 

52 9.4 

1 15 33.8 

1 38 58.0 

2 2 21.6 
2 25 44.4 
2 49 5.8 

S. 3 12 25.6 



Diff. for 
X Hour. 



-54.48 
54.81 

55.13 

-55-43 
55.71 
55.98 

-56.24 
56.48 
56.70 

-56.91 
57-12 
57.30 

-57-47 
57.63 
57.78 

-57.91 

58.03 

58.14 

-58.23 

58.31 
58.38 

-58.43 
58.47 

58.50 

-58.51 
58.51 

58.50 

-58.47 
58.42 

58.36 
-58.28 



Equation of 

Time, 

to be 

Added to 

Mean Time. 



m ■ 

o 5.06 
o 23.97 

o 43.15 

I 2.58 
I 22.26 

1 42.16 

2 2.28 
2 22.59 
2 43.08 

3 3.74 
3 24.55 

3 45-49 

4 6.54 
4 27.68 

4 48.89 

5 10.16 

5 31.45 

5 52.75 

6 14.03 
6 35.26 

6 56.44 

7 17-51 
7 38.48 

7 59.30 

8 19.97 

8 40.45 

9 0.73 

9 20.78 

9 40.58 
10 0.12 

10 19.37 



Diff. for 
I Hour. 



■ 
0.782 

0.793 
0.804 

0.815 
0.825 
0.834 

0.842 
0.850 
0.857 

0.864 
0.870 

0.875 

0.879 
0.882 
0.885 

0.887 
0.887 
0.887 

0.886 
0.884 
0.880 

0.876 
0.871 
a 864 

0.857 
0.849 
0.840 

0.830 
0.820 
0.808 

0.796 



Sideratl 

Time, 

or 

Right Ascension 

of 

Mean Son. 



NoTK.— The semidiameter for mean noon may be assamed the same as that for apparent noon. 

The siRn — pretixed to the hourly change of decli.i itioa in licates that north declinations are 
decreasing ; south declinatious, increasing. 



h m i 

o 41 43.73 
o 45 40.29 

6 49 36.84 

o 53 33.39 

57 29.94 

1 I 26.50 



5 23.05 

9 19.60 

13 16.16 

17 12.71 

21 9.26 

25 5.82 

29 2.37 

32 58.92 

36 55.48 

40 52.03 

44 48.58 

48 45.13 

52 41.69 

56 38.24 

o 34-79 



2 4 31.34 

2 8 27.90 

2 12 24.45 

2 16 21.00 

2 20 17.55 

2 24 14. 1 1 

2 28 10.66 

2 32 7.21 

2 36 3.76 



12 40 0.32 



Diff. for I Hour. 

-f9'.8565. 
(Table III.) 



Us'^ 



SEPTEMBER, 1899. 



III. 






AT GREENWICH MEAN NOON. 



g 

-9 

O 



I 

2 

3 

4 

5 
6 

7 
8 

9 

lO 

II 

12 

13 
14 
15 

i6 

17 
i8 

19 

20 
21 

22 
23 

24 

25 

26 

27 

28 
29 

30 
31 



I 

o 



244 

245 
246 

247 
248 

249 

250 
25' 

252 

253 
254 
255 

256 

257 

258 

259 

260 
261 

262 

263 

264 
265 

266 

267 

268 

269 
270 

271 
272 

273 
274 



THE SUN'S 



TRUE LONGITUDE. 



158 48 14.3 

159 46 22.4 

160 44 32.3 

161 42 44.1 

162 40 57.7 

163 39 13.0 



164 

165 
166 



37 300 
35 48.7 
34 9-0 



167 32 30.9 

168 30 54.3 

169 29 19.4 

170 27 46.0 

171 26 14.2 

172 24 44.1 

173 23 156 

174 21 48.8 

175 20 23.9 

176 19 0.8 

177 17 39.6 

178 16 20.4 

179 15 3-3 

180 13 48.3 

181 12 35.6 

182 II 25.0 

183 10 16.8 

184 9 10.9 



185 
186 

187 



8 

7 
6 



7.2 

5-9 
6.9 



188 5 10.0 



47 22.6 

45 306 

43 40-4 

41 52.1 

40 5.6 

38 20.8 

36 37.7 

34 56.3 

33 16.5 

31 38.3 

30 1.6 

28 26.6 

26 53.1 

25 21.2 

23 51.0 

22 22.4 

20 55-5 

19 305 

18 7.3 

16 46.0 

15 26.7 

14 9-5 

12 54.4 

II 41.6 

10 30.9 

9 22.6 

8 16.6 



7 
6 

5 



12.8 

"•5 
12.4 



4 15-4 



Diff. for 
I Hour. 



4530 
45-37 
45-45 

45-53 
45-6o 
4567 

45-74 
45.81 

45-88 

45-95 
46.01 

46.08 

46.14 
46.21 
46.28 

46-35 
46.42 

46.50 

46.58 
46.66 
46.74 

46.83 
46.92 
47.01 

47.11 
47.20 
4730 

47-40 
47-49 
47-59 



X47.68 



LATITUDE. 



— 0.50 

a6o 

a68 

— 0.75 
0.78 

0.77 

-0.74 
0.68 
a6o 

-0.49 

0.37 
a24 

— aio 
+ 0.03 

0.15 

+ 0.24 
0.32 
0.37 

+ 0.39 
0.37 

0-33 

+ 0.26 

0.16 

+ 0.05 

— 0.07 
0.20 

0^33 

— 0-45 
0-56 

0.64 

— 0.71 



Logarldm 

of the 

Radias Vector 

of tbe 



0.0038107 
0.0037069 
0.0036017 

0.0034946 
0.0033859 
0.0032756 

0*0031637 
0.0030502 
0.0029354 

aoo28i94 

a0027022 

0.0025839 

0.0024648 
0.0023453 
0.0022251 

0.0021046 
0.0019838 
0.0018629 

0.0017422 
0.0016213 
0.0015006 

0.0013798 
0.0012591 
0.001 1 383 

0.001 01 76 
0.0008967 
0.0007755 

0.0006540 
0.0005321 
0.0004096 

0.0002867 



Oiff.lte 

I 



-42.9 
43-6 
44-2 

-44-9 
45-6 
46.3 

-47.0 
47.6 
48.1 

-48.6 
49.0 

49*4 

-49.7 
49-9 
5ax 

-50.3 
50.4 

50-4 

-50-3 

50-3 
J0.3 

-50.3 
503 
30.3 

-50-3 
30.4 

50w6 

-50.7 
50.9 
5I.I 

-5X.4 



NoTSrf^The nnmbera in column A eorreipond to the tme eqainoi of tho d«te ; la oolvmn X' to tho meaa 
equinox of January o.'a 



Meso Til 
of 
Sidereal Noon. 



h Bi • 

3 16 5.49 
3 12 9.58 
3 8 13.68 

3 4 17.77 
3 o 21.86 

2 56 25.95 i 

2 52 30.05 
2 48 34.14 
2 44 38.23 

2 40 42.32 
2 36 46.42 

2 32 50-51 

2 28 54.60 
2 24 58.70 
2 21 2.79 

2 17 6.88 
2 13 10.98 
2 9 15-07 

2 5 19*16 
2 I 23.26 

I 57 27.35 

> 53 31-44 
I 49 35-54 
I 45 39-63 

I 41 43.72 
I 37 47.82 

I 33 51-91 

I 29 56.00 
I 26 0.10 
I 22 4.19 



II 18 8.28 



DiS. for I Hoar, 
— 9>.8296. 
(Table IL) 



J 



IV. 



SEPTEMBER, 1899. 



149 









GREENWICH 


MEAN TIME. 








■ 

1 

•4 
O 

1 


THE MOON'S 


SBMIDIAMBTBR. 


HORIZONTAL PARALLAX. 


UPPER TRANSIT. 


AGS. 


Moon. 


MMnlgbt 


Noon. 


DiS. for 
I Hour. 


Midnicht 


Diif. for 
I Hoar. 


Meridian of 
Greenwlck. 


Diif. for 
1 Hour. 


Noon. 


I 

2 

3 


* m 

14 46.1 
14 44.1 


m 

14 44.9 
14 44.0 
14 44.7 


* m 

54 5-4 
53 58.4 
53 58.0 


-0.44 
-0.15 

4o.li 


* 

54 i-o 

53 57.4 

54 0.0 


• 
-0.29 
-0.02 
40.23 


h m 
22 0.3 

22 43.0 

23 24.5 


m 
I.81 

X.75 
I.71 


d 
26.0 

27.0 

28.0 


4 

5 
6 


14 45.6 

14 48-5 
14 52.7 


14 46.9 
14 50.4 

14 55-3 


54 3-4 
54 H-o 
54 29-4 


+0-34 
0.55 

0.74 


54 8.1 
54 21.1 
54 38.9 


+0.44 
0.64 
a84 


6 

5-5 
46.8 


1.71 
1-74 


29.0 
0.4 
1.4 


7 
8 

9 


14 58.a 

15 5-0 
15 131 


15 1-4 
15 8.9 

15 17-7 


54 49-6 

55 146 
55 44-5 


40.94 
1.14 

x-35 


55 1-5 

55 28.9 

56 1.4 


+1.04 
X.25 
X.46 


X 29.2 

2 13.5 

3 0.3 


1.80 
X.89 
2.01 


2.4 

3-4 
4.4 


lO 

II 

12 


15 42.7 

15 33-6 
15 45-6 


15 28.0 

15 39.5 
15 51-9 


56 19.6 

56 59-6 

57 43-7 


+X-57 
X.76 

Z.90 


56 39.0 

57 21.2 

58 6.9 


4X.67 
X.84 
X.94 


3 50.3 

4 43-5 

5 39-5 


2.15 
2.28 

S.38 


5.4 
6.4 

7.4 


13 
15 


15 58.3 

16 io.g 

16 22.5 


16 4.7 
16 16.9 
16 27.6 


58 30.3 

59 16.8 

59 59-4 


+X.96 
X.88 
Z.63 


58 53.8 

59 38.9 

60 17.9 


41.94 
X.78 

x-43 


6 37.4 

7 35-7 

8 33.3 


2.43 
2.42 
2.37 


8.4 

9.4 

10.4 


i6 

17 
i8 


16 31.9 
16 37.7 
16 39.1 


16 35.3 
16 39.0 

16 37.9 


60 33-7 

60 55.1 

61 0.1 


+1.18 
+0.56 
-0.16 


60 46.2 
60 59.8 

^ 55-9 


40.89 
40.21 
-0.54 


9 29.4 

10 24.1 

11 17.6 


2.31 
2.25 
2.22 


11.4 
12.4 
13.4 


19 

20 
21 


16 35.5 
16 27.4 

16 15.5 


16 32.0 
16 21.8 
16 8.6 


60 47.2 
60 17.3 

59 33-7 


-0.90 

1.55 
a.03 


60 34.2 

59 56.9 
59 8.2 


-1.25 
X.82 
2.19 


12 10.7 

13 4.0 
13 58.0 


2.21 
2.23 
2.26 


14.4 

15-4 
16.4 


22 

23 

24 


16 1.2 

15 45-9 
15 310 


15 53-6 

15 38.3 
15 24.0 


58 41.2 

57 450 
56 50- 1 


"3.a9 

a-34 
a.2o 


58 13.2 
57 17.1 
56 24.3 


-«-34 
2.29 

2.08 


14 52.6 

15 47.3 

16 41.5 


2.28 
2.26 
2.23 


17.4 
18.4 
19.4 


25 

26 

27 


15 174 

IS 5-9 
14 56.9 


15 "-3 
15 10 

14 53-4 


56 0.2 

55 179 

54 44.8 


-1.93 

1.58 
1.17 


55 37.9 
55 o-i 
54 32.0 


-1.76 
1.38 

0.97 


17 340 

18 24.3 

19 12.0 


a.X5 
2.04 

x.94 


20.4 
21.4 
22.4 


28 
29 

30 


14 50.6 
14 46.9 

H 45-7 


14 48.4 
14 46.0 
14 46.0 


54 21-6 
54 8.1 
54 3-8 


-0.76 

-0.37 
0.00 


54 13.7 

54 4-9 
54 4.8 


-0.56 
-0.18 
40.16 


19 57.3 

20 40.5 

21 22.4 


1.84 

x-77 
1-73 


23.4 
24.4 

254 


31 


14 46.8 


14 48.0 


54 7-7 


40.31 


54 12.3 


40.45 


22 3-7 


X.72 


26.4 


















- 





150 



SEPTEMBER, 1899. 











GREENWICH 


MEAN TIME. 














THE MOON'S RIGHT 


ASCENSION AND DECLINATION. 






Honr. 




Right 


Diff. for 


Declination. 


Diff. for 


Hoar. 


Right 


Diff. for 


Declinatioa 


Diff.f6r 




Atcension. 


X Minute. 




X Minute. 




Aacension. 


X Minute. 






X Minnte. 






] 


FRIDAl 


r I. 






SUNDAY 3. 








h 


m ■ 


s 


• * f» 


m 




h m ■ 


B 


• 


* m 


m 


O 


8 


2 33.08 


j.Qoaa 


N.T7 43 14.9 


8.X33 





9 34 45.66 


X.8638 


N.IO 


14.5 


XO.867 


I 


8 


4 32.52 


1.9889 


17 35 3-4 


8.S37 


I 


9 36 37-34 


X.8604 


. 9 


49 21.3 


10.907 


2 


8 


6 31.75 


1.9835 


17 26 47.6 


8.399 


2 


9 38 28.91 


X.8587 


9 


38 25.7 


XO.946 


3 


8 


8 30.78 


X.9834 


17 18 27.5 


8.371 


3 


9 40 20.38 


1.8569 


9 


27 27.8 


XO.983 


4 


8 


ID 29.61 


X.9789 


X7 10 3.1 


8.44a 


4 


9 42 11.74 


1.853a 


9 


16 27.7 


XX.02X 


5 


8 


X2 28.25 


».9757 


17 I 34.4 


8.513 


5 


9 44 3.00 


1.8535 


9 


5 25.3 


XX.O57 


6 


8 


X4 26.69 


1.9793 


16 53 1.5 


8.382 


6 


9 45 54.16 


X.8SI9 


8 


54 20.8 


11.093 


7 


8 


16 24.93 


X.9691 


16 44 24.5 


8.6SX 


7 


9 47 45.23 


X.8503 


8 


43 14. I 


IX.X28 


8 


8 


18 22.98 


X.9659 


16 35 43.4 


8.7x9 


8 


9 49 36.20 


1.8488 


8 


32 5.4 


xx.x6a 


9 


8 


20 20.84 


X.9637 


16 26 58.2 


8.787 


9 


9 51 27.09 


1.8474 


8 


20 54.6 


11.197 


lO 


8 


22 18.50 


Z.9S94 


16 18 9.0 


8.853 


10 


9 53 17.89 


X.8460 


8 


9 41.7 


XX. 331 


ix 


8 


24 15.97 


x.956a 


16 9 15.8 


8.930 


II 


9 55 8.61 


X.8446 


7 


58 26.9 


XX. al^ 


X2 


8 


26 13.25 


X.9S33 


16 18.6 


8.985 


12 


9 56 59.24 


x.843a 


7 


47 10.2 


xi.a94 


13 


8 


28 10.35 


1.9301 


15 51 17.6 


9.049 


13 


9 58 49.79 


1.8419 


7 


35 51.6 


XX. 326 


14 


8 


30 7.26 


X.9470 


15 42 12.7 


9.XX3 


14 


xo 40.27 


1.8407 


7 


24 31.1 


11.337 


15 


8 


32 3.99 


1.9440 


15 33 4.0 


9-177 


15 


10 8 30.68 


1.8393 


7 


13 8.8 


XX.386 


i6 


8 


34 0.54 


x.94>o 


15 23 5X.5 


9*339 


16 


10 4 21.01 


1.8383 


7 


X 44.8 


1X.415 


17 


8 


35 56.91 


X.9380 


15 14 35.3 


9.30X 


17 


10 6 XI. 27 


1.837a 


6 


50 19.0 


11.443 


18 


8 


37 53.10 


1.9350 


15 5 15.4 


9.36a 


18 


10 8 1.47 


X.8363 


6 


38 51.6 


11.47* 


19 


8 


39 49." 


i.93ai 


X4 55 5X.8 


9.433 


19 


10 9 51.61 


i.8351 


6 


27 22.5 


11.498 


io 


8 


41 44.95 


1.999s 


14 46 24.7 


9.483 


20 


10 II 41.68 


1.8341 


6 


15 51.8 


IX.524 


21 


8 


43 40.61 


x.9a6s 


14 36 54.0 


9.541 


21 


10 13 31.70 


X.8332 


6 


4 19.6 


11.549 


22 


8 


45 36. IX 


x.9a35 


X4 27 19.8 


9.599 


22 


10 15 21.67 


1.8323 


5 


52 45.9 


11.574 


23 


8 


47 31.43 


1.9306 


N.14 x7 42.1 


9.«57 


23 


10 17 11.58 


1.83x4 


N. 5 4X 10.7 


M.598 






SA 


iTURDi 


\y a. 






1^ 


rONDA^ 


5^4. 






O 


8 


49 26.58 


X.9X78 


N.14 8 x.o 


9.713 





xo 19 X.44 


1.8307 


N. 5 


29 34.1 


ii.6sa 


I 


8 


51 21.57 


l,9X5« 


13 58 16.5 


9.769 


x 


10 20 51.26 


X.8300 


5 


17 56.1 


".645 


2 


8 


53 16.40 


i.9ia5 


13 48 28.7 


9.8a4 


2 


10 22 41.04 


x.8a9a 


5 


6 16.7 


XX.667 


3 


8 


55 ".07 


1.9C98 


13 38 37.6 


9.879 


3 


10 24 30.77 


X.8386 


4 


54 36.0 


XI.688 


4 


8 


57 5.57 


X.907X 


13 28 43.2 


9.934 


4 


10 26 40.47 


X.838X 


4 


42 54.1 


11.709 


5 


8 


58 59.92 


1.9046 


13 18 45.5 


9.987 


5 


10 28 10.14 


1.8375 


4 


31 10.9 


XX.729 


6 


9 


54. X2 


X.90W 


13 8 44.7 


X0.039 


6 


10 29 59.77 


X.8270 


4 


19 26.6 


11.748 


7 


9 


2 48. x6 


X.8994 


12 58 40.8 


X0.09X 


7 


10 31 49.38 


X.8266 


4 


7 41.1 


XX.767 


8 


9 


4 42.05 


t.8969 


12 48 33.8 


io.X4a 


8 


10 33 38.96 


x.826a 


3 


55 54.5 


11.783 


9 


9 


6 35 79 


X.8945 


12 38 23.7 


X0.X93 


9 


10 35 28.52 


1.8238 


3 


44 6.9 


XX. 803 


lO 


9 


8 29.39 


i.dgm 


12 28 10.6 


xo.a43 


10 


10 37 18.06 


X.8236 


3 


32 18.2 


xx.8flo 


zx 


9 


10 22.84 


1.8897 


12 17 54.5 


xo.a93 


IX 


10 39 7.59 


I.88S3 


3 


20 28.5 


11.835 


12 


9 


Z2 Z6.I5 


1.887s 


X2 7 35.6 


X0.340 


12 


10 40 57.10. 


X.8351 


3 


8 38.0 


XI. 849 


13 


9 


14 9.32 


1.883X 


" 57 13.7 


X0.388 


13 


10 42 46.60 


1.8349 


2 


56 46.6 


XX.864 


14 


9 


16 2.36 


x.B8a8 


II 46 49.0 


10.435 


14 


10 44 36.09 


X.8a48 


2 


44 54.3 


XI. 878 


15 


9 


17 55.26 


X.8805 


II 36 21.5 


10.483 


15 


10 46 25.58 


1.8348 


2 


33 1.2 


XI. 89s 


x6 


9 


19 48.02 


1.8783 


II 25 51.2 


xo.5«7 


16 


10 48 15.07 


X.8348 


2 


21 7.3 


11.904 


17 


9 


21 40.66 


x.876a 


II 15 18.2 


10. 37a 


17 


10 50 4.56 


X.8248 


2 


9 12.7 


XX.9I6 


i8 


9 


23 33.17 


X.874X 


II 4 42.5 


10.6x7 


18 


10 51 54.05 


1.8249 




57 17-4 


XX.927 


19 


9 


25 25.55 


1.0720 


10 54 4.2 


X0.660 


19 


10 53 43-55 


X.825X 




45 21.5 


11.937 


20 


9 


27 X7.81 


X.8700 


10 43 23.3 


xo.7« 


20 


10 55 33.06 


1.8353 




33 25.0 


11.947 


21 


9 


29 9.95 


x.8Nk) 


10 32 39.8 


XO.746 


21 


10 57 22.59 


1.8256 




21 27.9 


11.935 


22 


9 


31 1.97 


X.8660 


xo 21 53.8 


10.787 


22 


10 59 12.13 


1.8258 




9 30.4 


X1.963 


a3 


9 


32 53.87 


X.8641 


10 II 5.3 


X0.837 


23 


II I 1.69 


x.826« 





57 32.3 


IX.971 


24 


9 


34 45.66 


X.862S 


N.io 14.5 


10.867 


24 


II 2 51.28 


1.8267 


N. 


45 33.9 


11.977 



VL 



SEPTEMBER, 1899. 



151 









GREENWICH 


MEAN 


TIME. 








THE MOON'S RIGHT ASCENSION AND DECLINATION. 


1 

Hoar. 


Right 


Diff.for 


Declinatioa. 


DiiLfor 


Hour. 




Rifcht 


Diff.fbr 


Declinatioa 


DifF.for 




Ascensioa 


X Minute. 




I Minute. 




Aicenaioa 


I Minute. 




I Minute. 




Tl 


JESDA 


Y5. 








THURSDAY 7. 






h m ■ 


8 


• * » 


• 




h 


m ■ 


■ 


• • 


m 


O 


IX 2 51.28 


1.8367 


N. 45 33.9 


11.977 





12 


31 59.12 


x.907t 


S. 8 43 8.6 


M.4a7 


I 


II 4 40.89 


x.8a7x 


33 35- 1 


ZI.983 


I 


12 


33 53.64 


X.910X 


8 54 33*3 


11.396 


2 


II 6 30.53 


1.8076 


21 35.9 


ZI.989 


2 


12 


35 48.33 


1.9130 


9 5 56-1 


XX. 364 


3 


II 8 20.20 


z.8a83 


N. 9 36.4 


Z1.993 


3 


12 


37 43.20 


X.9161 


9 17 17.0 


XI. 333 


4 


II 10 9.91 


X.8SB7 


S. 2 23.3 


".997 


4 


12 


39 38.26 


1.9x93 


9 28 35.9 


XX.298 


5 


II II 59.65 


X.8994 


14 23.2 


13.000 


5 


12 


41 33.51 


1.9333 


9 39 52.8 


XX.364 


6 


II 13 49-44 


X.830S 


26 23.3 


13.003 


6 


12 


43 28.94 


X.9355 


9 51 7.6 


11.339 


7 


II 15 39.27 


1.8309 


38 23.6 


13.005 


7 


12 


45 24.57 


X.9387 


10 2 20.3 


XI. 193 


8 


II 17 29.15 


X.8317 


50 23.9 


13.005 


8 


12 


47 20.39 


X.9S30 


10 13 30.8 


XI. 157 


9 


II 19 19.08 


1.8336 


X 2 24.2 


IS.005 


9 


12 


49 16.41 


X.9353 


10 24 39.1 


XX.XX9 


lO 


II 21 9.06 


1.8335 


X 14 24.5 


13.005 


10 


12 


51 12.63 


x.9387 


10 35 45.1 


xx.o8x 


II 


II 22 59.10 


1.8345 


I 26 24.8 


13. 004 


II 


12 


53 9.06 


X.9483 


10 46 48.8 


XX. 043 


12 


II 24 49.20 


1.8355 


I 38 25.0 


13.003 


12 


12 


55 5.70 


X.9457 


10 57 50.1 


XX. 003 


13 


II 26 39.36 


1.8366 


I 50 25.1 


xi-999 


13 


12 


57 2.54 


1.9493 


II 8 49.0 


X0.96I 


H 


II 28 29.59 


X.8377 


2 2 24.9 


11.996 


14 


12 


58 59.60 


X.9537 


II 19 45.4 


10.9x8 


15 


II 30 19.89 


1.8389 


2 14 24.6 


11.99a 


15 


13 


56.87 


X.9563 


II 30 39^2 


X0.876 


i6 


II 32 10.26 


1.8403 


2 26 24.0 


11.987 


16 


13 


2 54.36 


X.9600 


II 41 30.5 


10.833 


17 


II 34 0-7I 


1.8415 


a 38 23.0 


11. 981 


17 


13 


4 52.07 


X.9637 


II 52 19.1 


X0.788 


i8 


II 35 51-24 


1.8438 


a 50 21.7 


XX.975 


18 


13 


6 50.00 


X.9674 


12 3 5.1 


X0.743 


19 


II 37 41.85 


1.8443 


3 2 20.0 


XI.968 


19 


13 


8 48.16 


1.97x8 


12 13 48,3 


X0.697 


20 


II 39 32.54 


1.8456 


3 14 17.9 


XX. 960 


20 


13 


10 46.55 


X.975X 


12 24 28.7 


. X0.649 


21 


II 41 23.32 


1.8471 


3 26 15.2 


X1.95X 


21 


13 


12 45.17 


X.9790 


12 35 6.2 


I X0.60X 


22 


II 43 14.19 


1.8487 


3 38 12.0 


IX.942 


22 


13 


14 44.03 


X.9839 


12 45 40.8 


10.553 


23 


II 45 5.16 
WE 


1.850a 

DNESr 


S. 3 50 8.2 
>AY 6. 


XI. 933 


23 


13 


16 43.12 

] 


X.9B69 

FRIDAl 


S.12 56 12.4 
f 8. 


10.503 


O 


IX 46 56.22 


1.8519 


S. 4 2 3.8 


XZ.93X 





13 


18 42.46 


1.99x0 


S.13 6 41.0 


10.458 


I 


II 48 47.39 


1.8537 


4 13 58.7 


XI.909 


I 


13 


20 42.04 


X.9950 


13 17 6.6 


XO.400 


2 


II 50 38.66 


1.8553 


4 25 52.9 


XX.897 


2 


13 


22 41.86 


1.999X 


13 27 29.0 


10.347 


3 


II 52 30.03 


1.8371 


4 37 46.3 


XX.883 


3 


13 


24 41.93 


3. 0033 


13 37 48.2 


10. 393 


4 


XI 54 21.51 


1.8590 


4 49 38.9 


IX.869 


4 


13 


26 42.25 


t.0074 


13 48 4.2 


X0.239 


5 


II 56 13. I I 


1.8610 


5 I 30-6 


11.855 


5 


13 


28 42.82 


3.01X6 


13 58 16.9 


xo. 183 


6 


II 58 4.83 


1.8699 


5 13 21.5 


XX. 840 


6 


13 


30 43.64 


3.0x58 


14 8 26.2 


xo.xa7 


7 


II 59 56.66 


X.8649 


5 25 11.4 


XX.833 


7 


13 


32 44.72 


3.0303 


14 18 32.1 


X0.070 


8 


12 I 48.62 


1.8670 


5 37 0.3 


IX.806 


8 


13 


34 46.06 


2.0345 


14 28 34.6 


XO.OX3 


9 


12 3 40.70 


Z.869Z 


5 48 48.1 


XI. 788 


9 


13 


36 47.66 


S.OS89 


14 38 33.5 


9.953 


lO 


12 5 32.91 


1.87x3 


6 34.9 


XX.770 


10 


13 


38 49.53 


S.Q3S4 


14 48 28.8 


9.893 


II 


12 7 25.25 


1.8735 


6 12 20.5 


XX. 751 


II 


13 


40 51.67 


t.0378 


14 58 20.5 


9.83X 


12 


12 9 17-73 


1.8758 


6 24 5.0 


XX.73I 


X2 


13 


42 54.07 


3. 0433 


15 8 8.5 


9.768 


13 


12 II 10.35 


x.8783 


6 35 48.2 


XX. 710 


13 


13 


44 56.74 


3.0468 


15 17 52.7 


9.705 


14 


12 13 3.11 


1.8805 


6 47 30.2 


XX.688 


14 


13 


46 59.69 


8.05x4 


15 27 33.1 


9.642 


15 


12 14 56.01 


Z.8839 


6 59 10.8 


ix.6e6 


15 


13 


49 2.91 


3.0560 


15 37 9.7 


9.577 


i6 


12 16 49.06 


1.8854 


7 10 50.x 


XX.643 


16 


13 


51 6.41 


8. 0606 


15 46 42.4 


9.5x1 


17 


12 18 42.26 


X.8879 


7 22 27.9 


XZ.617 


17 


13 


53 10.18 


8.0653 


15 56 II.O 


9.443 


i8 


12 20 35.61 


1.8905 


7 34 4.2 


XI. 59a 


18 


13 


55 14.34 


8.0700 


16 5 35.6 


9.375 


19 


12 22 29.12 


X.8933 


7 45 39.0 


XX.567 


19 


13 


57 18.58 


3.0747 


16 14 56.0 


9.306 


20 


12 24 22.79 


X.8958 


7 57 12.3 


XX.54X 


20 


13 


59 23.20 


8.0794 


16 24 12.3 


9.337 


21 


12 26 16.62 


1.8986 


8 8 43.9 


11.5x3 


21 


14 


I 28. XI 


8.0843 


16 33 24.4 


9.X66 


22 


12 28 10.62 


1.9013 


8 20 13.9 


11.485 


22 


14 


3 33- 30 


S.0890 


16 42 32.2 


9.094 


23 


12 30 4.78 


1.9049 


8 31 42.1 


IX.456 


23 


14 


5 38.79 


3.0938 


16 51 35.7 


9>03X 


24 


12 31 59.12 


1.907s 


S. 8 43 8.6 


11.437 


24 


14 


7 44.56 


8.0987 


S.17 34.7 


8.947 



152 



SEPTEMBER, 1899. 



VII. 







^^^■■% 






GREENWICH 


MEAN TIME. 


















THE MOON'S 


RIGHT 


ASCENSION . 


AND DECLINATION^ 








Hour. 




Right 


DIff. for 


Declination. 


Diff. for 


Hour. 




Right 


DifF. for 


DeclinstioiL 


Difr.for 




Ascension. 


I Minute. 






X Minute. 




Ascension. 


I Minute. 


f 






X Minute. 








S/ 


ITURD. 


^Y 9 


• 








MONDAY XI. 










h 


m 


s 


s 


• 


m 


m 




h 


m 9 


s 


• 


» 


• 


• 


O 


14 


7 


44-56 


a. 09^ 


S.17 


34.7 


8.947 





15 


54 19.23 


a. 3406 


S.22 


25 


35.9 


4. •7 


I 


14 


9 


50.63 


t.XQJ7 


17 


9 29.3 


8.87a 


I 


15 


56 39.80 


a. 345a 


22 


29 


44.7 


4.<«5 


2 


14 


II 


57.00 


a.zQB6 


17 


18 19.3 


8.796 


3 


15 


59 0.65 


a. 3498 


22 


33 


46.1 


3.051 


3 


14 


14 


3.66 


a. I 134 


17 


37 4.8 


8.7x9 


3 


16 


I 21.78 


a. 3544 


22 


37 


40.0 


3.836 


4 


14 


16 


10.61 


a.1184 


17 


35 45.6 


8.64Z 


4 


16 


3 43.18 


a. 3589 


22 


41 


26.4 


S-7» 


5 


14 


18 


17.87 


a.x3S5 


17 


44 21.7 


8.562 


5 


16 


6 4.85 


a. 3634 


22 


45 


5.3 


3. 584 


6 


14 


ao 


25.43 


2.1984 


17 


52 53.1 


8.482 


6 


16 


8 26.79 


3.3678 


22 


48 36.5 


3.457 


7 


14 


22 


33 C 


2,iS34 


18 


I 19.6 


8.4OX 


7 


16 


10 48.99 


a.37a3 


22 


52 


O.I 


3.339 


8 


14 


24 


41.44 


a. 1385 


18 


9 41.2 


8.319 


8 


16 


13 11.45 


3.3765 


22 


55 


16.0 


S.aoo 


9 


M 


26 


49.90 


a. 1436 


18 


17 57.9 


8.237 


9 


16 


15 34.17 


3.3808 


22 


58 


24.1 


S.070 


lO 


14 


28 


58.67 


a. 1487 


18 


36 9.6 


8.X53 


10 


16 


17 57.15 


3.3850 


23 


I 


24.4 


9.940 


IX 


14 


31 


7.74 


a. 1537 


18 


34 16.3 


8.068 


II 


16 


30 20.37 


2.3893 


23 


4 


16.9 


9.808 


£2 


14 


33 


17,11 


a. 1587 


18 


42 17.7 


7.98a 


13 


16 


32 43.85 


3,3933 


23 


7 


1.4 


9.676 


13 


14 


35 


26.79 


a.x^ 


18 


50 14.0 


7.894 


13 


16 


25 7.57 


a. 3973 


23 


9 


38.0 


9.543 


14 


14 


37 


36.78 


a.x69i 


18 


58 5.0 


7.806 


14 


16 


27 31.53 


3.4013 


23 


13 


6.5 


3.408 


15 


14 


39 


47.08 


t.x74a 


19 


5 50.7 


7-717 


15 


16 


29 55.73 


3.405a 


23 


14 


27.0 


3.374 


i6 


14 41 


57.69 


a.i7W 


19 


13 31.1 


7.637 


16 


16 


32 20.16 


3.4093 


23 


16 


39.4 


3.139 


17 


14 


44 


8.60 


a.x84S 


19 


31 6.0 


7.536 


17 


16 


34 44.83 


3.4130 


23 


18 


43.7 


8. 003 


i8 


14 


46 


19.83 


a.x8lB7 


19 


38 35.4 


7.443 


18 


16 


37 9.72 


2.4167 


23 


30 


39.8 


x.8fi6 


19 


14 


48 


31.36 


a. 1948 


19 


35 59.2 


7.350 


19 


16 


39 34.83 


3.43(Q 


23 


22 


27.6 


X.798 


ao 


14 


50 


43.20 


a-aooo 


19 


43 17.4 


7.356 


30 


16 


4a 0. 16 


3.4239 


23 


24 


7.2 


x.5»i 


ai 


14 


52 


55.36 


a.aosa 


19 


50 39.9 


7.161 


31 


16 


44 25.70 


a.4a75 


23 


25 


38.5 


1.45a 


aa 


14 


55 


7.82 


a.aiot 


19 


57 36.7 


7.065 


23 


16 


46 51.46 


a.43xo 


23 


27 


1.4 


X.3X9 


as 

1 


14 


57 


20.59 
S 


a. 2154 

UNDAl 


S.ao 

r 10. 


4 37.7 


6.967 


23 


16 


49 17.42 
Tl 


a.4343 

JESDA 


S.23 

Y 12. 


38 


15.9 


X.X7I 


o 


14 


59 


33.67 


a.aai9 


s.ao 


II 32.8 


6.809 





16 


51 43.58 


a.4377 


S.23 


29 


21.9 


x.cqo 


I 


15 


I 


47.07 


a.8as8 


ao 


18 32.0 


6.769 


I 


16 


54 9.94 


a. 4409 


23 


30 


19.5 


0.889 


a 


15 


4 


0.77 


a.a3io 


20 


25 5.1 


6.668 


a 


16 


56 36.49 


a.444X 


23 


31 


8.6 


0.747 


3 


15 


6 


14.79 


a. 236a 


ao 


31 43.3 


6.567 


3 


16 


59 3.23 


8.447a 


23 


31 


49.2 


0.605 


4 


15 


8 


29.12 


a.a4i3 


ao 


38 13.2 


6.465 


4 




I 30.16 


3.4502 


23 


32 


21.2 


0.462 


5 


15 


10 


43.75 


a. 3464 


20 


44 38.0 


6.362 


5 




3 57.26 


a.453a 


23 


32 


44.6 


0.3x8 


6 


15 


12 


58.69 


a.a5x6 


20 


50 56.6 


6.357 


6 




6 24.54 


3.456X 


23 


32 


59.4 


O.X74 


7 


15 


15 


13.94 


t.a367 


ao 


57 8.9 


6.152 


7 




8 51.99 


a.458B 


23 


33 


5.5 


- 0.099 


8 


15 


17 


29.50 


a.a6x8 


ai 


3 14.8 


6.045 


8 




II 19.60 


3.4615 


23 


33 


a. 9 


-f 0.X16 


9 


15 


19 


45.36 


a.a669 


ai 


9 14.3 


5.937 


9 




13 47.37 


3.4643 


23 


32 


51.6 


0.261 


zo 


15 


32 


1.53 


a. 8790 


21 


15 7.3 


5.83a 


10 




16 15.30 


9.4667 


23 


32 


31.6 


0.407 


II 


15 


24 


18.00 


a.a77x 


21 


20 53.7 


5.7x9 


II 




18 43.37 


9.469X 


23 


32 


a. 7 


0.554 


la 


15 


26 


34.78 


a.a8M 


21 


26 33.6 


5.609 


13 




21 11. 59 


9.4715 


23 


31 


25.1 


0.701 


13 


15 


28 


51.86 


a.a87a 


21 


32 6.8 


S.497 


13 




23 39.95 


a.4737 


23 


30 


38.6 


0.848 


14 


15 31 


9.24 


a.29«i 


21 


37 33.3 


S.38S 


14 




26 8,44 


a.47«o 


23 


29 43.3 


0.99S 


15 


15 


33 


26.9a 


a. 2979 


21 


42 53.0 


5.a7a 


15 




38 37.07 


9.478a 


23 


28 


39.2 


X.X43 


i6 


15 


35 


44.90 


a.3091 


21 


48 5.9 


5.X57 


16 




31 5.82 


9.4809 


23 


27 


36.1 


X.292 


17 


15 


38 


3.17 


a. 3070 


21 


53 "9 


5.04a 


17 




33 34.69 


3.4831 


23 


26 


4.2 


X.440 


i8 


15 


40 


21.74 


9.3x19 


21 


58 10.9 


4.9>5 


18 




36 3.67 


3. 4839 


23 


24 33.3 


1.589 


19 


15 


42 


40.60 


a. 3167 


22 


3 2.9 


4.806 


19 




38 32.76 


8.4857 


23 


22 


53.5 


1.738 


ao 


15 


44 


59.75 


a.3ai6 


23 


7 47.9 


4.690 


30 




41 X.95 


3.4873 


23 


21 


4.7 


X.887 


ai 


15 


47 


19.19 


a.3a64 


32 


12 35.7 


4.57X 


21 




43 31.24 


3.4890 


23 


19 


7.0 


9.037 


aa 


15 


49 


38.92 


a.33xa 


33 


16 56.4 


4.4SX 


23 




46 0.63 


a. 4906 


23 


17 


0.2 


9. 187 


a3 


15 


51 


58.93 


a. 3358 


33 


31 19.8 


4.3a9 


23 




48 30.11 


a. 4990 


23 


M 


44.5 


a. 337 


«4 


15 


54 


19.22 


t.34C« 


S.aa 


25 35.9 


4-«P7 


24 




50 59.67 


a.4933 


S.23 


12 


19.8 


a.4ay 



VIIL 



SEPTEMBER, 1899. 



153 













GREENWICH 


MEAN TIME. 
















THE MOON'S RIGHT ASCENSION AND DECLINATION. 






How. 




Right 


Diff. for 


Declination. 


Diff. for 


Hoar. 




Right 


Diff. for 


DeclinaiioB. 


Diff. for 




Atcension. 


X Minute. 






I Minute. 




Aacensioa 


X Minute. 






I Minute. 








WE 


DNESE 


>AY 13. 










FRIDAY 


15. 










m 


■ 


• 


• 


• 


tt 




h 


a • 


s 


o t 


m 


• 


O 


17 


50 


59.67 


a*49S3 


S.23 12 


X9.8 


2.487 





19 


50 38,52 


a.4647 


S.I8 23 


12.5 


9.381 


X 


17 


53 


39.31 


2.4940 


23 9 


46.x 


2.637 


I 


19 


53 6.34 


t.46a6 


18 13 


45.8 


9.506 


a 


17 


55 


59.0a 


•.4957 


23 7 


3.4 


«.787 


2 


19 


55 34.03 


a.4604 


18 4 


II.5 


9*634 


3 


17 


58 


28.79 


a.4967 


23 4 


XI. 6 


a. 938 


3 


19 


58 1.59 


a.438a 


17 54 


29.7 


9.739 


4 


18 





38.62 


a.49;7 


23 I 


10.8 


3.088 


4 


20 


29.02 


a.4561 


17 44 


40.4 


9.884 


5 


18 


3 


28.51 


a.4986 


22 58 


I.O 


3.238 


5 


20 


2 56.32 


2.4538 


17 34 


43-6 


10.007 


6 


18 


5 


58.45 


«.4994 


22 54 


42.2 


3.388 


6 


20 


5 23.48 


2.4316 


17 24 


39.5 


xo.ia8 


7 


18 


8 


28.44 


2.$ooa 


22 51 


14.4 


3.539 


7 


20 


7 50.51 


2.4493 


17 14 


28.2 


10.249 


8 


18 


10 


58.47 


a.sooB 


22 47 


37.5 


3.690 


8 


20 


10 17.40 


2.4470 


17 4 


9.6 


10.370 


9 


18 


13 


28.54 


a.Soi3 


22 43 


51.6 


3.840 


9 


20 


12 44.15 


•.4447 


16 53 


43.8 


10.488 


lO 


18 


«5 


58.63 


a. 5017 


22 39 


56.7 


3.990 


10 


20 


15 10.76 


2.4423 


16 43 


II. 


10.603 


II 


18 


18 


28.75 


2.sosa 


22 35 


52.8 


4.140 


II 


20 


17 37.23 


2.4400 


16 32 


31.2 


10.721 


12 


18 


20 


58.89 


8.5013 


22 31 


39.9 


4.290 


12 


20 


20 3.36 


2.4376 


16 21 


44.4 


10. 837 


13 


18 


23 


29.05 


«.50t7 


22 27 


18.0 


4.440 


13 


20 


22 29.74 


2.433a 


16 10 


50.8 


10.930 


H 


18 


25 


59.21 


«.5oa7 


22 22 


47.1 


4.389 


14 


20 


24 55.78 


2.4327 


15 59 


50.4 


xx.062 


15 


18 


28 


29.38 


1.3028 


22 18 


7.3 


4.738 


15 


20 


27 21.67 


2.4303 


15 48 


43.4 


11.172 


i6 


18 


30 


59-55 


S.S09B 


22 13 


18.5 


4.887 


16 


20 


29 47.42 


2.4279 


15 37 


29.7 


11.288 


17 


X8 


33 


29.72 


a.50«7 


22 8 


20.8 


5.037 


17 


20 


32 13.02 


2.4234 


15 26 


9.5 


11.391 


i8 


18 


35 


59.87 


a.5oa4 


22 3 


14. 1 


5.185 


18 


20 


34 38.47 


2.4229 


15 14 


42.8 


11.498 


19 


18 


38 


30.01 


a.soaa 


21 57 


58.6 


3.333 


19 


20 


37 3.77 


2.4204 


15 3 


9.7 


11.604 


20 


18 


41 


0.13 


a. 3018 


21 52 


34.1 


3.482 


20 


20 


39 28.92 


2.4x80 


14 51 


30.3 


11.708 


21 


18 


43 


30.23 


a. 5014 


21 47 


0.8 


3.6a8 


21 


20 


41 53.93 


«.4X33 


14 39 


44.7 


11.81X 


22 


18 


46 


0.30 


a, 3008 


21 41 


18.7 


3.773 


22 


20 


44 18.78 


t.4129 


14 27 


53.0 


11.912 


23 


18 


48 30.33 


a^soos 


S.2I 35 


27.8 


3.92S 


23 


20 


46 43.48 


2.4104 


S.14 15 


55.2 


I2«OX2 








TH 


URSDi 


LY 14. 










SA 


TVKDA 


lY 16. 






O 


18 


51 


0.33 


a-4996 


S.21 29 


28.1 


6.087 





20 


49 8.03 


2.407f 


S.14 3 


51.5 


12.111 


I 


18 


53 


30.28 


a.4988 


21 23 


19.7 


6.213 


I 


20 


51 32.43 


2.4033 


13 51 


41.9 


12.208 


a 


18 


56 


0.19 


2*4981 


21 17 


2.5 


6.330 


2 


20 


53 56.69 


2.4030 


13 39 


26.5 


12.303 


3 


18 


58 


30.05 


t.4972 


21 10 


36.6 


6.504 


3 


20 


5fj 20.79 


2.4004 


13 27 


5.5 


12.397 


4 


19 





59.85 


a. 496a 


21 4 


2.0 


6.648 


4 


20 


58 44.74 


2.3979 


13 14 


38.8 


12.491 


5 


19 


3 


29.59 


2.4932 


20 57 


18.8 


6.79a 


5 


21 


I 8.54 


•.3933 


13 2 


6.6 


12.38s 


6 


19 


5 


59.27 


2.4941 


20 50 


27.0 


6.934 


6 


21 


3 32.20 


2.3931 


12 49 


28.9 


12.672 


7 


19 


8 


28.88 


2.4929 


20 43 


26.7 


7.077 


7 


21 


5 55.71 


2.3906 


12 36 45.9 


12.780 


8 


19 


10 


58.42 


2.4917 


20 36 


17.8 


7.219 


8 


21 


8 19.07 


2.388X 


12 23 


57.7 


12.847 


9 


19 


13 


27.89 


2.4904 


20 29 


0.4 


7.360 


9 


21 


10 42.28 


2.3837 


12 II 


4.3 


12.938 


lO 


19 


15 


57.27 


2.4890 


20 21 


34.6 


7.500 


10 


21 


13 5.35 


2.383a 


II 58 


5.9 


13.013 


IX 


19 


18 


26.57 


2.4877 


20 14 


0.4 


7.640 


II 


21 


15 28.27 


2.3807 


" 45 


2.5 


13.097 


la 


19 


20 


55.79 


2.486t 


20 6 


17.8 


7.779 


12 


21 


17 51.04 


2.3783 


II 31 


54.2 


J3.I77 


13 


19 


23 


24.92 


2.4847 


19 58 


26.9 


7.917 


13 


21 


20 13.67 


2.3761 


II 18 


41.2 


I3.a36 


14 


19 


25 


53.96 


2.48sa 


19 50 


27.8 


8.034 


14 


21 


22 36.17 


a. 3737 


II 5 


23.3 


13.333 


15 


19 


28 


22.90 


2.4815 


19 42 


20.4 


8.19a 


15 


21 


24 58.32 


2.3713 


10 52 


1.2 


13.409 


i6 


19 


30 


51.74 


2.4798 


19 34 


4.8 


8.327 


16 


21 


27 20.73 


a. 3691 


10 38 


34.4 


13.488 


17 


19 


33 


20.48 


2.47«« 


19 25 


41. 1 


8.462 


17 


21 


29 42.81 


2.3667 


10 25 


3.3 


13.533 


i8 


19 


35 


49.11 


2.47*2 


19 17 


9.4 


8.596 


18 


21 


32 4.74 


2.3644 


10 II 


27.8 


13.686 


19 


19 


38 


17.63 


2.4744 


19 8 


29.6 


8.729 


19 


21 


34 26.54 


2.3622 


9 57 


48.2 


13.694 


20 


19 


40 


46.04 


2.47«6 


18 59 


41.9 


8.861 


20 


21 


36 48.21 


2.3601 


9 44 


4.5 


13.761 


21 

j 


19 


43 


14.34 


2.4707 


18 50 


46.3 


8.992 


21 


21 


39 9.75 


2.3579 


9 30 


16.8 


13.827 


22 


19 


45 


42.52 


2.4687 


18 41 


42.8 


9. Its 


22 


21 


41 31.16 


a. 3537 


9 16 


25.3 


13.890 


1 23 


19 


48 


10.38 


2.4667 


18 32 


31.5 


9.253 


23 


21 


43 52.43 


2. 3333 


9 2 


30.0 


13.93a 


1^ 


19 


50 


38.52 


•.4647 


S.18 a3 


X2.5 


9.381 


24 


21 


46 13.58 


•«3514 


S. 8 48 


31.0 


14.013 



154 



SEPTEMBER, 1899. 



IX. 













GREENWICH 


MEAN 


TIME. 


















THE MOON'S 


^ RIGHT 


' ASCENSION . 


AND DECLINATION. 


1 






Hour. 




Right 


Diff. for 


Declination. 


Diff. for 


Hour. 




RiRht 


Diff. for 


Declinaiioa 


DiflL for 




Ascension. 


I Minute. 








1 Minute. 




Ascension. 


1 Minute. 








1 Minute. 








S 


►UNDA^ 


V 17. 














TUESDAY 19 


■ 








h 


m 


■ 


■ 


• 


» 


» 


m 




h 


m 


s 


s 





• 


m 


m 


O 


21 


46 


13.58 


a.35U 


S. 8 


48 


31.0 


14.013 





23 


37 


23.28 


2.2967 


N. 3 





7.9 


X4.8a6 


I 


21 


48 


34.60 


a. 3493 


8 


34 


28.4 


14.07a 


X 


23 


39 


41.08 


2.2967 


3 


14 


56.7 


14-799 


2 


21 


50 


55.50 


«-3473 


8 


20 


22.4 


I4.ia8 


2 


23 


41 


58. 88 


a. 8967 


3 


29 


43.8 


14.770 


3 


21 


53 


16.28 


a. 3453 


8 


6 


13.0 


14.184 


3 


23 


44 


16.68 


a. 2967 


3 


44 


29.1 


14.740 


4 


21 


55 


36.94 


a. 3433 


7 


52 


0.3 


14.237 


4 


23 


46 


34.48 


2.8967 


3 


59 


12.6 


14.708 


5 


21 


57 


57.48 


a. 3413 


7 


37 44.5 


14.289 


5 


23 


48 


52.28 


8.2967 


4 


13 


54.1 


14-675 


6 


22 





17.90 


a. 3394 


7 


23 


25.6 


X4.340 


6 


23 


51 


XO.09 


8.3969 


4 


28 


33.6 


14.640 


7 


22 


2 


38.21 


a. 3376 


7 


9 


3.7 


14.388 


7 


23 


53 


27.91 


2.2971 


4 


43 


10.9 


14.603 


8 


22 


4 


58.41 


a. 3357 


6 


54 


39.0 


X4.434 


8 


23 


55 


45.74 


a. 8973 


4 


57 46.0 


14.565 


9 


22 


7 


18.50 


a. 3339 


6 


40 


II. 6 


X4.479 


9 


23 


58 


3.58 


8.8976 


5 


12 


18.7 


«4.5a4 


lO 


22 


9 


38.48 


a.33aa 


6 


25 


41.5 


i4.5aa 


10 








21.45 


8.8979 


5 


26 


48.9 


14.483 


XX 


22 


IX 


58.36 


a. 3305 


6 


II 


8.9 


14.563 


II 





2 


39.33 


a. 8982 


5 


41 


16.5 


14.438 


12 


22 


14 


18.14 


a.3a88 


5 


56 


33.9 


14.602 


12 





4 


57.23 


a.a986 


5 


55 


41.5 


14.393 


13 


22 


16 


37.82 


3.3a7a 


5 41 


56.6 


14.640 


13 





7 


15.16 


a. 8990 


6 


10 


3.7 


14.346 


14 


22 


18 


57.40 


a. 3*55 


5 


27 


17. 1 


14.677 


14 





9 


33." 


a. 8994 


6 


24 


23.0 


14.897 


15 


22 


21 


16.88 


a. 3839 


5 


12 


35.4 


14.711 


15 





II 


51.09 


8.8999 


6 


38 


39-4 


14.847 


x6 


22 


23 


36.27 


a.3aa4 


4 


57 


51.8 


14. 74a 


16 





14 


9.10 


8.3004 


6 


52 


52.7 


14.196 


17 


22 


25 


55.57 


a. 3209 


4 


43 


6.3 


X4.773 


17 





16 


27.14 


a. 3010 


7 


7 


2.9 


14.148 


i8 


22 


28 


14.78 


a. 3194 


4 


28 


19.0 


14.802 


18 





18 


45.22 


a. 3016 


7 


21 


9.8 


14.087 


19 


22 


30 33-90 


a.3181 


4 


13 


30.1 


14.828 


19 





21 


3.33 


a. 302a 


7 


35 


13.4 


14.031 


20 


22 


32 


52.95 


3.3x67 


3 


58 


39.6 


X4.853 


20 





23 


21.48 


8.3028 


7 


49 


13.5 


13.97a 


21 


22 


35 


II. 91 


a. 3153 


3 


43 


47.7 


14.877 


21 





25 


39.67 


a. 3035 


8 


3 


10. X 


13.9x3 


22 


22 


37 


30.79 


a.3141 


3 


28 


54.4 


14.898 


22 





27 


57.90 


8.3048 


8 


17 


3.1 


13.858 


23 


22 


39 49.60 


a.3ia9 


S. 3 


13 


59.9 


14.9x8 


23 





30 


16.17 


8.3049 


N. 8 


30 


52.3 


13.789 








M 


ONDAl 


I 18. 














WE] 


DNESD 


AY 20. 






O 


22 


42 


8.34 


2.31x7 


S. 2 


59 


4.2 


14.936 








32 


34.49 


8.3057 


N. 8 


44 


37.8 


13.786 


X 


22 


44 


27.01 


a. 3x06 


2 


44 


7.6 


14.95a 


X 





34 


52.86 


8.3065 


8 


58 


19.4 


13.659 


2 


22 


46 45.61 


a. 3094 


2 


29 


10. 


14.967 


2 





37 


11.27 


8.3073 


9 


II 


56.9 


13.598 


3 


22 


49 


4.14 


a.ScC3 


2 


14 


II. 6 


X4.979 


3 





39 


29.73 


8.3088 


9 


25 


30.4 


13.523 


4 


22 


51 


22.61 


a. 3073 


X 


59 


12.5 


14.989 


4 





41 


48.25 


a.309x 


9 


38 


59.7 


13.453 


5 


22 


53 


41.02 


a. 5064 


I 


44 


12.9 


X4.997 


5 





44 


6.82 


a. 3099 


9 


52 


24.8 


13.388 


6 


22 


55 


59.38 


a. 3055 


I 


29 


12.8 


15.005 


6 





46 


25.44 


t.sxoS 


10 


5 


45.5 


13.308 


7 


22 


58 


17.68 


a. 3047 


X 


14 


12.3 


15.011 


7 





48 


44.12 


t.3XX7 


10 


19 


1.8 


13.834 


8 


23 





35.94 


a. 3038 





59 


".5 


15.014 


8 





51 


2.85 


8.3187 


10 


32 


13.6 


13.158 


9 


23 


2 


54.14 


a. 3030 





44 


10.6 


15.015 


9 





53 


21.65 


a.3137 


10 


45 


20.8 


13*061 


lO 


23 


5 


12.30 


a.3oa3 





29 


9.7 


15.015 


10 





55 40.50 


8.3147 


xo 


58 


23.3 


13*008 


XI 


23 


7 


30.42 


a.3017 


S. 


14 


8.8 


15.013 


XX 





57 


59.41 


t.3157 


XI 


XX 


21. 1 


18.982 


X2 


23 


9 


48.50 


a. 3010 


N. 





51.9 


15.009 


12 







18.39 


a. 3168 


XX 


24 


14.0 


18. 841 


13 


23 


12 


6.54 


a.3aq 





15 


52.3 


15.003 


13 




a 


37.43 


8.3x78 


XX 


37 


a.o 


18*757 


14 


23 


14 


24.54 


a.a998 





30 


52.3 


X4.997 


14 




4 


56.53 


8.3188 


XX 


49 


44.9 


18. 673 


15 


23 


16 


42.52 


a.a993 





45 


51.9 


14.988 


15 




7 


15.69 


8.3199 


X2 


2 


22.8 


18.588 


i6 


23 


19 


0.46 


a.a988 







50.8 


14.976 


16 




9 


34.92 


8.38XX 


xa 


14 


55*5 


18.508 


17 


23 


21 


18.38 


a. 9984 




15 


49.0 


14.963 


17 




II 


54.22 


8.3288 


12 


27 


23.0 


18.4M 


x8 


23 


23 


36.27 


a. 3980 




30 46.4 


14.949 


18 




14 


13.58 


8.3233 


X2 


39 


45-2 


18*384 


19 


23 


25 


54.14 


a.a977 




45 


42.9 


14-933 


19 




16 


33.OX 


8.3844 


12 


52 


1.9 


18.833 


20 


23 


28 


11.99 


a.a974 







38.4 


14.915 


20 




18 


52.51 


8.3855 


13 


4 


13.2 


X8.148 


21 


23 


30 


29.83 


a.a97a 


a 


15 


32.7 


X4.895 


21 




21 


12.07 


8.3867 


13 


16 


19.0 


18.040 


22 


23 


32 


47.66 


a.a97x 


2 


30 


25.8 


14.874 


22 




23 


31.71 


8.3878 


13 


28 


19. 1 


11.954 


•3 


23 


35 


5.48 


a.a96B 


2 


45 


17.6 


14.851 


23 




25 


51.4X 


8.3889 


13 


40 


13.5 


n.899 


24 


23 


37 


23.28 


a.a9«7 


N. 3 





7.9 


14.826 


24 




28 


ix.x8 


t.5301 


N.I3 


52 


a.a 


ll.7«S 



X. 



SEPTEMBER,' 1899. 



155 









GREENWICH 


MEAN 


TIME. 










THE MOON'S RIGHT 


ASCENSION AND DECLINATION. 




Hour. 


Right 


Diff. for 


Declination. 


Diff. for 


Horn. 




Right 


Diff. for 


DecUnatioa 


DiffLldr 




Ascension. 


X Minute. 




X Minnte. 




Aacensioa 


X Minnte. 




X Minute. 




TH 


(URSD^ 


lY 21. 








SATURDAY 23. 






h m s 


■ 


m t m 


M 




h 


m • 


■ 


• $ m 


m 


O 


I 28 1 1. 18 


a.33ox 


N.13 52 2.2 


XI.763 


6 


3 


21 7.23 


2.3651 


N.2I 7 13.0 


6.091 


I 


I 30 31.02 


a. 33" 


14 3 45-1 


XI. 665 


I 


3 


23 29.13 


a. 3649 


21 13 14.5 


S.958 


2 


I 32 50.93 


a.33«4 


14 15 22.0 


XX. 566 


2 


3 


25 51.02 


a. 3647 


21 19 8.0 


5.825 


3 


I 35 10-91 


«.3336 


14 26 53.0 


XX. 466 


3 


3 


28 12.89 


a. 3643 


21 24 53.5 


5.693 


4 


I 37 30- 96 


a. 3347 


14 38 17.9 


IX. 365 


4 


3 


30 34-74 


a. 3641 


21 30 31. 1 


5.561 


5 


I 39 51.08 


«.3358 


14 49 36.8 


XX. 263 


5 


3 


32 56.58 


a. 3637 


21 36 0.8 


5.4t7 


6 


I 42 11.26 


a. 3369 


15 49.5 


II. 159 


6 


3 


35 18.39 


a. 363a 


21 41 22.4 


S.a93 


7 


X 44 3I-5X 


a.33«J 


15 II 55-9 


10.055 


7 


3 


37 40.17 


a. 3627 


21 46 36.0 


5.160 


8 


I 46 51.83 


t.3393 


15 22 56.1 


10.950 


8 


3 


40 1.92 


a.36aa 


21 51 41.6 


5.027 


9 


I 49 12.22 


a. 3404 


15 33 49-9 


10.843 


9 


3 


42 23.64 


1.36x7 


21 56 39.2 


4.893 


lO 


I 51 32.68 


a. 3415 


15 44 37.3 


10.736 


10 


3 


44 45.32 


2.36x0 


22 I 28.8 


4.759 


II 


I 53 53- 20 


a. 3426 


15 55 18.2 


10.637 


II 


3 


47 6.96 


a. 360a 


22 6 10.3 


4.625 


12 


I 56 13-79 


a. 3437 


16 5 52.6 


X0.5I8 


12 


3 


49 28.55 


a. 3595 


22 10 43.8 


4.49a 


13 


I 58 34-45 


a. 3447 


16 16 20.4 


10.407 


13 


3 


51 50.10 


a. 3587 


22 15 9.3 


4-357 


14 


2 55.16 


a. 3457 


16 26 41.5 


io.a96 


14 


3 


54 11.59 


a.3577 


22 19 26.7 


4.aa3 


15 


2 3 15-94 


a. 3469 


16 36 55.9 


X0.184 


15 


3 


56 33.03 


t.S568 


22 23 36.1 


4.090 


i6 


a 5 36.79 


a. 3480 


16 47 3.6 


xo.oTa 


16 


3 


58 54.41 


a. 3558 


22 27 37.5 


3.956 


»7 


2 7 57-70 


a. 3490 


16 57 4.5 


9.957 


17 


4 


I 15.73 


a. 3548 


22 31 30.8 


3.82a 


i8 


2 10 18.67 


a. 3499 


17 6 58.5 


9.84a 


18 


4 


3 36.99 


a. 3537 


22 35 16.I 


S.687 


19 


2 12 39.69 


a. 3509 


17 16 45.5 


9.7a6 


19 


4 


5 58.17 


«.35a4 


22 38 53-3 


3.554 


20 


2 15 0.78 


a.3519 


17 26 25.6 


9.6x0 


20 


4 


8 19.28 


2.351a 


22 42 22.6 


3.421 


21 


2 17 21.92 


a. 35*7 


17 35 58.7 


9-493 


21 


4 


10 40.32 


a. 3500 


22 45 43.8 


3.a87 


22 


2 19 43.11 


a. 3537 


17 45 24-8 


9.375 


22 


4 


13 1.28 


a. 3486 


22 48 57.0 


3.153 


23 


2 22 4.36 
F 


a. 3546 

"RIDAY 


N.17 54 43.7 

22. 


9.a56 


23 


4 


15 22.15 
S 


a.3471 
UNDA\ 


N.22 52 2.2 

' 24. 


3.0x9 


o 


2 24 25.66 


a. 3554 


N.18 3 55.5 


9.»37 





4 


17 42.93 


a. 3456 


N.22 54 59.3 


9.886 


I 


2 26 47.01 


a. 356a 


18 13 O.I 


9.016 


I 


4 


20 3.62 


a.344» 


22 57 48.5 


a.753 


2 


2 29 8.41 


a. 3571 


18 21 57.4 


8.894 


2 


4 


22 24.22 


a.34a6 


23 29.7 


a.6ao 


3 


2 31 29.86 


a. 3578 


18 30 47.4 


8.773 


3 


4 


24 44-73 


a.3409 


23 3 2.9 


a. 487 


4 


2 33 51-35 


a. 3586 


18 39 30.1 


8.651 


4 


4 


27 5.13 


a. 3391 


23 5 28.1 


a. 354 


5 


2 36 12.89 


a. 359a . 


18 48 5.5 


8.5a7 


5 


4 


29 25.42 


a. 3373 


23 7 45-4 


a.a22 


6 


2 38 34-46 


a. 3599 


18 56 33-4 


8.403 


6 


4 


31 45.61 


a. 3355 


23 9 54-8 


a.09x 


7 


2 40 56.08 


a. 3606 


19 4 53-9 


8.279 


7 


4 


34 5.68 


a. 3336 


23 II 56.3 


X.958 


8 


2 43 17-73 


8.361a 


19 13 6.9 


8.154 


8 


4 


36 25.64 


a. 33x7 


23 13 49-8 


X.827 


9 


2 45 39.42 


a. 36x7 


19 21 12.4 


8.029 


9 


4 


38 45.48 


8.3396 


23 15 35.5 


1.696 


Id 


2 48 1. 14 


a. 362a 


19 29 10.4 


7.90a 


10 


4 


41 5-19 


a.3a75 


23 17 13.3 


1.564 


II 


2 50 22.89 


a. 36*7 


19 37 0.7 


7.77fi 


II 


4 


43 24.78 


a.3a54 


23 i8 43.2 


».433 


12 


2 52 44.67 


a. 363a 


19 44 43-5 


7.649 


12 


4 


45 44.24 


a.3a3a 


23 20 5.3 


X.302 


13 


2 55 6.47 


a. 3636 


19 52 18.6 


7.5aa 


13 


4 


48 3.57 


a. 32 10 


23 21 19.5 


1.172 


U 


2 57 28.30 


a. 3640 


19 59 46.1 


7.393 


14 


4 


50 22.76 


2.3x87 


23 22 26.0 


1.04a 


15 


2 59 50.15 


a. 3643 


20 7 5.8 


7.a64 


15 


4 


52 41.81 


a. 316a 


23 23 24.6 


0.91a 


i6 


3 2 12.01 


a. 3645 


20 14 17.8 


7.136 


16 


4 


55 0.71 


a.3138 


23 24 15.5 


0.784 


17 


3 4 33.89 


«.3647 


20 21 22.1 


7.007 


17 


4 


57 19.47 


a.S"4 


23 24 58.7 


0.656 


i8 


3 6 55.78 


a. 3649 


20 28 18.6 


6.877 


18 


4 


59 38.08 


a. 3089 


23 25 34.2 


0.527 


19 


3 9 17-68 


a. 3651 


20 35 7.3 


6.747 


19 


5 


I 56.54 


a. 3063 


23 26 2.0 


0.399 


20 


3 II 39.59 


a. 365a 


20 41 48.2 


6.616 


20 


5 


4 14.84 


a. 3037 


23 26 22.1 


o.a7a 


21 


3 14 I- 50 


a. 365a 


20 48 21.2 


6.485 


21 


5 


6 32.99 


a. 301 1 


23 26 34.6 


O.X45 


22 


3 16 23.41 


a. 365a 


20 54 46.4 


6.353 


22 


5 


8 50.97 


a. 2983 


23 26 39.5 


+ 0.018 


1 ^3 


3 18 45.32 


a. 365a 


21 I 3.6 


6.aa2 


23 


5 


II 8.78 


a. 2955 


23 26 36.8 


- 0.107 


,''- 


3 21 7.23 


a. 3651 


N.21 7 13.0 


6.ogi 


24 


5 


13 26.43 


2.2987 


N.23 26 26.6 


0.233 



156 



SEPTEMBER, 1899. 



XL 











GREENWICH 


MEAN 


TIME. 














TH£ MOON'S RIGHT 


ASCENSION AND DECLINATION. 






Horn. 


RlRht 
ABcentioo. 


Diff. for 
iMkuite. 


DecUnackM. 


Diff. for 
x Minute 


How. 


RiKht 

^kSCcBwoOn. 


Diff. for 
xMJiwte. 


Declination 


Diff. for 
X Minute. 






M 


ONDA^ 


r ts. 








WEDNESDAY 27. 






h 


a ■ 


• 


• » » 


m 




h 


■ 8 


• 


e 


f i» 


m 





5 


13 26.43 


S.a9t7 


N.23 «6 26.6 


asas 





6 


59 29*59 


S.XXI3 


N.2I 


I 30.8 


9.99s 


I 


5 


15 43.90 


a.a89a 


23 26 8.8 


OW318 




7 


I 3645 


8.1X88 


20 


55 54.8 


5-fi47 


2 


5 


18 i.ao 


3.2869 


23 25 43.6 


OW4B3 




7 


3 43.06 


3.xoB« 


20 


50 13. I 


5.741 


3 


5 


20 18.33 


3.88)9 


23 25 10,9 


0.607 




7 


5 49-43 


a.xa4X 


20 


44 25.9 


5.833 


4 


5 


22 35.27 


3. 8808 


23 24 30.7 


cfc73a 




7 


7 55.55 


a.xooo 


20 


38 33.2 


5.9a4 


5 


5 


«4 52.03 


3.8778 


23 23 43.1 


0.854 




7 


10 1.43 


8.0960 


20 


32 35-0 


6.006 


6 


5 


27 8.61 


a.«747 


23 22 48.2 


0.977 


6 


7 


12 7.07 


9.0919 


20 


26 31.3 


6bXo6 


7 


5 


29 24.99 


3.8715 


23 21 45.9 


Z.098 


7 


7 


14 12.46 


9.C878 


20 


20 22.3 


fi.x95 


8 


5 


31 41.19 


S.S683 


23 20 36.4 


X.3J9 


8 


7 


16 17.61 


8.aQ57 


20 


14 7.9 


6.8B4 


9 


5 


33 57.19 


a. 8699 


23 19 19.6 


X.34I 


9 


7 


18 22.51 


a.o;97 


20 


7 48-2 


6.37a 


lO 


5 


36 12.99 


3.3617 


23 17 55.5 


1.460 


10 


7 


20 27.18 


a.0757 


20 


I 23.3 


6.499 


II 


5 


38 28.60 


3.2584 


23 16 24.2 


1.583 


II 


7 


22 31.60 


a. 0717 


19 


54 53.1 


6*546 


la 


5 


40 44.00 


3.3550 


23 14 45.7 


X.70X 


12 


7 


24 55.78 


3.0677 


19 


48 17.8 


6.633 


13 


5 


42 59.20 


3.3517 


23 13 0.1 


x.8x9 


13 


7 


26 39.72 


3.0637 


19 


41 37.3 


6.717 


14 


5 


45 14.20 


3.848« 


23 " 7.4 


«.937 


14 


7 


28 43.42 


a. 0597 


19 


34 51.8 


6.80X 


15 


5 


47 28.99 


3.34^ 


23 9 7.7 


3.054 


15 


7 


30 46.89 


8.0598 


19 


28 1.2 


6.885 


16 


5 


49 43.57 


3. 3418 


23 7 0.9 


3.178 


16 


7 


32 50.12 


3.0518 


19 


21 5.6 


6.967 


17 


5 


51 57.94 


3.8377 


23 4 47.1 


3.386 


17 


7 


34 53." 


a.047« 


19 


14 5.1 


7.090 


18 


5 


54 12.09 


3.8340 


23 2 26.4 


3»408 


18 


7 


36 55.86 


t.04a9 


19 


6 59.6 


7.«3« 


19 


5 56 26.02 


3.3304 


22 59 58.8 


3.5x7 


19 


7 


38 58.38 


t.Q40O 


18 


59 49.3 


7.txt 


20 


5 


58 39.74 


3.8268 


22 37 24.3 


8.653 


20 


7 


41 0.66 


8.<^6o 


18 


52 34.2 


7.890 


21 


6 


53.24 


3.3331 


22 54 42.9 


a. 747 


21 


7 


43 2.72 


8.0383 


18 


45 14.3 


7.37« 


22 


6 


3 6.51 


3.8I9S 


22 51 54.7 


a.85j 


22 


7 


45 4.54 


a.0394 


18 


37 49.6 


7*490 


23 


6 


5 19.56 


••"57 


N.22 48 59.8 


a.97< 


23 


7 47 6.13 


3.0346 


N.18 


30 20.3 


7.5ar 






T1 


LJESDA 


Y 26. 








TH 


URSD/ 


LY 2£ 


1. 







6 


7 32.39 


8.8I19 


N.22 45 58.2 


S.o8l 





7 49 7.49 


8.0307 


N.I8 


22 46.3 


7*6«9 


I 


6 


9 44*99 


3.308a 


22 42 49.9 


3*191 


I 


7 


51 8.62 


8.0X7» 


18 


15 7.7 


7.68X 


2 


6 


" 57.37 


S.8Q4S 


22 39 34.9 


3.3«» 


2 


7 


53 9. 53 


3.0x30 


18 


7 24.6 


7.73i 


3 


6 


14 9.51 


9.8004 


22 36 13.4 


3.4IS 


3 


7 


55 10.21 


8.009s 


17 


59 37.0 


7.833 


4 


6 


16 21.42 


3.1966 


22 32 45.3 


3*933 


4 


7 


57 10.67 


3.0057 


17 


51 44.8 


7.906 


i 5 


6 


i8 33.10 


t.l9t7 


22 29 10.6 


3.6sa 


5 


7 


39 10,90 


3.008X 


17 43 48.3 


7.978 


6 


6 


20 44.55 


3.Z888 


22 25 29.5 


S.73i 


6 


8 


I 10.92 


1.9989 


17 


35 47.4 


8. Oft 


7 


6 


22 55.76 


3.X84S 


22 21 42.0 


3.8iS 


7 


8 


3 10.72 


1*9948 


17 


27 42.1 


8,184 


; 8 


6 


25 6.73 


3.X809 


22 .17 48.1 


3.9S« 


8 


8 


5 10.30 


x.99>a 


17 


19 32.5 


8.X96 


• 9 


6 


27 17.47 


a.x770 


22 13 47.8 


4.057 


9 


8 


7 9.66 


X.9876 


17 


II 18.6 


8.366. 


10 

1 


6 


29 27.97 


«.I730 


22 9 41.2 


4.x6a 


10 


8 


9 8.81 


X.9841 


17 


3 0.6 


8«33^ 


II 


6 


31 38.23 


8.1690 


22 5 28.3 


4.366 


II 


8 


" 7-75 


1.9805 


16 


54 38.3 


8.40> 


12 


6 


33 48.25 


3.i6ge 


22 I 9.3 


4.308 


12 


8 


13 6.47 


1.9770 


16 


46 12.0 


8.47t 


13 


6 


35 58.03 


8. 1610 


21 56 44.1 


4.47> 


13 


8 


15 4.99 


1.9798 


16 


37 41.6 


8.541 


14 


6 


38 7.57 


8.X57* 


21 52 12.7 


4*574 


14 


8 


17 3.30 


X.9708 


16 


29 7.1 


8.6o8 


15 


6 


40 16.87 


a.z530 


21 47 35.2 


4.676 


15 


8 


19 1.41 


X.9667 


16 


20 28.6 


8.674 


16 


6 


42 25.93 


«.I48» 


21 42 51.6 


4.77« 


16 


8 


20 59.31 


X.9613 


16 


11 46.2 


8«7«o 


17 


6 


44 34.74 


3.Z448 


21 38 2.1 


4*875 


17 


8 


22 57.01 


Z.9600 


16 


2 59-8 


8.806 


18 


6 


46 43.31 


a. 1407 


21 33 6.6 


4.9M 


18 


8 


24 54.51 


X.9568 


15 


54 9*5 


8,870 


19 


6 


48 51.63 


«.13«7 


21 28 5.2 


5. 073 


19 


8 


a6 51.82 


t.9536 


15 


45 15.4 


8«9SS 


20 


6 


50 59.71 


8.X387 


21 22 57.9 


9. 171 


20 


8 


28 48.94 


Z.95Q9 


15 


36 17.5 


8.997 


21 


6 


53 7.55 


3.X386 


21 17 44.7 


5.367 


21 


8 


30 45.86 


i.947« 


15 


27 15.8 


9*090 


22 


6 


55 15.14 


3.1345 


21 12 25.8 


5.3«S 


22 


8 


32 42*59 


1-9439 


15 


18 10.4 


9*iao 


23 


6 


57 22.49 


8.xao« 


21 7 I.I 


5.458 


23 


8 


34 39.13 


1.9408 


15 


9 1.4 


9.t8x 


«4 


6 


59 29.59 


9.ix6| 


N.21 I 30.8 


5* 39a 


24 


8 


36 35.49 


1*9377 


N.14 


59 48.7 


9.840 



tm 



XII. 



SEPTEMBER, 1899. 



157 



Hour. 



O 
I 

2 

5 

4 

5 

6 

7 

8 

9 

lO 
IX 

12 

«3 

14 

15 

i6 

17 
i8 

19 

20 
21 
22 

a3 



GREENWICH MEAN TIMK 



THE MOON'S RIGHT ASCENSION AND DECLINATION. 



IU«ht 
AscentioiL 



Dtff. for 
iMinnto. 



Daclination. 



FRIDAY 29. 



h m 
8 36 
8 38 
8 40 
8 42 
8 44 
8 46 
8 48 
8 50 

8 51 
8 53 
8 55 
8 57 

8 59 

9 I 



9 
9 
9 
9 
9 
9 
9 
9 
9 
9 



3 
5 
7 

9 

IX 

12 

14 
16 

18 

20 



35.49 
31.66 

27.65 

23.47 
19.10 

14.56 

9.85 

4.97 

59.9a 

54.71 

49.34 
43.80 

38.11 
32.26 
26.26 
20.10 
13.80 

7.35 
0.76 

54-03 
47.16 

40.16 

33.03 

25.77 



■ 

«.9377 
9347 
93«7 

9«57 



.9i7« 
•9x45 
•gii8 

.9091 
•9064 

•9056 
•9oni 
.898Br 
.896t 

•8937 
.891S 
.8890 
.8867 
.8844 
.88ai 
.8801 
.8779 



N. 



N. 



59 
50 
41 
3« 

22 

za 

3 
53 
44 
34 
24 
14 

4 
54 
44 
34 
a 24 



2 

2 
I 
X 
X 

I 
I 



14 

4 

54 

43 

33 

23 
xa 



48.7 

32.4 

12.6 

49.2 
22.4 

52.2 

18.5 

41.5 

I. a 
17.7 

30.9 
40.9 

47.7 
51.5 

52.2 
49.9 
44.6 

36.3 
25.1 

II. I 

54-2 
34.6 
12.2 
47.0 



SATURDAY 30. 






9 22 


X 


9 24 


a 


9 26 


3 


9 27 


4 


9 29 


5 


9 3« 


6 


9 33 


7 


9 35 


8 


9 37 


9 


9 39 


xp 


9 40 


XX 


9 42 


la 


9 44 


13 


9 46 


14 


9 48 


15 


9 50 


16 


9 52 


17 


9 53 


18 


9 55 


19 


9 57 


ao 


9 59 


ax 


XO I 


aa 


10 3 


«3 


XO 5 


24 


XO 6 



18.38 


1.8758 


10.87 


1.8737 


3.23 


1.8717 


55.48 


1.8C98 


47.61 


1.8680 


39.64 


I.8668 


31.55 


t.864S 


23.35 


i.86as 


15.05 


i.86aB 


6.65 


i.8s9t 


58.15 


f.8575 


49.55 


1.8559 


40.86 


X.8544 


32.08 


1.8530 


23.22 


I.8516 


14.27 


1.8501 


5.24 


1.8488 


56.13 


x.847« 


46.95 


1.8464 


37.70 


i.845t 


28.38 


l.844t 


19.00 


I.8431 


9.55 


1.8410 


0.04 


X.84II 


50.48 


x«84oa 



N.ix 
10 
10 
xo 

XO 
XO 

9 

9 

9 

9 

9 

9 
8 

8 

8 
8 

8 

7 

7 

7 

7 

7 

7 
6 

N. 6 



2 

51 
41 
30 
ao 

9 



19.2 
48.8 

15.8 

40.2 

a. I 

21.5 

58 38.5 
47 53.0 
5.2 
15. X 
22.7 
28.0 
31.2 

32.2 

3I.X 

27.8 
22.5 
15.2 

5.9 
54.7 

4X.6 
a6.6 

9.7 

51. X 
30.8 



37 

26 

15 

4 

53 

42 

31 
20 

9 
58 
47 
35 

24 

13 

2 

50 
39 



Diff. for 
X M innte. 



Hoar. 



9.i«2 
9.301 
9.360 
9.418 
9*475 
9.533 
9.589 
9.S«4 
9.<9B 
9.753 
9.807 
9.860 

9.91S 
9.96a 

XO.0I3 
X0.063 
to.n3 
lo.x6a 

lObtXO 

«o.t57 
10.304 
10.350 
10.397 
10.443 



10.48s 
xob5>8 
10.57a 
10.614 
10.636 
10.697 
10.737 
10.777 
10.816 
10.854 
10.89a 
10.919 
10.969 

IX.OOX 

11.037 

lUOTt 
II.X05 
IX. 138 
XI.I7X 
IX.903 

1X.934 
11.966 
IX.996 
ix.SM 
tx.SSI 



Right 
Aacension. 



Diff. for 
X Mixmte. 



Declinatioa 






Diff. for 
x Mtaote. 



SUNDAY, OCTOBER x. 
XO 6 50.48 I i.84aB |N. 6 39 30.8 



11.35a 



PHASES OF THE MOON. 



% New Moon • 

J First Quarter 

O Full Moon . 

( Last Quarter 



• ■ . Septa 



• • • • • 



• • • . 



d h m 
4 15 33.0 

X2 9 49.2 

X9 o 31.3 
a6 3 2.6 



C 
C 
C 



Apogee 
Perigee 
Apogee 



• • • • . oept. 



d h 

2 13.4 

X7 x8,9 

30 0.0 



158 



SEPTEMBER, 1899. 



xni. 









GREENWICH MEAN TIME. 








1 








, 


LUNAR DISTANCF^S. 




















P.L. 




P.L. 




P.L. 






P. L 


Name and Direction 1 


Noon. 


of 


III»»- 


of 


Vlh. 


of 


IXii. 




of 




of Object 






DiSL 




DiS. 




Diff. 






Diff. 






• m 




e t m 




• » « 




• 


m 




I 


a Arietis 


W. 


83 23 37 


3093 


84 51 55 


309s 


86 2o II 


3096 


87 48 


25 


3098 




Aldebaran 


W. 


50 37 4 


3x23 


52 4 46 


3X23 


53 32 28 


3x23 


55 


10 


3X22 




Sun 


E. 


39 47 55 


3480 


38 27 8 


3484 


37 6 26 


3489 


35 45 


50 


3494 


2 


a Arietis 


W. 


95 9 13 


310a 


96 37 20 


3X08 


98 5 27 


S108 


99 33 


34 


3x0a 




Aldebaran 


W. 


62 18 50 


3"9 


63 46 37 


31x8 


65 14 25 


3x17 


66 42 


H 


31x5 


• 


Sun 


E. 


a9 4 12 


35*1 


27 44 II 


3527 


26 24 17 


SS3S 


25 4 


31 


3543 


6 


Sun 


W. 


15 45 33 


3S54 


17 4 58 


35x8 


18 25 2 


3489 


19 45 


38 


34^ 




Jupiter 


E. 


38 46 5 


3084 


37 17 36 


3c6x 


35 49 3 


3078 


34 20 


27 


3077 




Antares 


E. 


69 28 41 


S99X 


67 58 17 


a985 


66 27 46 


2980 


64 57 


8 


2974 ' 




Saturn 


E. 


78 49 « 


2996 


77 i8 54 


9990 


75 48 29 


3985 


74 17 


57 


•979 ' 




a Aquilse 


E. 


X19 59 31 


3fi37 


"8 41 37 


36x4 


117 23 18 


359X 


1x6 4 


34 


3570 


7 


Sun 


W. 


26 34 45 


3373 


27 57 32 


3359 


29 20 35 


3346 


30 43 


53 


3333 




Antares 


E. 


57 22 10 


S945 


55 50 48 


2938 


54 19 17 


2931 


52 47 


38 


2924 




Saturn 


E. 


66 43 26 


99«8 


65 12 8 


2942 


63 40 42 


2935 


62 9 


7 


292B 




a Aquilae 


E. 


Z09 25 20 


3476 


108 4 29 


3460 


106 43 20 


3444 


xos 21 


53 


343D 


8 


Sun 


W. 


37 43 54 


3*76 


39 8 34 


aafi* 


40 33 28 


3«53 


41 58 


34 


32M« 




Antares 


E. 


45 7 13 


2890 


43 34 41 


2883 


42 2 


9S75 


40 29 


9 


2867 




Saturn 


E. 


54 28 58 


a89i 


52 56 28 


2883 


51 23 47 


2875 


49 50 


56 


2867 




a Aquilae 


£. 


98 30 44 


336s 


97 7 47 


335a 


95 44 36 


3342 


94 21 


13 


333« 


9 


Sun 


W. 


49 7 26 


3185 


50 33 53 


3x74 


52 33 


3x62 


53 27 


28 


3x50 




Antares 


E. 


3a 42 27 


2829 


31 8 37 


1821 


29 34 37 


2814 


28 


27 


2807 




Saturn 


E. 


42 3 58 


2823 


40 30 


2813 


38 55 49 


2804 


37 21 


36 


>795 




a Aquilae 


E. 


87 21 25 


3285 


85 56 56 


:a77 


84 32 18 


3270 


83 7 


32 


3^63 i 




Fomalhaut 


E. 


113 22 12 


S350 


III 58 58 


3329 


no 35 20 


3306 


109 II 


x8 


3flB8 


lO 


Sun 


W. 


60 45 40 


30B8 


62 14 4 


3076 


63 42 43 


3063 


65 II 


38 


yH9 




Spica 


W. 


25 48 n 


«743 


27 23 54 


2729 


28 59 55 


27x6 


30 36 


13 


*7^ ! 




Mars 


W. 


25 35 36 


S026 


27 5 16 


3008 


28 35 19 


2989 


30 5 


45 


«97a I 




a Aquilae 


E. 


76 I 48 


3236 


74 36 22 


3233 


73 xo 52 


3231 


71 45 


19 


3228 




Fomalhaut 


E. 


102 5 30 


3198 


100 39 18 


3182 


99 X2 47 


3166 


97 45 


57 


3x50 




a Pegasi 


E. 


122 50 4 


«9i8 


121 18 8 


2901 


119 45 50 


2883 


xi8 13 


10 


iM6 . 

1 


XI 


Sun 


W. 


72 40 25 


•981 


74 " 2 


•9« 


75 41 57 


•952 


77 13 


10 


1 

«38 




Spica 


W. 


38 42 12 


963IS 


40 20 18 


2622 


41 58 43 


260R 


43 37 


27 


•399 




Mars 


W. 


37 43 19 


t8«9 


39 15 52 


2873 


40 48 46 


2856 


42 22 


X 


«B4X 




Jupiter 


W. 


23 32 13 


2772 


25 7 18 


2750 


26 42 52 


2728 


28 18 


55 


2707 




a Aquilae 


E. 


64 37 20 


3234 


63 " 51 


3238 


61 46 27 


SS4S 


60 21 


II 


3<S3 




Fouiadhaut 


E. 


90 27 19 


3081 


88 58 46 


3068 


87 29 57 


3056 


86 


S3 


3044 




a Pegaisi 


£. 


no 24 18 


2783 


108 49 28 


2766 


107 14 16 


2790 


105 38 


43 


•735 


la 


Sun 


W. 


84 53 57 


i96a 


86 «7 5 


2847 


88 32 


flB3X 


89 34 


20 


•8x5 




Spica 


W. 


51 55 52 


«5«4 


53 36 32 


2509 


55 »7 33 


2494 


56 58 


54 


•480 




Mars 


W. 


50 13 24 


276Z 


51 48 43 


2744 


53 24 24 


2729 


55 


26 


•713 




Jupiter 


W. 


36 25 42 


•61S 


38 4 17 


9598 


39 43 15 


2580 


41 22 


37 


•Sfi4 




a Aquilae 


E. 


53 18 7 


3329 


51 54 29 


3353 


50 31 19 


3381 


49 8 


41 


94M 




Fomcdhaut 


E. 


78 32 15 


•996 


77 X 57 


2988 


75 31 29 


•981 


74 


52 


•973 




a Pegasi 


E. 


97 35 48 


•657 


95 58 II 


■643 


94 20 14 


•fi^7 


92 41 


56 


•6(2 



XIV. 



SEPTEMBER, 1899. 



159 



• 




GREENWICH MEAN TIME. 






ii 


LUNAR DISTANCES. 




Name and Direction 


Midnight 


P.L. 

of 


XVh. 


P.L. 

of 


XVIIIh. 


P.L. 

of 


XXIii. 


P.L. 

of 


1* 


of Object. 






DiS. 




DUL 




DiflE. 




Diff. 






m t M 




• » tl 




• * w 




• t m 




z 


a Arietis 


W, 


89 z6 37 




90 44 48 


310X 


92 12 57 


3101 


93 41 5 


3Z0X 




Aldebaran 


W. 


56 27 53 


3x9a 


57 55 36 


3iax 


59 23 20 


3X90 


60 5z 5 


3120 




Sun 


E. 


34 25 19 


3499 


33 4 54 


3504 


31 44 34 


3909 


30 24 20 


35x5 


2 


a Arietis 


W. 


zoz X 4X 


3X0Z 


Z02 29 49 


3X0X 


103 57 57 


3X0X 


Z05 26 6 


3099 




Aldebaran 


W. 


68 zo 5 


3x14 


69 37 58 


3x1a 


71 5 53 


ST to 


72 33 50 


3x09 




Sun 


£• 


23 44 54 


3553 


22 25 28 


3565 


2z 6 Z5 


3578 


19 47 17 


3597 


6 


Sun 


W. 


2Z 6 42 


344a 


22 28 ZZ 


34« 


23 50 3 


3404 


25 za Z5 


3388 




Jupiter 


E, 


32 51 49 


3074 


31 23 8 


5073 


29 54 26 


3079 


28 25 42 


307X 




Antares 


E. 


63 26 23 


9^ 


61 55 31 


2963 


60 24 32 


9937 


58 53 25 


9950 




Saturn 


E. 


72 47 18 


9973 


71 16 32 


2g67 


69 45 38 


9961 


68 14 36 


9954 




a Aquilse 


E. 


"4 45 27 


3549 


"3 25 57 


3599 


ZZ2 6 5 


35x0 


zzo 45 52 


3493 


7 


Sun 


W. 


32 7 26 


33ax 


33 31 13 


33x0 


34 55 13 


3998 


36 19 27 


39^7 




Antares 


E. 


51 15 50 


90iS 


49 43 54 


29XX 


48 ZZ 49 


V05 


46 39 36 


9897 




Saturn 


E. 


60 37 24 


2921 


59 5 32 


99x3 


57 33 30 


9906 


56 z Z9 


2898 




a Aquilae 


E. 


Z04 10 


34IS 


102 38 Z I 


3402 


zoz Z5 57 


3389 


99 53 28 


3376 


8 


Sun 


W. 


43 23 54 


393X 


44 49 27 


3900 


46 15 13 


3908 


47 41 13 


3x97 




Antares 


E. 


38 56 8 


•B59 


37 22 57 


9852 


35 49 37 


9845 


34 16 7 


9837 




Saturn 


E. 


48 17 55 


a8s9 


46 44 43 


9849 


45 II 19 


284X 


43 37 44 


9839 




a Aquilse 


E. 


92 57 38 


S3SX 


91 33 51 


33x9 


90 9 53 


3302 


88 45 44 


3994 


9 


Sun 


W, 


54 54 37 


3x38 


56 22 z 


3X96 


57 49 39 


3XX4 


59 17 32 


310X 




Antares 


E. 


26 26 8 


0800 


24 51 40 


9794 


23 17 4 


9788 


2Z 42 2Z 


9785 




Saturn 


E. 


35 46 51 


«785 


34 12 3 


9775 


32 37 2 


2765 


31 I 48 


9755 




a Aquilae 


E. 


81 42 37 


3856 


80 17 34 


3231 


78 52 25 


3945 


77 27 9 


394X 




Fomalhaut 


E. 


Z07 46 52 


3968 


106 22 3 


3250 


Z04 56 53 


3939 


Z03 3z 22 


39x4 


lO 


Sun 


W. 


66 40 50 


3036 


68 zo z8 


3022 


69 40 3 


3009 


71 10 5 


9994 




Spica 


W. 


32 Z2 49 


269D 


33 49 42 


2676 


35 26 54 


9fi63 


37 4 24 


2649 




Mars 


W. 


31 36 33 


9954 


33 7 43 


2938 


34 39 14 


agizi 


36 ZZ 6 


9905 




a Aquilae 


E, 


70 19 43 


3237 


68 54 6 


3927 


67 28 29 


3928 


66 2 53 


393X 




Fomalhaut 


E. 


96 z8 48 


3135 


94 51 2Z 


3X2X 


93 23 37 


3107 


91 55 36 


3094 




a Pegasi 


E. 


zz6 40 7 


2848 


ZZ5 6 42 


2832 


ZZ3 32 56 


98x5 


zzz 58 48 


9798 


zx 


Sun 


W. 


78 44 41 


99S3 


80 z6 3Z 


2908 


81 48 40 


2899 


83 2Z 9 


9877 




Spica 


W. 


45 16 29 


8381 


46 55 50 


8566 


48 35 31 


9559 


50 15 32 


9538 




Mars 


W. 


43 55 36 


3825 


45 29 32 


2809 


47 3 48 


9793 


48 38 25 


9776 




Jupiter 


W. 


29 55 26 


3687 


31 32 23 


9669 


33 9 45 


afisx 


34 47 31 


2639 




a Aquilae 


E. 


58 56 5 


3ti64 


57 31 II 


3276 


56 6 31 


399X 


54 42 9 


3308 


• 


Fomalhaut 


E. 


84 31 35 


3033 


83 2 3 


3093 


8z 32 Z9 


30x4 


80 2 23 


3004 




a Pegasi 


E. 


Z04 2 50 


2719 


102 26 35 


3704 


zoo 50 


8688 


99 13 4 


9673 


12 


Sun 


W. 


9Z 8 28 


2800 


92 42 56 


9784 


94 17 45 


9763 


95 52 55 


■753 




Spica 


W. 


58 40 36 


246s 


60 22 38 


9450 


62 5 2 


9435 


63 47 47 


9490 




Mars 


W. 


56 36 49 


2696 


58 13 34 


268X 


59 50 40 


9664 


61 28 8 


2649 




Jupiter 


W. 


43 2 22 


■547 


44 42 30 


9530 


46 23 z 


95X4 


48 3 55 


9497 




a Aquils 


E. 


47 46 40 


3433 


46 25 22 


3497 


45 4 54 


3548 


43 45 23 


3609 




Fomalhaut 


E. 


72 30 8 


2969 


70 59 17 


9965 


69 28 2Z 


9963 


67 57 22 


996X 




a Pegasi 


E. 


91 3 18 


2598 


89 24 20 


9583 


87 45 2 


9569 


86 5 24 


9554 



lUO 



SEPTEMBER, 1899. 



XV 









GREENWICH MEAN TIME. 














1^ 










LUNAR DISTANCES. 
























P.L. 




P.L 








P.L. 






P.L. 


«1 


Nam* and Diraction 


Noon 


• 


of 


Illku 


of 


Vlh. 




of 


IXb- 




of 


^ 


of Object 








Diff. 




Diff. 








Diff. 






Diff. 






• 


• 




m 







f 


•• 




• 9 


m 




13 


Sun 


W. 


97 28 


25 


2736 


99 4 17 


2721 


100 


40 


29 


2705 


102 17 


2 


2689 




Spica 


W. 


65 30 


53 


4403 


67 14 20 


2390 


68 


58 


9 


9375 


70 42 


19 


9360 




Mars 


W. 


63 5 


57 


263a 


64 44 8 


2616 


66 


22 


41 


2600 


68 I 


36 


S384 




Jupiter 


W. 


49 45 


12 


2482 


51 26 51 


8465 


53 


8 


53 


^449 


54 51 


18 


3433 




Fomalhaat 


E. 


66 26 


20 


296Z 


64 55 18 


2962 


63 


24 


17 


3965 


61 53 


20 


9969 




Pegasi 


E. 


84 25 


26 


2540 


82 45 9 


«5«7 


8z 


4 


33 


t5X3 


79 23 


38 


tsm 


14 


Sun 


W. 


no 25 


X 


2612 


112 3 39 


2598 


"3 


42 


37 


2583 


115 21 


55 


«569 




Spica 


W. 


79 28 


33 


SS87 


81 14 51 


2372 


83 


I 


31 


2238 


84 48 


32 


S24S 




Mars 


W. 


76 21 


38 


2506 


78 2 43 


2490 


79 44 


10 


2476 


81 25 


57 


9461 




Jupiter 


W. 


63 28 


57 


2356 


^5 13 35 


2342 


66 


58 


34 


2326 


68 43 


55 


2313 




Antares 


w. 


33 59 


40 


2302 


35 45 36 


2286 


37 


31 


56 


2271 


39 18 


38 


2236 




Fomalhaat 


E. 


54 21 


4 


3030 


52 51 29 


3053 


51 


22 


22 


3078 


49 53 46 


3x10 




a Pegasi 


E. 


70 54 


38 


2440 


69 12 


2430 


67 


29 


8 


2419 


65 46 


I 


24x0 




Arietis 


E. 


"3 44 


32 


2312 


III 58 30 


2298 


XIO 


12 


47 


ta83 


108 26 


22 


2468 


15 


Sun 


W- 


"3 43 


»5 


2502 


125 24 26 


2489 


127 


5 


54 


•478 


128 47 


38 


9467 




Spica 


W. 


93 48 


40 


2178 


95 37 40 


2166 


97 


26 


59 


a«54 


99 16 


36 


3X49 




Mars 


W. 


89 59 


59 


2391 


91 43 46 


9378 


93 


27 


52 


S366 


95 12 


16 


9353 




Jupiter 


W. 


77 35 


50 


aa43 


79 23 13 


2231 


81 


10 


54 


2218 


82 58 


54 


2206 




Antares 


W. 


48 17 


36 


2185 


30 6 26 


2x72 


51 


35 


35 


8160 


53 45 


3 


2148 




Saturn 


W. 


38 36 





2192 


40 24 39 


2179 


42 


13 


38 


9tG7 


44 2 


55 


9133 




a Pegasi 


E. 


57 7 


34 


4378 


55 23 27 


8375 


53 


39 


16 


«373 


51 55 


2 


237a 




a Arietis 


E. 


99 29 


5 


2200 


97 40 37 


2x88 


95 


51 


51 


2x76 


94 2 


47 


2163 

1 


16 


Jupiter 


W. 


92 3 


6 


ai55 


93 52 42 


ai45 


95 


42 


32 


«n7 


97 32 


35 


21 r> 




Antares 


W. 


62 56 


45 


2094 


64 47 53 


208s 


66 


39 


15 


2077 


68 30 


50 


2r^ 




Saturn 


W. 


53 »3 


41 


2x02 


55 4 37 


ao93 


56 


55 


47 


■085 


58 47 


10 


20:7 




a Arietis 


E. 


84 53 


10 


2112 


83 2 29 


2103 


81 


II 


35 


2096 


79 20 


29 


:ti:a 




Aldebaran 


E. 


117 44 


52 


2Z26 


115 54 33 


2X1$ 


114 


3 


58 


2107 


112 13 


9 


20^ 


17 


Antares 


W. 


77 51 


32 


2038 


79 44 7 


«>3S 


81 


36 


49 


2030 


83 29 


37 


2027 , 




Saturn 


W. 


68 6 


50 


•046 


69 59 13 


ao4t 


71 


51 


42 


2039 


73 44 


16 


9155 




a Arietis 


E. 


70 2 


23 


2061 


68 10 23 


2057 


66 


18 


17 


aoj4 


64 26 


7 


.20.,2 




Aldebaran 


E. 


102 56 


3 


2064 


101 4 9 


2059 


99 


12 


7 


2053 


97 19 


59 


»53 


1 '^ 


Antares 


W. 


92 54 


>9 


2023 


94 47 17 


2025 


96 


40 


la 


2028 


98 33 


3 


2030 


1 


Saturn 


W. 


83 7 


52 


2032 


85 36 


t033 


86 


53 


18 


9033 


88 45 


57 


9039 


1 


a Aquilae 


W. 


45 25 


36 


3050 


46 54 47 


■987 


48 


25 


16 


t934 


49 56 


52 


2887 




a Arietis 


E. 


55 5 


I 


2056 


53 12 54 


2060 


51 


20 


53 


2064 


49 28 


58 


ao69 




Aldebaran 


E. 


87 58 


33 


2Q«8 


86 6 14 


2050 


84 


13 


58 


«>53 


82 21 


46 


9053 


19 


Saturn 


W. 


98 7 


39 


2064 


99 59 33 


2072 


lOZ 


51 


16 


2079 


103 42 


47 


9088 




a Aquilae 


W. 


57 47 


29 


2732 


59 23 26 


2713 


60 


59 


49 


2697 


62 36 


33 


iOs 




a Arietis 


E. 


40 12 


I 


21 13 


38 21 22 


8X26 


36 


3» 


2 


2x40 


34 41 


4 


9X57 




Aldebaran 


E. 


73 2 


22 


2083 


71 10 57 


2092 


69 


19 


45 


2|00 


67 28 


46 


9x09 




Pollux 


E. 


"4 53 


39 


2113 


"3 a 59 


21 18 


III 


12 


28 


■124 


109 22 


6 


9X39 


20 


a Aqtiilae 


W. 


70 43 


«4 


2639 


72 20 49 


fl66b 


73 


58 


22 


2C64 


75 35 


50 


2669 




Fomalhaat 


W. 


45 46 


6 


3090 


47 14 28 


3046 


48 


43 


44 


3009 


50 13 


46 


9977 




Aldebaran 


E. 


58 17 


51 


2169 


56 28 36 


2x83 


54 


39 


43 


2198 


52 5J 


12 


991S 




PoUax 


E. 


100 13 


25 


M79 


98 24 26 


219X 


96 


35 


45 


2n4 


94 47 


23 


99X6 



XVI. 



SEPTEMBER, 1899. 



161 







GREENWICH MEAN TIME. 










LUNAR DISTANCES. 


of the 
mth. 


Nmmo uid Directioii 


Midnight 


P.L. 
of 


xw^ 


P.L 

of 


XVIII»». 


P.L 
of 


xxin. 


P.L 

of 


a- 


of Object 






Diff. 




Diff. 






Diff. 




Die 








• * •» 




• 1 m 




• 


m 




• m 




13 


Sun 


W. 


X03 53 56 


a674 


X05 31 II 


•658 


107 8 


47 


3643 


108 46 44 


8628 




Spica 


W. 


72 26 51 


2346 


74 II 44 


3331 


75 56 


59 


33x6 


77 42 35 


2301 




Mars 


W. 


69 40 53 


9568 


71 20 32 


•533 


73 


32 


9537 


74 40 54 


3S2X 




Jupiter 


W. 


56 34 5 


Ml? 


58 17 15 


S403 


60 


47 


9387 


61 44 41 


937X 




Fomalhaut 


E. 


60 22 29 


V77 


58 51 47 


3985 


57 21 


16 


9998 


55 51 I 


3013 




a Pegasi 


£. 


77 42 25 


3487 


76 54 


9475 


74 19 


5 


9463 


72 37 


a45X 


H 


Sun 


W. 


"7 I 33 


2555 


118 41 30 


3540 


120 21 


47 


3587 


122 2 22. 


25x5 




Spica 


W. 


86 35 53 


3931 


88 23 35 


33X7 


90 II 


37 


8904 


91 59 59 


3X9X 




Mars 


W. 


83 8 5 


8447 


84 50 33 


343a 


86 33 


22 


84x8 


88 16 31 


9405 




Jupiter 


W. 


70 29 37 


3298 


72 15 40 


8284 


74 2 


3 


8370 


75 48 47 


2357 




Antares 


W. 


41 5 43 


3341 


42 53 9 


3337 


44 40 


57 


83X3 


46 29 6 


2x98 




Fomalhaut 


E. 


48 25 48 


3146 


46 58 34. 


3x88 


45 32 


10 


3937 


44 6 45 


3295 




a Pegasi 


E. 


64 2 41 


34O8 


62 19 9 


8394 


60 35 


26 


3388 


58 51 34 


2383 




a Arietis 


E. 


106 39 36 


«54 


104 52 29 


3340 


103 5 


■ I 


8337 


loi 17 13 


33x3 


15 


Sun 


W. 


130 29 38 


3436 


132 II 53 


1446 


133 54 


22 


3437 


135 37 4 


3438 




Spica 


W. 


loi 6 31 


3133 


102 56 42 


3x20 


104 47 


10 


3XX0 


106 37 54 


3X00 




Mars 


W. 


96 56 58 


2343 


98 41 57 


8331 


100 27 


12 


8380 


102 12 43 


3310 




JUPITBR 


W. 


84 47 12 


3I9S 


86 35 47 


3x84 


88 24 


38 


3X74 


90 13 44 


3x64 




Antares 


W. 


55 34 49 


3136 


57 24 53 


3X33 


59 15 


14 


2X14 


61 5 52 


2104 




Saturn 


W. 


45 52 31 


3143 


47 42 24 


3X33 


49 32 


34 


3X38 


51 23 


21X3 




a Pegasi 


E. 


50 lo 47 


a374 


48 26 35 


3378 


46 42 


28 


9384 


44 58 30 


3393 




Arietis 


E, 


92 13 24 


3x33 


90 23 44 


3X4X 


88 33 


48 


3x31 


86 43 36 


3X33 


x6 


Jupiter 


W. 


99 22 50 


«a3 


loi 13 15 


3x15 


103 3 


51 


3X09 


104 54 36 


2X04 




Antares 


W. 


70 22 37 


906X 


72 14 36 


3053 


74 6 


45 


2048 


75 59 4 


2042 




Saturn 


w. 


60 38 45 


3070 


62 30 31 


3063 


64 22 


28 


2036 


66 14 35 


2031 




a Arietis 


E. 


77 29 II 


3081 


75 37 42 


3075 


73 46 


4 


2069 


71 54 17 


3064 




Aldebaran 


E. 


no 22 7 


3090 


108 30 52 


3083 


106 39 


26 


8073 


104 47 49 


3070 


17 


Antares 


W. 


85 22 29 


eoQ 


87 15 24 


3033 


89 8 


22 


9099 


91 I 20 


3023 




Saturn 


W. 


75 36 55 


aD33 


77 29 37 


3038 


79 22 


21 


8038 


81 15 6 


3031 




a Arietis 


E. 


62 33 54 


aoss 


60 41 40 


8051 


58 49 


25 


3058 


56 57 12 


3053 




Aldebaran 


E. 


95 27 47 


3050 


93 35 31 


8O49 


91 43 


13 


8O48 


89 50 53 


2048 


z8 


Antares 


W. 


100 25 50 


9034 


102 18 31 


8039 


104 II 


5 


9044 


106 3 31 


9050 




Saturn 


W. 


90 38 31 


3043 


92 30 59 


3046 


94 23 


21 


8OS8 


96 15 35 


3038 




a AquilflB 


W. 


51 29 27 


0847 


53 2 54 


38XX 


54 37 


8 


3781 


56 12 I 


9754 




a Arietis 


E. 


47 37 II 


3075 


45 45 34 


3083 


43 54 


9 


3093 


42 2 57 


8X03 




Aldebaran 


£. 


80 29 38 


3060 


78 37 37 


3064 


76 45 


43 


8070 


74 53 58 


8O76 


Z9 


Saturn 


W. 


105 34 4 


3098 


107 25 7 


3107 


109 15 


55 


3XX8 


III 6 27 


3x30 




Aquil9 


w. 


64 13 33 


3675 


65 50 46 


3667 


67 28 


10 


2669 


69 5 40 


3660 




a Arietis 


E. 


32 51 31 


3173 


31 2 26 


3193 


29 13 


51 


83X8 


27 25 50 


3344 




Aldebaran 


E. 


65 38 I 


3X30 


63 47 32 


8X3X 


61 57 


ao 


9143 


60 7 26 


9X53 




Pollux 


E, 


107 31 55 


9139 


105 41 56 


3X49 


103 52 


ZI 


8158 


102 2 40 


3x69 


ao 


a Aquil« 


W, 


77 13 12 


2fi75 


78 50 25 


3684 


80 27 27 


8693 


82 4 17 


3704 




Fomalhaut 


W. 


51 44 27 


3933 


53 15 40 


9930 


54 47 


21 


39x8 


56 19 24 


3899 




Aldebaran 


E. 


51 3 4 


3330 


49 15 21 


9947 


47 28 


4 


9963 


45 41 13 


3284 




PoUux 


E. 


92 59 20 


3931 


91 II 58 


9943 


89 24 


17 


8900 


87 37 18 


8874 



XI 



162 



SEPTEMBER, 1899. 



XVIL 



GREENWICH MEAN TIME. ; 


LUNAR DISTANCES. 


Day of the 
Month. 


Name and Direction 


Noon. 


P.L. 
of 


III»». 


P.L. 
of 


Vlh. 


P.L. 
of 


IXJx. 




P.L. 

of 


of Object 




• 


Diff. 




Diff. 




Diff. 






Diff. 






• m 




m t m 




• m 




* 


m 




2Z 


a Aquilse 


W. 


83 40 52 


37x6 


85 17 XI 


2729 


86 53 X2 


«744 


88 28 


53 


3760 




Fomalhaat 


W. 


57 51 44 


2888 


59 24 18 


2880 


60 57 2 


2876 


62 29 


52 


2873 




a Pegasi 


w. 


35 55 13 


3649 


37 33 2 


2632 


39 II 13 


262Z 


40 49 


39 


36x4 




Aldebaran 


E. 


43 54 50 


2304 


42 8 56 


a3a4 


40 23 32 


4346 


38 38 


40 


3369 




Pollux 


E. 


85 50 41 


aago 


84 4 27 


«307 


82 18 38 


3334 


80 33 


13 


S34a 


Z2 


a Aquilse 


W. 


96 21 41 


2855 


97 54 57 


2877 


99 27 45 


290Z 


XOX 


3 


3934 




Foxnalhaut 


W. 


70 14 


2889 


71 46 33 


2898 


73 18 55 


5907 


74 51 


5 


•9x7 




a Pegasi 


W. 


49 3 6 


2616 


50 41 39 


2622 


52 20 4 


2630 


53 58 


18 


3639 




Pollux 


E. 


71 5a 37 


3433 


70 9 50 


8453 


68 27 31 


Mn 


66 45 


39 


3493 




Regulus 


E. 


108 40 52 


2391 


106 57 5 


04x0 


105 13 44 


2428 


103 30 


49 


2443 


23 


Fomalbaut 


W. 


82 28 Z2 


a98» 


83 58 45 


3000 


85 28 58 


3016 


86 58 


51 


3<m 




a Pegasi 


W. 


62 6 z 


2698 


63 42 44 


27x0 


65 X9 10 


^7*3 


66 55 


17 


3738 




PoUux 


E. 


58 23 29 


4597 


56 44 30 


2618 


55 6 


2640 


53 28 





3663 




Regulus 


E. 


95 2 39 


a538 


93 22 18 


2556 


91 42 23 


8574 


90 2 


53 


2593 




Sun 


E. 


126 48 57 


2877 


125 16 9 


2896 


123 43 45 


3915 


122 II 


45 


9935 


24 


Fomalbaut 


W. 


94 22 45 


3x26 


95 50 23 


3147 


97 17 36 


3x68 


98 44 


24 


3x88 




a Pegasi 


W. 


74 51 4 


28x4 


76 25 14 


2830 


77 59 3 


2845 


79 32 


32 


3860 




Arietis 


W. 


31 16 19 


2758 


32 51 42 


2769 


34 26 51 


«779 


36 I 


46 


279X 


, 


Pollux 


E, 


45 25 30 


«777 


43 50 32 


280Z 


42 16 6 


9826 


40 42 


12 


2853 




Regulus 


E. 


81 51 39 


2684 


80 14 37 


27OZ 


78 37 59 


•7x9 


77 I 


44 


3756 




Sun 


E. 


"4 37 47 


3029 


113 8 10 


3047 


III 38 56 


30<55 


xio 10 


4 


3083 


25 


a Pegasi 


W. 


87 15 3 


a937 


88 46 35 


2932 


90 17 48 


2966 


91 48 


43 


398X 




a Arietis 


W. 


43 52 33 


2831 


45 25 55 


2863 


46 59 I 


2876 


48 31 


51 


8887 




Regulus 


E, 


69 6 3 


2818 


67 31 58 


«834 


65 58 14 


2849 


64 24 


50 


3864 




Sun 


E. 


102 51 7 


S169 


xoi 24 21 


3X86 


99 57 55 


3308 


98 31 


48 


33x8 


a6 


a Arietis 


W, 


56 12 13 


2946 


57 43 34 


8937 


59 14 41 


3967 


60 45 


35 


•977 




Aldebaran 


W. 


23 47 29 


3096 


25 15 44 


3087 


26 44 9 


3083 


28 12 


41 


3078 




Regulus 


E. 


56 42 28 


2934 


55 10 52 


2946 


53 39 32 


3959 


52 8 


28 


•978 




Sun 


E, 


91 25 39 


3388 


90 I 14 


S3oa 


88 37 5 


33x4 


87 13 


zo 


33^7 


«7 


a Arietis 


W, 


68 X7 3 


3<a3 


69 46 47 


3030 


71 16 22 


3039 


72 45 


47 


3043 




Aldebaran 


W. 


35 35 40 


3082 


37 4 " 


3085 


38 32 39 


3087 


40 I 


4 


309X 




Regulus 


E. 


44 36 52 


3028 


43 7 14 


SQ39 


41 37 49 


3049 


40 8 


37 


30S9 




Sun 


E, 


80 16 58 


3381 


78 54 20 


339X 


77 31 53 


3400 


76 9 


36 


3408 


98 


a Arietis 


W. 


80 xo 53 


S075 


8x 39 33 


S080 


83 8 7 


3084 


84 36 36 


3087 




Aldebaran 


W. 


47 22 14 


3105 


48 50 18 


SX07 


50 18 19 


3x09 


51 46 


18 


3HI 




Regulus 


E. 


32 45 39 


3x09 


31 17 40 


31x9 


29 49 53 


3x39 


28 22 


19 


3140 




Sun 


E, 


69 20 22 


3443 


67 58 54 


3448 


66 37 32 


3454 


65 16 


16 


3459 


29 


a Arietis 


W. 


91 58 X 


3Z0t 


93 26 9 


3x03 


94 54 15 


3x04 


96 22 


20 


3x05 




Aldebaran 


W. 


59 5 41 


3X17 


60 33 30 


SXX7 


62 I 19 


3XX7 


63 29 


8 


3117 




Sun 


E. 


58 3X 9 


3476 


57 10 18 


3479 


55 49 30 


3480 


54 28 


44 


3488 


30 


Aldebaran 


W, 


70 48 24 


Sixi 


72 x6 20 


3x09 


73 44 19 


3x06 


75 12 


2Z 


3104 




Pollux 


W. 


29 38 41 


3496 


31 2 57 


3«77 


32 27 35 


3339 


33 52 


34 


3«43 , 




Sun 


£. 


47 45 13 


S48S 


46 24 32 


3484 


45 3 50 


S484 


43 43 


8 


3483 , 

1 



XVIIl. 



SEPTEMBER, 1899. 



163 



GREENWICH MEAN TIME. 


LUNAR DISTANCES. 


•sg 








P.L. 




P.L. 




P.U 




P.Z. 


Name and Direction 1 


Midnight. 


of 


XV^ 


of 


XVIIIh- 


of 


XXIb. 


of 


Q 


of Object 






Diff. 




DifE. 




Difl. 




DifL 








m t » 




• t m 




• • » 




• t m 




az 


a Aquilae 


W. 


90 4 14 


V77 


91 39 12 


•795 


93 13 47 


18x4 


94 47 57 


9834 




Fomalhaut 


W. 


64 2 46 


a873 


65 35 40 


9B74 


67 8 32 


9878 


68 4X 19 


9883 




a Pegasi 


W. 


42 28 15 


96x0 


44 6 57 


9607 


45 45 42 


9608 


47 24 26 


96zx 




Aldebaran 


E. 


36 54 2X 


«394 


35 10 37 


94x9 


33 27 30 


9446 


31 45 I 


a475 




Pollux 


E. 


78 48 14 


«3S9 


77 3 40 


a377 


75 19 32 


9396 


73 35 51 


94x3 


29 


a Aqnilse 


W. 


102 31 51 


9950 


104 3 7 


9976 


105 33 50 


3003 


107 3 59 


303X 




Fomalhaat 


W. 


76 23 2 


9928 


77 54 45 


994a 


79 26 xz 


asss 


80 57 20 


9969 




a Pegasi 


w. 


55 36 20 


3649 


57 14 8 




58 5x 42 


9673 


60 29 


9684 




Pollux 


E. 


65 4 16 


ajiS 


63 23 21 


a534 


61 42 55 


a554 


60 2 57 


9576 




Regulus 


E. 


loi 48 19 


0464 


100 6 15 


9489 


98 24 37 


930X 


96 43 25 


9390 


23 


Fomalhaut 


W. 


88 28 22 


305X 


89 57 32 


3069 


9Z 26 19 


3087 


92 54 44 


3x07 




a Pegasi 


W. 


68 31 6 


V53 


70 6 35 


9768 


71 41 45 


9784 


73 16 34 


9798 




Pollux 


E. 


51 50 30 


«<»4 


50 13 29 


9707 


48 36 59 


a730 


47 59 


8753 




Regulus 


E. 


88 23 49 


96x3 


86 45 10 


9639 


85 6 55 


9648 


83 29 5 


9666 




Sun 


E. 


Z20 40 10 


«9M 


119 8 59 


9979 


1x7 38 XX 


999X 


xx6 7 47 


30x0 


34 


Fomalhaut 


W, 


100 10 47 


39x0 


lox 36 44 


3331 


X03 2 x6 


3854 


X04 27 2 X 


3^77 




a Pegasi 


W. 


81 5 42 


9876 


82 38 32 


389Z 


84 IX 2 


9907 


85 43 12 


9939 




a Arietis 


W. 


37 36 26 


9803 


39 10 51 


88x4 


40 45 I 


9836 


42 18 55 


9838 




Pollux 


E. 


39 8 51 


9878 


37 36 4 


9905 


36 3 51 


8933 


34 32 14 


9963 




Regulus 


E. 


75 25 52 


2753 


73 50 22 


9769 


72 15 14 


9786 


70 40 28 


3803 




Sun 


E. 


108 41 34 


Siox 


107 13 26 


31x9 


105 45 39 


3x36 


104 18 Z3 


3x53 


25 


Pegasi 


W. 


93 19 19 


9996 


94 49 37 


3010 


96 19 37 


3094 


97 49 20 


3038 




a Arietis 


W, 


50 4 26 


9900 


51 36 45 


9919 


53 8 49 


3934 


54 40 38 


9935 




Regulus 


E. 


62 51 45 


9879 


61 18 59 


a893 


59 46 31 


9907 


58 X4 2X 


9990 




Sun 


E. 


97 6 


sasa 


95 40 29 


3*47 


94 15 i6 


396X 


92 50 X9 


3376 


36 


a Arietis 


W. 


62 z6 16 


9987 


63 46 45 


a997 


65 17 2 


3005 


66 47 8 


30x4 




Aldebaran 


W, 


29 41 17 


3078 


31 9 54 


3078 


32 38 31 


3079 


34 7 6 


3080 




Regulus 


E. 


50 37 40 


«984 


49 7 7 


a99S 


47 36 48 


3006 


46 6 43 


30x8 




Sun 


E. 


85 49 30 


3338 


84 26 3 


3350 


83 2 49 


3360 


8z 39 47 


337a 


27 


a Arietis 


W. 


74 15 4 


3059 


75 44 12 


3038 


77 13 13 


3065 


78 42 6 


vflfVi 




Aldebaran 


W. 


41 29 25 


3094 


42 57 42 


3096 


44 25 56 


3099 


45 54 7 


3103 




Regulus 


E, 


38 39 37 


3069 


37 10 49 


3079 


35 42 14 


3088 


34 13 50 


3099 




Sun 


E. 


74 47 28 


34x5 


73 25 29 


3433 


72 3 39 


343X 


70 41 57 


3437 


28 


a Arietis 


W. 


86 5 I 


3091 


87 33 21 


3094 


89 X 38 


3097 


90 29 5x 


3x00 




Aldebaran 


W. 


53 14 14 


3113 


54 42 8 


3x14 


56 10 


3XX5 


57 37 51 


3xx6 




Regulus 


E. 


26 54 58 


3x5a 


25 27 5X 


3166 


24 X X 


3x80 


22 34 28 


3x97 




Sun 


E. 


63 55 6 


34^ 


62 34 z 


3467 


6x X3 


347X 


59 52 3 


3473 


29 


a Arietis 


W. 


97 50 23 


3105 


99 18 26 


3x05 


xoo 46 29 


3x05 


Z02 Z4 32 


3x05 




Aldebaran 


W. 


64 56 57 


3xz6 


66 24 47 


3XX5 


67 52 38 


3x14 


69 20 30 


3XX3 




Sun 


E. 


53 8 


3483 


51 47 17 


3484 


50 26 35 


3483 


49 5 54 


3485 


30 


Aldebaran 


W. 


76 40 26 


3x01 


78 8 35 


3098 


79 36 47 


3095 


8x 5 3 


309X 




Pollux 


W. 


35 17 52 


3399 


36 43 27 


39IS 


38 9 x8 


3«H 


39 35 23 


3X9X 




Sun 


E. 


42 22 25 


3489 


4Z X 41 


3480 


39 40 55 


3480 


38 20 8 


3479 



164 



OOTOBER, 1899. 



AT GREENWICH APPARENT NCX)N. 



I 

I 



Q 



SUN. 

Mon. 
Tues. 

WeA 
Thur. 
Frid. 

Sat. 

SC/N. 
Moil 

Tue«. 
Wed. 
Thur. 

Frid, 

Sat, 
SC/N. 

Mod. 
Tues. 
Wed. 

Thur. 

Frid. 

Sat. 

SUN. 

Mon. 

Tues. 

Wed. 
Thur, 
Frid. 

Sat. 
SUN. 
Mon. 
Tues. 

Wed. 



4 



O 

a 



2 



I 

2 

3 

4 

5 
6 

7 
8 

9 

lO 

II 

13 

13 
H 
15 

i6 

17 
i8 

19 
ai 

aa 

23 
34 

35 
26 

37 

28 
29 
30 

31 
3a 



Appftr«nt 
Rl|(ht AfcenaloB. 



h ■ ■ 
2 29 39.39 

2 33 16.94 

2 36 54.82 

2 40 33.03 
2 44 11.59 

2 47 50-52 

2 5z 29.84 

2 55 9.56 
2 58 49.70 

3 2 30.28 
3 6 11.30 
3 9 52.80 

3 13 34-79 
3 17 17.28 

3 21 0.30 

3 24 43.88 
3 28 28.01 
3 32 12.74 

3 35 58.08 

3 39 44- 04 
3 43 30.66 

3 47 17.94 
3 51 5-92 
3 54 54.60 

3 58 44-01 

4 2 34.15 
4 6 25.05 

4 10 16.72 

4 14 9.16 

4 x8 2.40 

4 21 56.42 



14 25 51.26 



THE SUN'S 



DiCfor 

I HOBC 



• 

9.058 
9.071 
9.085 

9.099 

9.x 14 
9.130 

9x47 
9.164 

9.X82 

9.200 
9.219 

9-239 

9.260 
9.282 

9.304 

9.327 
9-351 
9.376 

9.402 
9.429 
9.456 

9.485 

9.514 
9.544 

9.574 
9.605 

9.637 

9.669 
9.702 

9-735 
9.768 

9.802 



PrrlmafMm. 



S. 3 12 15.5 

3 35 330 

3 58 48.0 

4 22 0.3 

4 45 9-4 

5 814.9 

5 31 16.5 

5 54 13-8 

6 17 6.4 

6 39 54.0 

7 2 36.1 
7 25 12.4 

7 47 42.5 

8 10 6.1 

8 32 22.7 

8 54 32.1 

9 16 33.9 
9 38 27.6 

zo o 13.0 

10 21 49.7 
xo 43 17.2 

11 435.3 

II 25 43.4 
xz 46 41.4 

X2 7 28.7 
X2 28 4.8 
Z2 48 29.6 

13 8 42.4 

13 28 43.0 
13 48 30.9 

X4 8 5.6 
S. 14 27 26.8 



Die for 
I Hook. 



-58.27 
58.18 
58.07 

-57.95 
57.81 

57.65 

-57.48 
57.29 

57.09 

-56.87 
56.63 
56.38 

-56.12 
55-84 
55.54 

-55.23 
54.91 
54.57 

-54.21 
53.84 
53.45 

-53.05 
52.63 

52.19 

-5X.74 
51.27 

50.78 

-50.28 

49.76 
49.2a 
48.66 

—48.09 



6 
6 
6 

6 
6 
6 

6 
6 
6 



6 
6 
6 



6 
6 
6 

6 
6 
6 

6 
6 
6 

6 
6 
6 
6 



1.37 
1.64 

1.9X 



2.19 
2.47 

2.75 

3.03 

3-31 
3.60 



6 3.88 
6 4.X6 
6 4.45 



4-73 
5.0Z 

5.29 



6 5.57 
6 5.84 

6 6.Z2 



639 
6.66 

6.93 

7.20 
7.46 
7.72 

7.97 
8.23 

8.48 

8.74 
8.99 
9.24 

9.49 



16 9.74 



64.37 
64.4X 
64^6 

64.51 
64.56 
64.62 

64.68 
64.74 
64.80 

64.87 
64.94 
65.OX 

65.09 

65. z 7 
65.25 

65.33 
65.42 

65-51 

65.60 
65.69 
65.78 

65.88 
65.98 
66.08 

66.Z8 
66.28 
66.39 

66.50 
66.6x 
66.72 
66.83 

66.94 



to be 

bcract 
firooi 



o 19.23 
o 38.18 
o 56.81 



1 
1 
I 

2 
2 
2 

2 

3 
3 



15.10 
33.04 
50.61 

7.80 

2459 
40.96 

56.89 
12.37 
27.38 



DiflLfor 
iHoni; 



3 41.92 

3 55.93 

4 9.43 

4 22.38 
4 34.76 
4 46.55 



57.74 
8.30 

5 18.21 



27.45 
36.01 

5 43.86 



50.98 

57.38 
6 3.02 



6 7.89 

6 11.99 

6 15.30 

6 17.82 



16 19.54 



• 
0.796 

0.783 

0.769 

0.755 
0.740 

0.724 

0.708 
0.691 
0.673 

0.654 
0.635 
0.6x5 

0.595 

0.574 
0.551 

0.528 

0.504 
0.479 

0.453 
0.426 

0.399 

0.371 
0.342 
0.3x2 

0.282 
0.251 
0.219 

0.187 
0.154 

O.X2I 
0.088 

0.055 



\ 



HoTiv— Th« mtaa timt of MmidUmottr pauing may bo tooad by tabtnotliii o^jS trom iho lidoroal tim«k 

Tho tlRn .— prtftiod to tht hourly obanga of dacUnation indicatot that south decllnationa an iattraadaff. 



n. 



OCTOBER, 1899. 



165 









AT GREENWICH MEAN NOON. 












THE 


SUN'S 










1 

• 

1 


Q 










Equation of 

Time, 

to be 

Added to 

Mean Tim*. 


Diftfor 
z Hour. 


Sf^eraal 

TiAe^ 
01 

RiRbt Ascension 

of 

Mean Son. 


Apparent 
Right Ascaotion. 


Difl.for 
z Uoor. 


Apparent 

Declinatioa. 


Difl.for 
z Hour. 


SUN 

Mon. 

Tues. 


I 

2 

3 


h m • 
12 29 40.95 

12 33 18.55 

12 36 56.47 


■ 
9.061 

9.074 

9.087 


• • 
S. 3 12 25.6 

3 35 43-3 
3 58 58.6 


It 

-58.28 
58.19 
58.08 


m ■ 
ID 19.37 

10 38.32 

10 56.95 


• 
0.796 

0.783 

0.769 


h m • 
12 40 0.32 
12 43 56.87 

12 47 53.42 


Wed. 
Thur. 
Frid. 


4 

5 
6 


12 40 34.74 
12 44 13.35 

12 47 52.33 


9.101 
9.1x6 

9.132 


4 22 II. I 

4 45 20.5 

5 8 26.3 

• 


-57-96 
57-82 
57.66 


II 15.24 

II 33-i8 
" 50.75 


0.755 
0.740 

0.724 


12 51 49.98 

12 55 46.53 
12 59 43.08 


Sat. 

SUN 

Mon. 


7 
8 

9 


12 51 31.69 
12 55 11.46 
12 58 51.64 


9.149 
9.Z66 
9.183 


5 31 28.1 

5 54 25.7 

6 17 18.5 


-57 49 
57-30 
57.10 


12 7.94 
12 24.73 
12 41.10 


0.708 
0.691 

0.673 


13 3 39.63 
13 7 36.19 

13 II 32.74 


Tues. 
Wed. 
Thur. 


lO 
IZ 

12 


13 2 32.26 

13 6 13.33 
13 9 54-88 


9.202 
9.221 
9.242 


6 40 6.3 

7 2 48.6 
7 25 25.0 


-56.88 
56.64 

56.39 


12 57.03 

13 12.51 
13 27.52 


0.654 
0.635 
0.6x5 


13 15 J»9.29 
13 19 25.85 

13 23 22.40 


Frid. 

Sat. 

SUN 


13 
14 
15 


13 13 3690 
13 17 19.44 

13 21 2.50 


9.262 
9.284 
9.306 


7 47 55.3 

8 10 19.0 

8 32 35.8 


-56.13 
55.85 
55.55 


13 42.05 

13 56.06 

14 9.56 


0.595 

0.573 
0.551 


13 27 18.95 

13 31 15.50 
13 35 12.06 


Mon. 
Tues. 
Wed. 


i6 

17 

i8 


13 24 46.H 
13 28 30.29 
13 32 15.05 


9.329 
9.353 
9.378 


8 54 45-4 

9 16 47.2 

9 38 41.1 


-55-24 
54-91 
54-57 


14 22.50 
14 34-88 
14 46.67 


0.527 
0.503 
0.478 


13 39 8.61 
13 43 5.17 
13 47 1-72 


Thur. 

Frid. 

Sat. 


19 

20 
21 


13 36 0.42 

13 39 46-42 
13 43 33.07 


9.404 

9-431 
9.458 


ID 26.6 
ZO 22 3.3 
10 43 30.9 


-54-21 
53.84 
53.45 


14 57.85 

15 8.40 
15 18.31 


0.453 
0.426 

0.399 


13 50 5^.27 

13 54 5483 
13 58 51 38 


SUN 
Mon. 
Tues. 


22 

23 

24 


13 47 20.39 
13 51 8.39 
13 54 57.10 


9.486 

9-515 
9.545 


II 4 48.9 
II 25 57.1 
II 46 55.0 


-53.05 
52.63 
52.19 


15 27-54 
15 36.09 

15 43-94 


0.371 
0.342 
0.312 


14 2 47.93 
14 6 44.49 
14 10 41.04 


Wed. 
Thur. 
Frid. 


25 
26 

27 


13 58 46.54 

14 2 36.71 

14 6 27.63 


9.575 
9.606 

9.638 


12 7 42.3 

12 28 18.5 
12 48 43.1 


-51.74 
51.27 

50.78 


15 51.06 

15 57.44 

16 3.07 


0.281 
0.250 
0.219 


14 14 37.60 
14 18 34.15 
14 22 30.70 


Sat. 
SUN 
Mon. 
Tues. 


28 
29 

30 
31 


14 10 19.32 
14 14 11.78 
14 18 5.03 

14 21 59.08 


9.670 
9-702 

9.735 
9.769 


13 8 55.9 

13 28 56.4 

13 48 44.2 

14 8 18.8 


-50.28 
49.76 
49.22 
48.66 


16 7.94 
16 12.03 

16 15.33 
16 17.84 


0.187 
0.154 
0.121 
0.088 


14 26 27.26 
14 30 23.81 
14 34 20.37 
14 38 16.92 


Wed. 


32 


14 25 53-93 


9.802 


S. 14 27 39.8 


—48.09 


16 19.55 


0.054 


14 42 13.48 


Note.— Tl 
Tl 


lesig 
incre 


Didiamater for meat 
n — prefixed to the 
asinx. 


\ noon may 1 
hourly char 


be assumed the same 
ige of declination inc 


> as that for 
licates that 


apparent noon, 
south dedinati 


ons an 


Diff. for z Hour, 
+ 9'.8565. 
(Table III.) 



166 



OCTOBER, 1899. 



III. 



AT GREENWICH MEAN NOON. 



A 

8 
I 

t 



I 

a 

3 

4 

5 
6 

7 
8 



10 

zz 

Z2 

13 

14 
IS 

z6 

17 
z8 

19 

20 
2Z 

22 

23 
24 

25 
26 

27 

28 
29 

3C 
31 



' 32 



o 

(3 



274 
275 

276 

277 
278 
279 

280 

281 
282 

283 
284 

285 

286 
287 
288 

289 
290 
29 z 

292 

293 
294 

29s 

296 

297 

298 
299 

300 

30Z 
302 

303 
304 

305 



THE SUN'S 



TRUE LONGITUDE. 



z88 
Z89 
Z90 



5 lo.o 

4 15-4 
3 23. z 



Z9Z 2 32.9 

Z92 z 44.6 

Z93 o 58.4 

Z93 60 Z4.2 

194 59 31-8 

195 58 51-3 

Z96 58 Z2.6 

197 57 35-6 

198 57 0-4 

Z99 56 26.9 

200 55 55.3 

20Z 55 25.5 

202 54 57.4 

203 54 3Z.2 

204 54 7.0 

205 53 44-6 

206 53 24.3 

207 53 6.0 

208 52 49.9 

209 52 35.9 

2ZO 52 24.Z 

2ZZ 52 Z4.6 

2Z2 52 7.2 

2Z3 52 2.Z 

2Z4 5Z 59.2 

215 51 58.5 

2z6 52 0.0 

2Z7 52 3.6 

218 52 9.3 



4 

3 
2 

z 

O 
O 



154 

20.7 

28.3 

38.0 
49.6 

3-3 



59 I9-0 

58 36.5 

57 55-9 

57 I7-I 

56 40.0 

56 4-7 

55 3I-I 

54 59-4 

54 29.5 

54 1-3 

53 35-0 

53 IO-7 

52 48.2 

52 27.8 

52 9-4 

51 53-2 

51 390 

5z 27.Z 

51 17-5 

52 zo.o 

51 4-8 



51 
51 
51 
51 



Z.8 
0.9 
2.3 

5.8 



5z ZZ.4 



Z>iff. for 
X Hour. 



47.68 

47-77 
47.86 

47-95 
48.03 

48.12 

48.20 
48.28 

48.35 

48.43 
48.50 

48.57 

48.64 
48.71 
48.79 

48.87 

48.95 
49.03 

49.X1 
49.19 
49.28 

49.37 
49.46 

49.55 

49.65 
49.74 
49.83 

49-93 
50.02 
50. xz 

50.19 



150.27 



LATITUDB. 



— O.7Z 

0.73 
0.73 

— O.7Z 
0.65 
0.56 

-0.45 

0-33 
0.20 

— 0.06 
+ 0.07 

0.Z9 

+ 0.28 

0.37 
0.42 

+ 045 
0.43 

0.40 

+ 0-34 
0.25 

0.Z4 

+ 0.03 

— o.zo 
0.24 

-0.37 

0.48 
0.56 

— 0.63 

0.66 
0.67 

0.65 

-0.59 



Zx>f[arithm 

of the 

Radius Vector 

of the 

Earth. 



0.0002867 

0.000 1 63 Z 

0.0000387 

9-9999136 
9.9997880 
9.99966Z8 

9-9995349 
9.9994078 

9.9992802 

9.999 z 526 
9.9990249 
9.9988973 

9.998770 z 
9.9986434 

9-9985174 

9.9983922 
9.9982677 
9.998 z 444 

9.9980220 

9.9979009 
9-9977810 

9.9976620 

9-9975442 
9.9974275 

9-9973 "8 
9.997 1 97 z 
9.9970830 

9.9969697 
9.9968572 

9-9967451 
9-9966334 

9.9965223 



ZMff. for 
X Hour. 



-51-4 

51-7 
52.0 

-52.3 
52.5 
52.7 

-52.9 
53-1 
53.2 

-53-2 

53.1 
53.0 

-52.8 
52.6 

52.3 

-52.0 
51-6 
51.2 

-50.7 
50.2 

49.8 

-49-3 
48.9 

48.4 

—48.0 

47-7 
47.4 

-47.1 
46.8 
46.6 
46.4 

-46.2 



Mean Time 

of 

Sidereal Noon 



h m s 

z z8 8.28 
z Z4 Z2.38 
z zo Z6.47 

z 6 20.56 
z 2 24.66 
o 58 28.75 

o 54 32.84 
o 50 36.93 
o 46 4Z.03 

o 42 45.Z2 
o 38 49.2Z 

o 34 53-31 

o 30 57.40 
o 27 Z.49 
o 23 5.58 

o Z9 9.68 

o 15 13-77 
o zz Z7.86 

o 7 21.95 
o 3 26.04 
9 59 30.Z4 

9 55 34-23 
9 51 38.32 
9 47 42.41 

9 43 46-51 
9 39 5060 

9 35 5469 

9 31 58.78 

9 28 2.87 

9 24 6.96 

9 20 ZZ.06 

9 16 Z5.Z5 






NoTfr— The numbera in column A correspond to the tme eqninoi of the date ; in colomn X* to tho mean 
equinoi of January o'jo 



Diff. for X Hour, 
— 9".8296. 
(Table II.) 



IV. 



OCTOBER, 1899. 



167 



GREENWICH MEAN TIME. 



THE MOON'S 



a 
o 



I 

a 
3 

4 

5 
6 

7 
8 



lO 

II 

12 

13 

15 

i6 

17 
i8 

20 
21 

22 

23 
24 

25 
26 

27 

28 
29 

30 
31 

32 



SBMIDIAMBTBR. 



Noon. 



4 46.8 

4 49-7 
4 54-2 



4 
5 
5 

5 
5 
5 



6 
6 
6 

6 

5 

5 

5 

5 



4 
4 
4 



59-9 

6.5 

13.8 

21.6 
29.9 
38.6 



5 47.5 

5 56.6 

6 5-5 

6 13.6 

6 20.3 

6 24.8 



26.3 
24.2 
18.4 

9.2 
57-6 
44-4 

30.9 

18.1 

6.9 

58.0 
51.8 
48.3 



4 47.7 

4 49-7 

4 54-1 

5 05 



15 8.2 



Midnight 



4 48.1 

4 51.8 
4 56.9 



5 
5 

5 

5 
5 
5 

5 
6 

6 

6 
6 
6 

6 
6 



6 
5 



4 
4 
4 

4 
4 
4 
5 



3-1 

lO.I 

17.7 

257 
34.2 

43.0 

52.2 
I.I 

9-7 

17.2 
22.9 
26.0 

257 
21.7 

14.2 

37 
511 
37.6 



5 24.3 
5 12.3 
5 2.2 



54-6 
497 
477 

48.4 

517 

57.1 
4.2 



HORIZONTAL PARALLAX. 



Noon. 



15 12.4 



54 77 
54 18.5 

54 35-1 

54 56.0 

55 20.3 

55 47.1 

56 15.8 

56 46.2 

57 18.0 

57 50-8 

58 24.2 

58 56.8 

59 26.7 

59 51-4 

60 7.8 

60 13.1 
60 5.4 
59 44-2 

59 10.6 
58 27.7 
57 39-3 

56 497 
56 2.8 

55 21.8 

54 49-1 
54 26.1 

54 13-4 

54 "•! 
54 18.6 

54 347 

54 58.0 

55 26.4 



Diff. for 
z Hour. 



40.31 
0.58 
0.79 

40.95 
1.07 
1. 16 

+Ik23 

X.30 
x-35 

+1.38 
1.38 
1.32 

+1.15 
0.87 

+0.47 

—0.04 
0.60 

X.I5 

— 1.61 

1.93 
2.06 

-2.03 
1.85 

1-55 

-I.I7 

0.75 

-0.31 

40.11 
0.50 
0.83 
1.09 

41.26 



Midnight 



54 12.3 

54 26.2 

54 45-1 

55 7.8 

55 33.5 

56 1.3 

56 30.8 

57 1-9 

57 34-3 

58 7.5 

58 407 

59 12.2 

59 39-9 

60 0.8 

60 12.0 

60 II.O 

59 56.4 

59 28.8 



58 
58 
57 



50.1 

3-9 

14.4 



56 25.7 

55 41-4 
55 4-3 

54 36.3 
54 18.4 

54 ii-o 

54 137 
54 257 

54 45-6 

55 "7 

55 42.0 



DilLfor 
z Hoar. 



40.45 
0.69 
0.88 

+X.01 
Z.Z2 
Z.20 

41.27 
1.32 

1-37 

+1-39 
1.36 

1.25 

41.03 

0.68 

40.22 

-0.32 
0.89 
Z.40 

-1.79 
2.02 
2.07 

-1.95 
X.71 
Z.36 

-0.97 
0.53 

— O.IO 

40.31 
0.67 
0.97 
x.z8 

+X.32 



UPPBR TRANSIT. 



Meridian of 
Greenwich. 



h 
22 



m 

37 

22 45.1 

23 27.5 

6 
o 11.6 
o 58.1 



I 
2 

3 

4 

5 
6 

7 
8 



47.6 
40.1 

351 

317 
28.6 

247 

19.3 

12.5 

4.6 



9 56.5 

10 48.8 

11 42.3 

12 37.1 

13 32.8 

14 28.5 

15 23.1 

16 15.5 

17 5-1 

17 51.8 

18 36.1 

19 18.4 

19 59.8 

20 41.0 

21 23.0 

22 6.6 

22 52.7 



Diff. for 
I Hour. 



m 
X.72 

X-74 
Z.80 



X.89 
a.oo 

2.13 
2.24 

2-33 

2.37 
2.36 

2.31 

2.24 
2.19 
2.16 

2.17 
2.20 
2.26 

2.3X 

2.33 
2.31 

2.24 

2.13 
2.01 

x.89 
z.80 

1-74 

Z.71 

1-73 
x.78 
1.86 

1.98 



AGE. 



Noon. 

d 
26.4 

27.4 

28.4 

29.4 
0.7 

17 

2.7 

37 
47 

57 
6.7 

77 

8.7 

97 
10.7 

11.7 
12.7 
13.7 

14.7 

157 
16.7 

177 
18.7 

19.7 

20.7 
21.7 
22.7 

23.7 

247 
25.7 

26.7 
27.7 



168 



OCTOBEfi, 1899. 



V. 



GREENWICH MEAN TIME. 



THE MOON'S RIGHT ASCENSION AND DECLINATION. 



Honr. 



Right 
Atcension. 



Diff.for 
I Minute. 



Declinmtion. 



Diff.for 
z Minute. 



O 

Z 
4 2 

3 

4 

5 
6 

7 
8 

9 
xo 

IZ 
12 

13 

14 

15 
z6 

17 

z8 

19 

20 
2Z 
22 

23 



O 

z 

2 

3 

4 

5 
6 

7 

8 

9 
zo 

zz 

Z2 

13 

14 

15 
i6 

17 
i8 

19 

20 
21 
22 

23 
24 



SUNDAY X. 



h 
ZO 
ZO 
ZO 
ZO 
ZO 
ZO 
ZO 
ZO 
ZO 
ZO 
ZO 
ZO 
ZO 
ZO 
ZO 
ZO 
ZO 
ZO 
ZO 
ZO 
10 
ZO 
ZO 
ZO 



;o 
:o 

[O 

;o 
:o 



6 

8 

zo 

Z2 

14 
z6 

17 
19 

2Z 

23 

25 

27 
28< 

30 

32 

34 
36 
38 

39 
41 
43 
45 
47 
49 



50 

52 

54 

56 

58 
o 

z 

3 
5 

7 

9 
zz 

Z2 

14 

z6 
x8 
20 
22 

23 
25 
27 
29 
31 
33 
35 



t 


t 


50.48 


1.8402 


40.86 


1.839s 


31-19 


1.8385 


2Z.48 


1.8377 


ZZ.72 


1.8369 


Z.9Z 


1.8369 


52.07 


X.8357 


42.20 


1.835a 


32.29 


1.8346 


22.35 


1.8348 


12.39 


X.8337 


2.40 


1.8333 


52.39 


X.833X 


42.37 


1.8328 


32.33 


1.8336 


22.28 


1.8325 


Z2.23 


I.83S4 


2.X7 


i.8s«3 


52. ZZ 


x.83as 


42.05 


1.8323 


31-99 


1.8324 


21.94 


1.8327 


ZZ.9Z 


1.8329 


Z.89 


1.833a 



N. 



N. 



• 
6 
6 
6 
6 

5 
5 
5 
5 

5 
4 
4 
4 
4 
4 
3 
3 
3 
3 
3 

2 
2 

a 
a 

2 



MONDAY a. 

N. 2 

z 

z 

X 

z 
z 
o 
o 
o 
o 
N. o 
S. o 
o 
o 
o 
o 
z 
z 
z 
z 
z 
a 
2 
2 
S. a 



51.89 


1.8333 


41-91 


Z.8338 


31.95 


1.834a 


22.02 


X.8347 


Z2.ZZ 


t.835a 


2.24 


X.8358 


52.41 


Z.8365 


42.62 


x.837a 


32.87 


X.8S79 


23-17 


1.8387 


13.52 


1.8396 


3.92 


1.8405 


54-38 


X.8414 


44.89 


X.8424 


35.47 


1.8435 


26. ZZ 


X.8446 


16.82 


X.8457 


7.60 


1.8470 


58.46 


X.8482 


49.39 


1.8495 


40.40 


1.8509 


31.50 


1.8523 


22.68 


1.8538 


13-96 


X.8553 


5.32 


Z.8568 



39 

28 

z6 

5 
53 
42 
30 
19 

7 
56 

44 

33 
az 

9 
58 
46 

34 
22 
zz 

59 
47 
35 
24 

Z2 



O 

48 
36 

24 
Z2 

Z 

49 
37 
25 

13 

z 

ZO 
22 

34 
46 

58 

ZO 

22 

34 

46 

58 

9 
21 

33 
45 



30.8 
8.8 

45.1 
Z9.8 

52.9 

24.5 

54.5 
23. z 

50.3 
z6.z 

40.5 

3.6 

«5.4 
46.0 

5.4 

23.7 
40.9 

57.0 

Z2.Z 
26.2 

39.4 
5Z.6 

3.0 

13.5 



23.3 

32.3 
40.6 

48.3 
55.4 

Z.9 
7.8 

13.3 
X8.3 

22.9 

27.x 

29.0 

25.3 
21.9 

X8.7 

X5.6 

X2.7 

9.8 

6.9 

4.0 
z.o 

57.9 

54-6 
51.1 
47-4 



11.35a 
XX. 381 
XI. 408 

X1.43S 
11.461 

11.487 
11.512 

XI. 535 

11.558 
11.582 
11.604 
11. 626 
11.647 
11.667 
11.686 

11.704 
11.722 

11.740 
11.757 

xi.77a 
IX.788 

11.808 
XI.817 
XI.83X 



XX.843 
11.856 
11.867 
11.877 
11.887 
X1.897 
XI.905 

11.913 
XI. 990 

11.987 
11.93a 
XI. 937 
11.941 
XI.945 
11.947 
XI. 950 
11.95a 
11.95a 
IX. 95a 

XI.951 
11.949 

XI. 947 
11.943 
11.940 

11.936 



Hour. 



Right 
Ascension. 



Diff. for 

I Minute. 



I>eGUiuiti(m. 



Diff. for 
1 Minute. 



O 

Z 
2 

3 

4 

5 
6 

7 
8 

9 

ZO 

zz 

Z2 

13 
14 
15 

z6 

17 

z8 

19 
20 

2Z 

22 

23 



o 

z 

2 

3 

4 

5 

6 

7 

8 

9 

ZO 

zz 
za 

13 

14 

15 
z6 

17 
z8 

19 
20 

2Z 
22 

23 
24 



TUESDAY 3. 



h m 

I 35 
I 36 
I 38 
z 40 
z 42 
X 44 
z 46 
z 48 
I 50 
I 51 
I 53 
I 55 
I 57 

1 59 

2 z 

2 3 

2 5 

2 6 

a 8 

2 ZO 
2 Z2 
2 14 

a z6 
a z8 



2 
2 
2 
2 
2 
2 
2 
2 
2 
2 
2 
2 
2 
2 
2 
2 
2 
2 
2 
2 
2 

3 
3 
3 
3 



t 

5.32 
56.78 

48.35 
40. oz 

31.78 
23.67 
Z5.66 

7.77 
0.00 

52.35 
44.82 

37.42 
30. z 5 
23.02 

Z6.02 

9.Z6 

2-44 
55.87 

49-45 
43.18 

37.07 
31. II 
25.32 
Z9.69 



t 
1.8568 

X.8586 

1.86Q3 
I. 8619 
1.8638 
1.8657 
1.8675 

1.8695 

X.8715 
1.8735 
1.8756 

1.8777 
X.8800 
X.8822 
X.8845 
X.8868 
x.889a 
1.8917 
1.8948 
1.8968 

i.899« 

i.9otx 
X.9048 
1.9075 



S. 



S. 



a 
a 

3 

3 

3 

3 

3 

4 

4 

4 

4 

4 

5 

5 

S 

5 

5 
6 

6 

6 

6 

6 

7 
7 



45 

57 

9 

2Z 

33 

45 

57 

9 
az 

32 

44 



47.4 
43.4 
39-0 
34.2 
29.0 

23.3 
X7.0 

Z0.2 

2.8 

54.7 
45.9 
56 36.3 
8 25.9 
Z4.6 
2.4 

49.3 

35.1 
Z9.9 

3.6 
30 46. z 
42 27.4 

54 7-4 

5 46. z 

17 23.5 



20 
32 
43 
55 
7 
19 



WEDNESDAY 4. 



20 

22 

24 
25 
27 
29 
31 

33 

35 

37 

39 

41 

43 

45 

47 

49 

51 

53 

55 

57 

59 
z 

3 
5 

7 



14.22 


X.9103 


8.92 


x.9i3a 


3.80 


X.916X 


58.85 


X.9190 


54.08 


X.9290 


49-49 


X.925X 


45.09 


x.9s8s 


40.87 


x.93i« 


36.84 


X.9344 


33.00 


X.9S77 


29.36 


X.9409 


25-91 


X.9449 


22.66 


X.9476 


Z9.62 


X.9510 


16.78 


X.9544 


14.15 


X.9579 


".73 


X.96XS 


9.53 


X.965X 


7-54 


t.9687 


5.77 


x.97a3 


4.22 


X.9760 


2.89 


1.9797 


1.79 


1.9836 


0.92 


1.9874 


0.28 


1.991a . 



s. 



7 

7 

7 
8 



28 
40 
52 
3 



S. 



8 15 
8 26 
8 38 

8 49 

9 o 

Z2 
23 

34 
46 

57 
8 

19 
30 

41 
52 

3 

14 
25 
36 

47 
57 



9 

9 

9 

9 

9 
o 

o 

o 

o 

o 

z 

z 

z 

z 

z 

z 



59.4 
33.9 

6.8 
38.2 

7.9 
36.0 

2.4 
26.9 

49-6 
Z0.4 

29-3 
46.2 

z.z 

13.9 
24.5 
32.9 
39-0 
42.8 

44-2 
43- 1 
39.6 

33.5 

24.8 

13.4 
59.3 



1.936 
1.930 

1.993 
1.9x7 
1.909 

1.900 
1.P9X 

X.889 
1.871 

1.859 
1.847 

n.833 
1.8x9 
1.804 
1.789 
1.77a 
X.755 
X.737 
X.718 
X.69B 
1.^ 
X.656 
X.634 
1.611 



X1.587 
XI. 569 
XI. 536 
XX. 509 

11.489 

XX. 454 

XX. 494 
XX.S93 

XX. 369 

11.331 

11.998 
XI. 965 

Xt.93X 

XI. 19s 
XX. 158 
11.191 

11.069 
11.049 
11.009 
10.969 
10.990 
XO.877 
10.839 

to. 787 

10.749 



VL 



OCTOBER, 1899. 



169 













GREENWICH 


MEAN 


TIME. 


















THE MOON*S RIGHT ASCENSION 


AND DECLINATION 


1 

• 






Hoar. 




Right 


Diff.for 


DocUnation. 


Diff.f6r 


Hour. 




Right 


Diff.for 


Decllnetiim. 


Diftfer 




Aicension. 


X Minute. 






z Minute, 




AtcanaioiL 


z Minute. 








I Minute. 








TI 


iURSD 


AY 5. 










SATURDAY 7, 


1 








h 


m 


t 


• 


• 


• 


• 


t 


h 


m • 


• 


• 


$ 


• 


* 





13 


7 


0.28 


X.99XS 


S.xx 57 


59.3 


XO.749 





14 47 36.87 


3.908s 


S.19 


21 


42.9 


7.35a 


X 


13 


8 


59.87 


x.99Sa 


X2 8 


42.4 


10.695 


X 


14 


49 49.51 


3.3x30 


19 


29 


1.2 


7.a57 


a 


13 


10 


59.70 


X.999S 


X2 19 


22.7 


xo.«47 


a 


14 


52 2.43 


9.3x77 


19 36 


13-7 


7.160 


3 


13 


12 


59.77 


S.0031 


X2 30 


0.1 


10.598 


3 


14 


54 15.64 


9.3385 


19 


43 


20.4 


7.06s 


4 


13 


15 


0.07 


9.0071 


X2 40 


34.5 


XO.548 


4 


14 


56 29.13 


9.3979 


19 


50 


21.2 


6.963 


5 


13 


17 


0.62 


9.0IX3 


12 51 


5.9 


X0.497 


5 


14 


58 42.91 


9.9390 


19 


57 


16.0 


6.863 


6 


13 


19 


1.41 


a.oisa 


13 1 


34.2 


10.446 


6 


15 


56.97 


9.3367 


20 


4 


4.8 


6.763 


7 


13 


21 


2.45 


3.0194 


13 11 


59.4 


10.393 


7 


15 


3 11.31 


3.24x3 


20 


10 


47.5 


6.66X 


8 


13 


23 


3.74 


S.OS36 


X3 22 


21.4 


XO.340 


8 


15 


5 25.93 


3.3460 


20 


17 


24.1 


6.558 


9 


13 


25 


5.28 


2.0377 


13 32 


40.2 


XO.385 


9 


15 


7 40.83 


3.3507 


20 


23 


54.4 


6.453 


10 


13 


27 


7.07 


8.03x9 


13 42 


55.6 


ZO.229 


10 


15 


9 56.01 


3.3553 


20 


30 


18.5 


6.348 


IX 


13 


29 


9. 1 1 


3.0363 


13 53 


7.7 


XO.Z79 


II 


15 


12 11.47 


3.2599 


20 


36 36.2 


6.343 


12 


13 


31 


II. 41 


3.0403 


14 3 


16.3 


10.XX4 


12 


15 


14 27.20 


9.2645 


20 


42 


47.5 


6.XS5 


13 


13 


33 


1397 


3.0*48 


14 13 


21.4 


10.056 


13 


15 


x6 43.2X 


a.269z 


20 


48 


52.4 


6.0S7 


H 


13 35 


16.79 


3.0493 


14 23 


23.0 


9.997 


14 


15 


18 59.49 


9.2^36 


20 


54 


50.8 


5.919 


15 


13 


37 


19.87 


3.0536 


14 33 


21.0 


9.936 


15 


15 


21 16.04 


9.978X 


21 





42.7 


5.8x0 


x6 


13 


39 


23.22 


3.0580 


14 43 


15.3 


9.874 


x6 


15 


23 32.86 


9.2896 


2X 


6 


28.0 


5.699 


17 


13 


41 


26.83 


3.0624 


14 53 


5.9 


9*8x9 


17 


15 


25 49.95 


9.2870 


21 


X2 


6.6 


5.587 


x8 


13 


43 


30.71 


3. 0669 


15 2 


52.7 


9.747 


18 


15 


28 7 30 


9.3914 


2X 


17 


38.5 


5.475 


19 


13 


45 


34.86 


3.07x3 


15 X2 


35.6 


9.689 


19 


15 


30 24.92 


9.9957 


2X 


23 


3.6 


5.36a 


20 


13 


47 


39.27 


3.0758 


15 22 


14.6 


9.6x7 


20 


15 


32 42.79 


9.300X 


2X 


28 


21.9 


5.a47 


21 


13 


49 


43.96 


3.0804 


15 31 


49.6 


9.549 


21 


15 


35 0.93 


9.3044 


21 


33 


33.3 


5.133 


22 


13 


51 


48.92 


3.0849 


15 41 


20.5 


9.48X 


22 


15 


37 19.32 


9.3087 


21 


38 


37.7 


5.0x6 


33 


13 


53 


54.15 


2.0895 


S.I5 50 47.3 1 


9.4x9 


23 


15 39 37.97 1 


9.3139 


S.2I 


43 


35.2 


4.900 








F 


'RIDAY 


6. 










S 


UNDA1 


{ 8. 











13 


55 


59.66 


3.0942 


S.t6 


lO.O 


9-S4a 





15 41 56.87 


9.3171 


S.2I 


48 


25.7 


4.78a 


X 


13 


58 


5.45 


a. 0987 


16 9 


28.4 


9.972 


X 


15 


44 16.02 


9.33x2 


21 


53 


9.0 


4.663 


2 


14 





11.51 


3. 1033 


16 18 


42.6 


9.900 


2 


15 


46 35.42 


9.sa5S 


21 


57 


45.2 


4*543 


3 


14 


2 


17.85 


S.X080 


x6 27 


52.4 


9.127 


3 


15 


48 55.06 


9.3993 


22 


2 


14.2 


4.493 


4 


14 


4 


24.47 


8.1127 


16 36 


57.8 


9.052 


4 


15 


51 14.94 


9.333s 


22 


6 


36.0 


4.30s 


5 


14 


6 


31.37 


3.X174 


16 45 


58.7 


8.977 


5 


15 


53 35.06 


9.3373 


22 


10 


50.5 


4.X80 


6 


14 


8 


38.56 


3.1232 


16 54 


55.1 


8.902 


6 


15 


55 55.42 


9.34x9 


22 


14 


57.6 


4-057 


7 


14 


10 


46.03 


3.1269 


17 3 


46.9 


8.824 


7 


15 


58 16.01 


9.3450 


22 


18 


57.3 


3. 933 


8 


14 


12 


53.79 


a.x3i7 


17 12 


34.0 


8.746 


8 


16 


36.82 


9.3488 


22 


22 


49.6 


3.809 


9 


14 


15 


1.83 


a.x363 


17 21 


16.4 


8.667 


ft 

9 


16 


2 57.86 


9.3526 


22 


26 


34.4 


3.683 


10 


14 


17 


10.15 


2. 14x1 


17 29 


54.0 


8.587 


10 


16 


5 19.13 


a. 356a 


22 


30 


II. 6 


3.558 


IX 


14 


19 


18.76 


a.i4S9 


17 38 


26.8 


8.505 


II 


16 


7 40.61 


a. 3597 


22 


33 


41.3 


3.43a 


12 


14 


21 


27.66 


3.X507 


17 46 


54.6 


8.432 


12 


16 


10 2.30 


a. 3633 


22 


37 


3.4 


3.304 


13 


14 


23 


36.84 


a. 1534 


17 55 


17.5 


8.339 


13 


16 


12 24.21 


a. 3669 


22 


40 


17.8 


3.X76 


14 


14 


25 


46.31 


3.x6oa 


18 3 


35.3 


8.354 


14 


16 


14 46.33 


a. 3704 


22 


43 


24.5 


5. 047 


15 


14 


27 


56.07 


2.X65X 


18 11 


48.0 


8.X69 


15 


16 


17 8.66 


9.3737 


22 


46 


23.4 


3.9x7 


i6 


14 


30 


6.12 


3.1699 


18 19 


55.6 


8.082 


16 


16 


19 31.18 


9.3770 


22 


49 


14.5 


S.787 


17 


14 


32 


16.46 


t.1747 


18 27 


57.9 


7.99s 


17 


16 


21 53.90 


9.380s 


22 


51 


57.8 


3.657 


i8 


14 


34 


27.09 


a. 1795 


18 35 


55.0 


7.907 


18 


16 


24 16.82 


9.3836 


22 


54 


33.3 


a. 535 


19 


14 


36 38.00 


3.X843 


18 43 


46.7 


7.8x7 


19 


16 


26 39.93 


9.3867 


22 


57 


0.8 


3.39a 


20 


14 


38 


49.20 


3. 1891 


18 51 


33.0 


7.727 


20 


16 


29 3.22 


9.3897 


22 


59 


20.4 


3.260 


21 


14 


41 


0.69 


3.X938 


18 59 


13.9 


7.635 


21 


16 


31 26.69 


a. 3947 


23 


I 


32.0 


3.X26 


22 


14 43 


12.46 


3.X986 


19 6 


49.2 


7.54a 


22 


16 


33 50.34 


9.3956 


23 


3 


35.5 


1.99a 


23 


14 


45 


24.52 


9.3034 


19 14 


18.9 


7.447 


23 


16 


36 14.16 


9.3983 


23 


5 


31.0 


z.858 


a4 


14 47 


3687 


• 9.2069 


S.19 21 


.42.9 


7.35a 


24 


16 


38 38.14 


9.401X 


S.23 


7 


18.5 


1.733 



170 



OCTOBER, 1899. 



vn. 



GREENWICH MEAN TIME. 



THE MOON'S RIGHT ASCENSION AND DECLINATION. 



Hour. 



Right 
Atcension. 



Diif.for 
z Minute. 



Declinatioo. 



DilLfor 
z Minute. 



O 

z 

2 

3 

4 

5 
6 

7 

8 

9 

10 

II 

12 

13 

M 

15 
i6 

17 
i8 

19 

20 
21 
22 

23 



O 

z 

2 

3 

4 

5 
6 

7 
8 

9 

lO 

iz 

12 

13 

15 
i6 

17 
18 

19 
20 

21 

22 

23 
«4 



MONDAY 9. 



h 
x6 
16 
16 
16 
16 
16 
16 
16 
z6 

17 
17 
17 
17 
17 
17 
17 
17 
17 
17 
17 
17 
17 
17 
17 



m 
38 
41 
43 
45 
48 
50 
53 
55 

57 
o 

2 

5 

7 
10 

12 

14 

17 

19 
22 

24 
27 

29 

31 
34 



t 

38.14 
2.29 

26.60 

51.07 
15.69 

40.45 

5.36 

30.40 

55.58 
20.88 

46.31 

11.85 

37.50 

3.26 

29.13 
55.10 
21. x6 

47.31 
13.54 
39.85 

6.24 

32.69 
59.21 
25.79 



s 





• 


3.40ZI 


S.23 


7 18.5 


3.4038 


23 


8 57.8 


3.40^5 


23 ] 


[0 29.0 


8.409X 


23 ^ 


[z 52.0 


3.4x15 


23 ^ 


C3 6.8 


3.4139 


23 ] 


[4 13.3 


3.4x6a 


23 3 


C5 11.6 


3.4185 


23 2 


[6 1.6 


3.4307 


23 ^ 


t6 43.3 


3.4337 


23 : 


t7 16.6 


•.4247 


23 ] 


t7 41.5 


3.4366 


23 3 


[7 58.1 


3.4284 


23 ^ 


t8 6.3 


3.4303 


23 : 


[8 6.1 


t.43ao 


23 2 


f7 57-4 


a.4336 


23 ^ 


^7 40.3 


2.435X 


23 J 


17 14.7 


3.4365 


23 ] 


[6 40.6 


a. 4378 


23 ] 


[5 58.0 


3.439« 


23 ^ 


[5 6.9 


3.4403 


23 3 


f4 7.3 


3.44x4 


23 ] 


[2 59.1 


«.44a5 


23 3 


[I 42.4 


3.4434 


S.23 3 


[0 17. z 



36 

39 

41 

44 
46 

49 
51 
53 
56 
58 
z 

3 
6 

8 

:8 IZ 
8 Z3 
8 16 
:8 18 
8 20 
8 23 
8 25 
:8 28 
8 30 
8 33 
8 35 



7 

7 

7 

7 

7 

7 

7 

7 

7 

7 
:8 

8 

:8 

8 



TUESDAY 10. 

S.23 

23 

23 

23 

23 
22 

22 

22 

22 

22 

22 

22 

22 

22 

22 

22 

22 
22 
22 
22 
22 
22 
21 
21 
S.2I 



52.42 


3.4443 


19.10 


3.4450 


45.82 


a. 4457 


12.59 


a. 4464 


39.39 


3.4469 


6.22 


a. 4474 


33.08 


a. 4477 


59.95 


3.4480 


26.84 


a.4483 


53.74 


3.4483 


20.64 


3.4484 


47.55 


3.4485 


14.46 


3.4483 


41.35 


3.448X 


8.23 


a. 4479 


35.10 


3.4476 


1.94 


3.447a 


28.76 


3.4467 


55.55 


3.4463 


22.30 


a. 4455 


49.01 


3.4448 


15.68 


3.444X 


42.30 


3.443a 


887 


1*4433 


35.38 


a. 44x3 



8 

7 

5 

3 
I 



43.3 
0.9 

9.9 
10.4 

2.3 
58 45.6 
56 20.4 

46.6 
4.2 

13.3 
Z3.8 

5.8 

49.3 
24.2 

50.7 
8.6 

18.0 

Z9.0 

11.5 

55.5 
31.2 

58.4 

17.3 
27.8 

30.0 



53 
51 
48 
45 
42 
38 
35 

31 

28 

24 
20 

16 

II 

7 

2 

58 

53 
48 



1.735 

Z.587 

1.453 
1.3x5 

Z.177 
Z.Q40 
0.902 

0.764 
0.635 

0.485 
0.346 
0.307 
— 0.067 
+ 0.074 
0.3x5 
0.356 

0.497 
0.639 
0.78X 
0.922 
Z.065 
Z.807 
X.350 
Z.498 



x.«35 
X.778 
Z.9SZ 

3.06s 

3.807 

3.349 
3.493 
3.635 

3.777 
3.930 

S.063 

3.304 

S.347 
S.488 

S.630 
3.773 
3.913 
4.054 
4.X96 
4.336 
4.476 
4.616 

4.755 
4.894 
5.033 



Hour, 



Right 
Ascenaioa. 



Diff. for 
I Minute. 



Declination. 



Diff. for 
X Minute. 



O 
Z 
2 

3 

4 

5 
6 

7 

8 
9 

10 

II 

12 

13 

14 

15 
16 

17 
18 

19 

20 

21 
22 

23 



o 

z 

2 

3 

4 

5 
6 

7 

8 

9 
zo 

II 

12 

13 

14 

15 
z6 

17 
z8 

19 
20 

2Z 
22 

23 
24 



WEDNESDAY xi. 



h m 

8 35 
8 38 

8 40 

8 42 

8 45 
8 47 
8 50 

8 52 
8 55 
8 57 

8 59 

9 2 



9 
9 
9 
9 
9 
9 
9 
9 
9 
9 
9 
9 



9 

9 

9 

9 

9 

9 

9 

9 

9 

9 

9 
20 

20 

20 

20 

20 

20 

20 

20 

20 

20 

20 

20 

20 

20 



4 
7 
9 

Z2 

14 
16 

19 
21 

24 
26 

28 
31 



35*38 

1.83 

28.22 

54.54 
20.79 

46.97 

13.07 

39.09 
5.02 

30.87 

56.62 

22.28 

47.84 
13.30 
38.65 

3.90 
29.04 

54.07 
18.98 

43.77 
8.44 

32.99 
57.42 
21.72 



• 

3.44x3 
3.4403 
8.4393 
3.438X 
3.4369 
3.4357 
3.4343 
3.4339 

3.43x5 
8.4300 

8.4384 
3.4268 
3.4353 
3.4234 
3.4317 

8.4x99 
3.4181 

3.4x62 
3.4143 
8.4x33 

8.4103 
8.40B2 
8.406X 
8.4040 



S.2I 48 

21 43 

2Z 38 

2Z 32 

2Z 27 

21 21 

21 Z5 
21 
21 



9 

3 



20 57 
20 51 
20 44 
20 38 
20 31 
20 24 
20 17 
20 10 
20 3 

19 55 
19 48 

19 40 

19 33 
19 25 
S.19 Z7 



THURSDAY Z2. 



33 45.90 


3.40x8 


S.I 


36 9.94 


3.3996 




38 33.85 


3.3974 




40 57.63 


3.3953 




43 21.28 


a. 3930 




45 44.79 


8.3906 




48 8.15 


3.3883 




50 31.38 


3.3860 




52 54.47 


3.3837 




55 17 42 


3.38x3 




57 40.23 


t.3789 




2.89 


8.3765 




2 25.41 


3.3743 




4 47.79 


3.37x7 




7 10.02 


8.3692 




9 32.10 


3.3667 


T 


" 54.03 


3.3643 


I 


14 15.82 


8.36x9 




z6 37.46 


3.3595 


▼ 


18 58.96 


3.357X 




2Z 20.31 


3.3546 




23 41.51 


8.352X 




26 2.56 


3.3497 




28 23.47 


8.3473 




30 44.22 


3.3447 


S.z 



9 9 

9 o 
8 52 

8 43 
8 35 
8 26 

8 Z7 
8 8 

59 
50 

41 
31 



22 
12 
2 
52 
42 
32 

22 

12 

I 



5 51 
5 40 
5 29 
5 19 



30.0 

23-9 

9.5 

46.8 

15-9 
36.8 

49.6 

54-2 

50.7 

39.1 
19.5 

51.9 
16.4 

32.9 

4X.5 

42.3 

35.3 
20.5 

5S.0 

27.8 

50.0 

4.6 

ZZ.7 

ZZ.3 



3.4 

48.2 

25.6 

55.7 
18.6 

34.3 
42.9 

44.4 

38.9 
26.4 

7.0 

40.8 

7.8 
28. z 

4X-7 
48.7 

49.2 

43.3 

30.9 

12. Z 

47. Z 

15.9 
38.5 
55.0 

5.5 



5.OS8 

5.X7X 
3*309 

3.447 
3.383 
3.7x9 
5.855 
3.99X 
6.186 

6.360 

6.393 
6.336 
6.658 
6.791 
6.933 
7.053 
7.X88 
7.3XX 
7.439 
7.567 
7.693 
7.8x9 

7.944 
8.069 



8.19a 
8.3x3 
8. 457 
8.558 
8.678 

8.797 
8.9x6 

9*033 
9.X30 
9.366 
9.380 

9.493 
9.606 

9.7x7 
9.838 

9.937 
XO.Q43 

XO.X53 

xo.a6o 

X0.365 

to. 468 

XO.573 

Z0.674 

10.775 

X0.874 



vni. 



OCTOBER, 1899. 



171 













GREENWICH 


MEAN TIME. 


















THE MOON'S RIGHT ASCENSION AND DECLINATION 


• 






Hour. 




Richt 


Diff. for 


Declination. 


Diflf. for 


Hour. 




Right 


Diff, for 


Declination. 


DHL for 


1 

1 


Ascension. 


I Minate. 








X Minute. 




AscansioxL. 


X Minate. 








X Minute. 








I 


J-RIDA^ 


' 13. 












SUNDAY 15. 










h 


m 


• 


• 


• 


> 


* 


H 




h 


m • 


• 


• 


9 


* 


• 


O 


20 


30 


44.22 


«.3447 


S.15 


19 


5-5 


xo.«74 





22 


20 51.41 


3.2563 


S. 5 


6 


16.5 


14.137 


I 


20 


33 


4.83 


«.34M 


15 


8 


10. 1 


xo.97a 


I 


22 


23 6.76 


3.3554 


4 


52 


7.3 


X4.X70 


2 


20 


35 


25.29 


«.3398 


14 


57 


8.8 


XX.070 


2 


22 


25 22.06 


•.3547 


4 


37 


56.1 


14. 903 


3 


20 


37 


45.61 


a. 3375 


14 


46 


1-7 


IX.X66 


3 


22 


27 37.32 


•.3539 


4 23 


43.0 


X4.3S3 


4 


20 


40 


5.79 


a. 3351 


X4 


34 


48.9 


ii.a6x 


4 


22 


29 52.53 


a.353x 


4 


9 


28.2 


X4.a6o 


5 


20 


42 


25.82 


a. 33*7 


H 


23 


30.4 


XX.355 


5 


22 


32 7.69 


a. 2534 


3 


55 


II. 8 


X4-3B7 


6 


20 


44 


45-71 


a.33oa 


14 


12 


6.3 


XX.447 


6 


22 


34 22.82 


••35X9 


3 


40 


53.7 


X4-3X4 


7 


20 


47 


5-45 


a. 3379 


14 





36.7 


XI.S39 


7 


22 


36 37.92 


3.35x3 


3 


26 


34-1 


X4.338 


8 


20 


49 


25.06 


a.3as6 


13 


49 


1.6 


XX. 629 


8 


22 


38 52.98 


t.3507 


3 


12 


13- 1 


X4.S60 


9 


20 


51 


44-52 


a. 3333 


13 


37 


21.2 


XX.7I7 


9 


22 


41 8.01 


a. 350a 


2 


57 


50.9 


X4.38X 


lO 


20 


54 


3.84 


a.3ao8 


13 


25 


35.5 


XX.806 


10 


22 


43 23.01 


3.3498 


2 


43 


27.4 


X4.40X 


II 


20 


56 


23.02 


a. 3x85 


13 


13 


44.5 


XX. 893 


II 


22 


45 37.99 


3.3495 


2 


29 


2.8 


14.4x8 


12 


20 


58 


42.06 


a.3z6a 


13 


I 


48.4 


XX.977 


12 


22 


47 52.95 


•.349a 


2 


14 37.2 


X4.434 


13 


21 


I 


0.97 


a. 3x40 


12 


49 


47.2 


xa.o6x 


13 


22 


50 7.89 


3.3489 


a 





10.7 


X4-449 


14 


21 


3 


19.74 


a.3xx7 


12 


37 


41. 1 


X2.X43 


14 


22 


52 22.82 


a. 3487 


I 


45 


43.3 


X4.463 


15 


21 


5 


38.38 


a. 3096 


12 


25 


30.0 


xa.a25 


15 


22 


54 37.73 


a. 2485 


z 


31 


15.1 


X4.475 


i6 


21 


7 


56.89 


a. 3074 


12 


13 


14. 1 


13. 305 


16 


22 


56 52.64 


3.3485 


z 


16 


46.3 


X4.484 


17 


21 


10 


15-27 


3.305a 


12 





53.4 


X3,384 


17 


22 


59 7.55 


3.3484 


I 


2 


17.0 


X4.493 


i8 


21 


12 


33.52 


a.303x 


II 


48 


28.0 


X2.462 


18 


23 


I 22.45 


3.3483 





47 47-2 


X4.499 


19 


21 


14 


51.64 


a. 3010 


II 


35 


58.0 


xa.537 


19 


23 


3 37.35 


a. 3484 





33 


17. 1 


14.504 


20 


21 


17 


9.64 


3.3989 


II 


23 


23.5 


X2.6I2 


20 


23 


5 52.26 


3.3485 





18 


46.7 


14.508 


21 


21 


19 


27.51 


a. 3968 


II 


10 


44.6 


Xa.685 


21 


23 


8 7.17 


3.3486 


S. 


4 


16.1 


X4.511 


22 


21 


21 


45.26 


3.3948 


10 


58 


1.3 


X2.757 


22 


23 


10 22.09 


3.3488 


N. 


TO 


14.6 


X4.5X2 


23 


21 


24 


2.89 
SA 


3.3928 
TURD^ 


S.io 
kY 14 


45 

>• 


13.7 


X2.828 


23 


23 


12 37.03 
M 


3.2491 
ONDA1 


N. 
{ 16. 


24 


45.3 


14.510 





21 


26 


20.40 


2.2909 


S.IO 


32 


21.9 


xa.897 





23 


14 51.98 


3.2493 


N. 


39 


15.8 


X4.507 


I 


21 


28 


37.80 


2.2890 


10 


19 


26.0 


X2.966 


I 


23 


17 6.95 


3.3497 





53 


46.1 


14.503 


2 


21 


30 


55.08 


a. 287Z 


10 


6 


26.0 


X3.033 


2 


23 


19 21.95 


3.2502 


z 


8 


16. 1 


X4.497 


3 


21 


33 


12.25 


a. 2832 


9 


53 


22.1 


X3.097 


3 


23 


21 36.97 


3.3506 


z 


22 


45.8 


X4.490 


4 


21 


35 


29.31 


a. 2835 


9 


40 


14.3 


X3.x6x 


4 


23 


23 52.02 


3.a5xx 


I 


37 


14.9 


X4.480 


5 


21 


37 


46.27 


2.28x7 


9 


27 


2.8 


13.323 


5 


23 


26 7. 10 


a.a5i6 


I 


51 


43.4 


X4.469 


6 


21 


40 


3.12 


a. 2800 


9 


13 


47.5 


13.385 


6 


23 


28 22.21 


3.a5a3 


2 


6 


II. 2 


14.457 


7 


21 


42 


19.87 


a. 2783 


9 





28.6 


X3.345 


7 


23 


30 37.37 


3.2529- 


2 


20 


38.3 


X4.444 


8 


21 


44 


36.52 


a. 2767 


8 


47 


6.1 


X3.403 


8 


23 


32 52.56 


3.2535 


2 


35 


4.5 


X4.438 


9 


21 


46 


53.07 


2. 2750 


8 


33 


40.2 


13.460 


9 


23 


35 7.79 


3.3543 


2 


49 


29.7 


X4.41X 


lO 


21 


49 


9-52 


3.2735 


8 


20 


10.9 


13.515 


10 


23 


37 23.07 


3.2552 


3 


3 


53-8 


X4.392 


II 


21 


51 


25.89 


2.2720 


8 


6 


38.4 


X3.568 


II 


23 


39 38.41 


a. 2560 


3 


18 


16.8 


X4.373 


12 


21 


53 


42.16 


3.3705 


7 


53 


2.7 


X3.62X 


12 


23 


41 53-79 


3.2568 


3 


32 


38.5 


X4.35X 


13 


21 


55 


58.35 


a. 2691 


7 


39 


23.9 


X3.672 


13 


23 


44 9-23 


3.2577 


3 


46 58.9 


X4.337 


14 


21 


58 


14-45 


a. 2677 


7 


25 


42.0 


X3.732 


14 


23 


46 24.72 


3.2587 


4 


I 


17.8 


X4.302 


15 


22 





30.47 


2.2663 


7 


II 


57.2 


X3.77X 


15 


23 


48 40.27 


3.3597 


4 


15 


35.2 


X4.276 


i6 


22 


2 


46.41 


2.26:0 


6 


58 


9.5 


X3.817 


16 


23 


50 55.89 


2.2608 


4 


29 


50.9 


X4.347 


17 


22 


5 


2.27 


2.2637 


6 


44 


19. 1 


13.862 


17 


23 


53 11.57 


3.36x9 


4 


44 


4.9 


14.317 


i8 


22 


7 


18.06 


2.2626 


6 


30 


26.0 


X3.906 


18 


23 


55 27.32 


3.a63X 


4 


58 


17.0 


X4.186 


19 


22 


9 


33.78 


2.26x4 


6 


16 


30.4 


X3.948 


19 


23 


57 43.14 


3.3643 


5 


12 


27.2 


X4.153 


20 


22 


II 


49-43 


2.2603 


6 


2 


32.2 


X3.989 


20 


23 


59 59.03 


3.3655 


5 


26 


35.4 


X4.119 


21 


22 


14 


5.02 


2.2:92 


5 


48 


31.7 


14.028 


21 





2 15.00 


a. 3667 


5 


40 


41.5 


X4.082 


22 


22 


16 


20.54 


a. 2582 


5 


34 


28.8 


14.067 


22 





4 31.04 


3.2681 


5 


54 


45.3 


14.044 ] 


1 23 


22 


18 


36.00 


2.2572 


5 


20 


23.7 


X4.103 


23 





6 47.17 


3.3694 


6 


8 


46.8 


X4.006 ! 


24 

1 


22 


20 


51.41 


a. 2563 


S. 5 


6 


16.5 


X4.X37 


24 





9 3-37 


3.3707 


N. 6 


22 


46.0 


13.965 



172 



OCTOBER, 1899. 



IX. 











GREENWICH 


MEAN 


TIME. 










THE MOON'S RIGHT ASCENSION AND DECLINATION. 


Hour. 


Right 


Diff. for 


DecIioatioiL 


DifCfor 


Hoar. 




Right 


Diff. for 


Do^fiaflMi. 


Diff. for 




Ascensioa 


I Minute. 




X Minote. 






X Minute. 






iMixrata. 






Tl 


JESDA 


y 17. 










THURSDAY 19. 






h m 


• 


t 


* • 


• 




h 


m 


• 


■ 


• 


m 


• 


O 


O 9 


3-37 


a. 2707 


N. 6 22 46.0 


X3*96S 





2 





9.45 


a. 36*8 


N.I6 


17 22.3 


W.873 


I 


O II 


19.66 


a. 373a 


6 36 42.6 


X3.9aa 


I 


2 


2 


31.28 


a. 3647 


16 


27 35-4 


XO.X64 


2 


o 13 


36.04 


a. 8737 


6 50 36.6 


X3.878 


2 


2 


4 


53-22 


2.3667 


16 


37 42.0 


10.054 


3 


15 


52.51 


3.27sa 


7 4 28.0 


13.833 


3 


a 


7 


15.28 


a. 3686 


16 


47 41.9 


9.943 


4 


i8 


9.07 


a. 2767 


7 18 16.6 


13.786 


4 


2 


9 


37.45 


a. 3704 


16 


57 35-1 


9.831 


5 


20 


25-72 


2.3783 


7 32 2.3 


X3.737 


5 


2 


II 


59.73 


a. 37*3 


^7 


7 21.6 


9.718 


6 


O 22 


42.47 


3.3800 


7 45 45.0 


X3.6B7 


6 


2 


14 


22.12 


2.3740 


17 


17 1.3 


9.604 


7 


o 24 


59-32 


2.2816 


7 59 24.7 


13.635 


7 


2 


16 


44.61 


3.3757 


17 


26 34.1 


9.489 


8 


27 


16.26 


2.2833 


8 13 1.2 


13.58X 


8 


2 


19 


7.21 


3.3775 


17 36 0.0 


9.S73 


9 


29 


33-30 


a. 3849 


8 26 34.4 


13.5«6 


9 


2 


21 


29.91 


3.3793 


^7 


45 18.9 


9.356 


zo 


31 


50-45 


2.28^ 


8 40 4.3 


15.470 


10 


2 


23 


52.71 


•.3808 


17 


54 30.7 


9- 138 


II 


34 


7.70 


2.2884 


8 53 30.8 


13.4x2 


II 


2 


26 


15.61 


3.3834 


18 


3 35.4 


9.0x9 


12 


36 


25.06 


2.3902 


9 6.53.7 


13.353 


12 


2 


28 


38.60 


a. 3840 


18 


12 33.0 


8.900 


13 


38 


42.53 


2.2920 


9 20 13.1 


13.392 


13 


2 


31 


1.69 


a. 3836 


18 


21 23.4 


8.779 


14 


41 


O.IO 


2.2938 


9 33 28.7 


X3.3a8 


14 


2 


33 


24-87 


3.3871 


18 


30 6.5 


8.657 


15 


43 


17.79 


a. 3957 


9 46 40.5 


15.164 


15 


2 


35 


48.14 


3.3885 


18 


38 42.3 


8*935 


i6 


45 


35.59 


a. 2977 


9 59 48.4 


13.099 


16 


a 


38 


11.49 


3.3899 


18 


47 10.7 


•.413 


17 


47 


53.51 


2.2996 


10 12 52.4 


13.03a 


17 


2 


40 


34-93 


3.3913 


18 


55 31.7 


8.888 


i8 


50 


11.54 


a. 3015 


10 25 52.3 


13.963 


18 


2 


42 


58.44 


a. 3925 


19 


3 45.3 


8.164 


19 


52 


29.69 


«.3034 


10 38 48.0 


13.893 


19 


2 


45 


22.03 


8.3938 


19 


II 51.4 


•.038 


20 


54 


47.95 


2.3053 


10 51 39.5 


X3.8aa 


20 


2 


47 


45.70 


a. 3951 


19 


19 49.9 


7.912 


21 


57 


6.33 


3.3074 


II 4 26.7 


13.750 


21 


2 


50 


9.44 


3.396a 


19 


27 40.8 


7.785 


22 


59 


24.84 


a. 3094 


II 17 9-5 


X3.676 


22 


2 


52 


33.25 


3.3973 


19 


35 24.1 


7*657 


33 


I I 


43-46 


3.3x13 


N.ii 29 47.8 


xa.6oo 


23 


2 


54 


57.12 


•.3983 


N-I9 4a 59-7 1 


7«989 






WE 


DNESD 


►AY 18. 










F 


RIDAY 


' 20. 






O 


I 4 


2.20 


3.3x34 


N.II 42 21.5 


xa.5aa 





a 


57 


21.05 


3.3993 


N.I9 


50 27.6 


7.400 


I 


I 6 


21.07 


3.3x55 


II 54 50.5 


13.444 


I 


2 


59 


45-04 


a. 4003 


19 


57 47.7 


7.871 


2 


I 8 


40.06 


3.3x76 


12 7 14.8 


13.364 


2 


3 


2 


9.09 


a«40xa 


20 


5 0.1 


7.141 


3 


I 10 


59.18 


«.3I97 


12 19 34.2 


X3.382 


3 


5 


4 


33.19 


3.4020 


20 


12 4.6 


7.0IO 


4 


X 13 


18.42 


3.3217 


12 31 48.7 


13.199 


4 


3 


6 


57.33 


3.4037 


20 


19 1.3 


6.879 


5 


I 15 


37.79 


3.3338 


12 43 58.1 


X3.XXS 


5 


3 


9 


21.52 


3.4035 


20 


25 50.1 


«.747 


6 


I 17 


57.28 


3.3358 


12 56 2.5 


X2.03O 


6 


3 


II 


45-75 


3.4041 


20 


32 31.0 


0.6x3 


7 


I 20 


16.89 


3.3379 


13 8 1.7 


11.943 


7 


3 


14 


10.01 


2.4047 


20 


39 3.9 


0.48a 


8 


I 22 


36.63 


3.330X 


13 19 55.7 


XX.855 


8 


3 


16 


34-31 


a. 4052 


20 


45 28.8 


•.348 


9 


1 24 


56.50 


3.33aa 


13 31 44.3 


XX. 766 


9 


3 


18 


58.64 


3.4057 


20 


51 45.7 


Caxs 


lO 


I 27 


16.50 


a. 3343 


13 43 27.6 


XX.675 


10 


3 


21 


23.00 


fl.406x 


20 


57 54-6 


«.o8x 


II 


X 29 


36.62 


a. 3363 


13 55 5.3 


XX.583 


II 


3 


23 


47.37 


3.4063 


21 


3 55.4 


S.947 


12 


X 31 


56.86 


a. 3384 


14 6 37.5 


XX.489 


12 


3 


26 


11.75 


3.4065 


21 


9 48.2 


5.8x8 


13 


I 34 


17.23 


2.3406 


14 18 4.0 


XX. 394 


13 


3 


28 


36.15 


3.4067 


21 


15 32.9 


5.677 


14 


I 36 


37-73 


3.3427 


14 29 24.8 


XI. 399 


14 


3 


31 


0.56 


t.4068 


ai 


21 9.4 


5.541 


' 15 


I 38 58.35 


a. 3447 


14 40 39.9 


XX. 302 


15 


3 


33 


24.97 


8.4069 


ai 


26 37.8 


5.405 


i6 


I 41 


19.10 


3.3468 


14 51 49.0 


XX. X03 


16 


3 


35 


49-39 


8.4069 


21 


31 58.0 


S.«68 


I? 


I 43 


39.97 


a. 3488 


15 2 52.2 


XX. 003 


17 


3 


38 


13.80 


a. 4067 


21 


37 lo.o 


S.132 


i8 


I 46 


0.96 


2.3508 


15 13 49.4 


10.903 


18 


3 


40 


38,20 


a. 4065 


21 


42 13.8 


4*996 


19 


I 48 


22.07 


3.3529 


15 24 40.5 


X0.800 


19 


3 


43 


2.58 


8.406a 


21 


47 9-5 


4.859 


20 


I 50 43-31 


a. 3550 


15 35 25.4 


10.697 


20 


3 


45 


26.95 


3.4059 


21 


51 56.9 


4-783 


21 


I 53 


4.67 


a. 3569 


15 46 4.1 


10.593 


21 


3 


47 


51.29 


3.4055 


21 


56 36.1 


4.58s 


22 


I 55 


26.14 


2.3589 


15 56 36.5 


X0.488 


22 


3 


50 


15-61 


8.4051 


22 


I 7.1 


4.447 


23 


I 57 


47.74 


a. 3609 


16 7 2.6 


10.382 


33 


3 


52 


39.90 


3.4045 


22 


5 29.8 


4.309 


24 

1 


2 


9.45 


3.3638 


N.16 17 22.3 


10.873 


a4 


3 


55 


4.15 


8.4038 


N.22 


9 44. a 


4-178 



X 



OCTOBER, 1899. 



173 









GREENWICH 


MEAN 


TIME. 












THE MOON'S RIGHT ASCENSION AND DECLINATION. 


Honr. 


Right 


Di«P. for 


Declination. 


Diftfor 


Hour. 




RlKbt 


Diff.for 


Declination. 


Diff.for 




Ascension. 


z Minute. 








z Minute. 




Ascension. 


1 Minute. 








1 Minute. 




SA 


iTURDi 


kY 21. 










MONDAY 23. 










b m s 


s 


• 


t 


• 


f 




b 


m s 


s 


• 


* 


• 


M 





3 55 4.15 


1.4038 


N.22 


9 


44.2 


4.17a 





5 


48 17-76 


3. 2874 


N.22 


54 


9.1 


8.178 


X 


3 57 28-36 


a. 403a 


22 


13 


50.4 


4.034 


X 


5 


50 34.89 


3.2835 


22 


51 


54.8 


3.398 


2 


3 59 52-53 


a.4oa4 


22 


17 


48.3 


3.896 


2 


5 


52 51.78 


3.3795 


22 


49 


33.3 


3.4X7 


3 


4 2 16.65 


a.4015 


22 


21 


37-9 


S.757 


3 


5 


55 8.43 


a. 3754 


22 


47 


4.7 


3.536 


4 


4 4 40-71 


a.4005 


22 


25 


19.2 


3.6ao 


4 


5 


57 24.83 


3.3713 


22 


44 


29.0 


3.653 


5 


4 7 4.71 


a. 3996 


22 


28 


52.3 


3.48a 


5 


5 


59 40.99 


3.3673 


22 


41 


46.3 


3.771 


6 


4 9 28.66 


a- 3985 


22 


32 


17. 1 


3.344 


6 


6 


1 56.91 


3.3633 


22 


38 56.5 


3.887 


7 


4 " 52.53 


a. 3973 


22 


35 


33.6 


3.ao7 


7 


6 


4 12.57 


3.3389 


22 


35 


59.8 


3.003 


8 


4 14 16.33 


3.3960 


22 


38 


41.9 


3.069 


8 


6 


6 27.98 


3.2547 


22 


32 


56.1 


3.XZ8 


9 


4 16 40.05 


a. 3947 


22 


41 


41.9 


3.93X 


9 


6 


8 43.14 


a. 2505 


22 


29 


45.6 


3.333 


10 


4 19 3.69 


a. 393a 


22 


44 


33.6 


a. 793 


10 


6 


10 58.04 


3.3463 


22 


26 


28.3 


3. 345 


II 


4 21 27.24 


a. 3917 


22 


47 


17.0 


a. 655 


II 


6 


13 12.68 


3.2418 


22 


23 


4.2 


3.457 


12 


4 23 50.70 


a. 390a 


22 


49 


52.2 


3.5x8 


12 


6 


15 27.06 


a. 3375 


22 


19 


33.4 


3.569 


13 


4 26 14.07 


a. 3886 


22 


52 


19.2 


3.383 


13 


6 


17 41.18 


2.3333 


22 


15 


55.9 


3.681 


14 


4 28 37.33 


a. 3868 


22 


54 


38.0 


3.344 


14 


6 


19 55.04 


3.3387 


22 


12 


11.7 


3.791 


15 


4 31 0-49 


8.3851 


22 


56 48.5 


3. 107 


15 


6 


22 8.63 


3.3343 


22 


8 


21.0 


3.900 


i6 


4 33 23.54 


a. 3833 


22 


58 


50.8 


X.97X 


16 


6 


24 2T.96 


3.3X99 


22 


4 


23-7 


4.009 


17 


4 35 4648 


a.3813 


23 





45.0 


X.835 


17 


6 


26 35.02 


3.3X55 


22 





19.9 


4.X17 


i8 


4 38 9-30 


a.379a 


23 


2 


31.0 


X.699 


18 


6 


28 47.82 


3.3X10 


21 


56 


9.6 


4.334 


19 


4 40 31-99 


a. 377a 


23 


4 


8.9 


X.563 


19 


6 


31 0.34 


a. 3064 


21 


51 


53.0 


4.330 


20 


4 42 54-56 


a. 3750 


23 


5 


38.6 


x.4a7 


20 


6 


33 X2.59 


3.3019 


21 


47 


30.0 


4.436 


21 


4 45 16.99 


3.37a7 


23 


7 


0.2 


1.39a 


21 


6 


35 24.57 


a.X974 


21 


43 


0.7 


4.540 


22 


4 47 39.29 


a.37<H 


23 


8 


13.7 


X.X57 


22 


6 


37 36.28 


3.1938 


21 


38 


25.2 


4.643 


23 


4 50 X.44 
S 


a. 3680 
UNDAl 


N.23 
' 22. 


9 


19. 1 


1.023 


23 


6 


39 47.71 
Tl 


3.X8S3 

JESDA^ 


N.2I 

sr 24. 


33 


43-5 


4-746 


O 


4 53 23.45 


a.3656 


N.23 


10 


16.4 


0.B88 





6 


41 58.87 


2.1837 


N.21 


28 


55.7 


4.848 


I 


4 54 45.31 


a.3^x 


23 


II 


5.7 


0.755 


I 


6 


44 9.75 


3.179X 


21 


24 


1.7 


4.950 


2 


4 57 7.02 


a. 3605 


23 


II 


47.0 


o.6aa 


2 


6 


46 20.36 


3.X745 


21 


19 


1.7 


5.050 


3 


4 59 28.57 


a. 3578 


23 


12 


20.3 


0.489 


3 


6 


48 30.69 


3. 1698 


21 


13 


55.7 


5.X50 


4 


5 I 49.96 


a. 3551 


23 


12 


45.7 


0.357 


4 


6 


50 40.74 


8.1653 


21 


8 


43.7 


5.349 


5 


5 4 II. 18 


a. 3523 


23 


13 


3.1 


0.334 


5 


6 


52 50.52, 


3.X607 


21 


3 


25.8 


5.347 


6 


5 6 32.23 


a. 3493 


23 


13 


12.6 


+ 0.093 


6 


6 


55 0.02 


3.x5te 


20 


58 


2.1 


5.443 


7 


5 8 53-10 


a.3464 


23 


13 


14.3 


— 0.037 


7 


6 


57 9.24 


a. 15x3 


20 


52 


32.6 


5.540 


8 


5 II 13.80 


a. 34 33 


23 


13 


8.1 


0.X68 


8 


6 


59 18.18 


3.X467 


20 


46 


57.3 


5.636 


9 


5 13 34-32 


a. 3404 


23 


12 


54.1 


0.398 


9 


7 


I 26.85 


3.1433 


20 


41 


16.3 


5.730 


10 


5 15 54.65 


a. 337a 


23 


12 


32.3 


o.4a7 


10 


7 


3 35.24 


a. 1375 


20 


35 


29.7 


5.834 


II 


5 18 14.79 


a. 3341 


23 


12 


2.8 


0.557 


XI 


7 


5 43.35 


3.1338 


20 


29 


37.4 


5.9x7 


12 


5 20 34.74 


a. 3308 


23 


II 


25.5 


0.686 


12 


7 


7 51.18 


•.ia8a 


20 


23 


39.6 


6.009 


13 


5 22 54.49 


a. 3275 


23 


10 


40.5 


0.81S 


13 


7 


9 58.73 


•.X336 


20 


17 


36.3 


6.100 


14 


5 25 14-04 


a.sa4a 


23 


9 


47-9 


0.940 


14 


7 


12 6.01 


a. 1190 


20 


II 


27.6 


6.191 


15 


5 27 33.39 


a.sao7 


23 


8 


47.7 


1.067 


15 


7 


14 I3.0X 


t.ix44 


20 


5 


13.4 


6.281 


i6 


5 29 52.53 


a. 317a 


23 


7 


39.9 


1.193 


x6 


7 


16 19.74 


8.1098 


19 


58 


53.9 


6,369 


17 


5 32 11.45 


•.3136 


23 


6 


24.6 


1.318 


X7 


7 


18 26.19 


8.XOS8 


X9 


52 


29.1 


6.457 


i8 


5 34 30.16 


a.sioz 


23 


5 


1.7 


1.443 


18 


7 


20 32.36 


8.1006 


19 


45 


59-1 


6.544 


19 


5 36 48.66 


a- 3065 


23 


3 


31-4 


1.567 


19 


7 


22 38.26 


8.0960 


19 


39 


23.8 


6.63X 


20 


5 39 6.94 


8.3037 


23 


I 


53.6 


1.691 


20 


7 


24 43.88 


3.091s 


19 


32 


43-4 


6.716 


21 


5 41 24.99 


8.3989 


23 





8.5 


1.813 


21 


7 


26 49.24 


8.0870 


19 


25 


57.9 


6.80X 


22 


5 43 42.81 


3.3951 


22 


58 


16.0 


1.996 


22 


7 


28 54.32 


3.0834 


19 


19 


7.3 


6.88s 


^3 


5 46 0.40 


3.39x3 


22 


56 


16.2 


a.057 


23 


7 


30 59-13 


8.0779 


19 


12 


11.7 


6.967 


^ 


5 48 17-76 


flua474 


N.22 


54 


9.1 


••178 


24 


7 


33 3.67 


•.0734 


N.19 


5 


IX.2 


7.049 



J 



174 



OCTOBER, 1899. 



XI. 









GREENWICH 


MEAN 


TIMK 












THE MOON'S RIGHT 


ASCENSION AND DECLINATION. 






Honr. 


Right 


Diff. for 


Declination. 


Diff. for 


Hour. 




Right 


Diff. for 


DecIinatioiL 


Diff for 


A*^' >••• 


AscensioxL 


I Minute. 




X Minnie. 




Ascension. 


X Minnte. 






X Minnte. 




WE 


DNESE 


>AY 25. 








FRIDAY 


27. 








h m • 


t 


m 


• 




h 


m • 


s 


• 


m 


m 


o 


7 33 3-67 


a.0734 


N.19 5 11.2 


7.049 





9 


7 57.91 


x.8955 


N.I2 6 


51.2 


xo.ioo 


I 


7 35 7-94 


a. 0690 


18 58 5.8 


7.X3X 


I 


9 


9 51.56 


X.8929 


II 56 


43.8 


XO.X46 1 


2 


7 37 11-95 


a. 0646 


18 50 55-5 


7.2X2 


2 


9 


II 45.06 


X.8903 


II 46 


33.7 


xo. X9Z 


3 


7 39 15.69 


a.o6oz 


18 43 40.4 


7.a9a 


3 


9 


13 38.40 


X.8877 


II 36 


20.9 


10.336 


4 


7 41 19.16 


a.0557 


18 36 20.5 


7.371 


4 


9 


15 31.59 


X.8853 


II 26 


5.4 


X0.281 


5 


7 43 22.37 


a.05is 


18 28 55.9 


7.448 


5 


9 


17 24.63 


X.8828 


" 15 


47.2 


10.325 


6 


7 45 25.33 


a. 0469 


18 21 26.7 


7.5*6 


6 


9 


19 17.53 


X.8804 


II 5 


26.4 


10.368 


7 


7 47 28.00 


a. 042s 


18 13 52.8 


7.602 


7 


9 


21 10.28 


1.8780 


10 55 


3-0 


10.411 


8 


7 49 30-42 


a. 0382 


18 6 14.4 


7.677 


8 


9 


23 2.89 


1.8757 


10 44 


37.1 


10.452 


9 


7 51 32.59 


a.Q340 


17 58 31.5 


7.75a 


9 


9 


24 55.37 


X.8736 


10 34 


8.8 


XO.493 


lO 


7 53 34.50 


a. 0097 


17 50 44.1 


7.827 


10 


9 


26 47.72 


1.8714 


10 23 


38.0 


10.534 


II 


7 55 36.16 


2.0255 


17 42 52.2 


7.901 


II 


9 


28 39.94 


1.8693 


10 13 


4.7 


10.574 


IS 


7 57 37.56 


2.02x2 


17 34 56.0 


7.973 


12 


9 


30 32.03 


X.&673 


10 2 


29.1 


X0.613 


13 


7 59 38.71 


2.017Z 


17 26 55.4 


8.045 


13 


9 


32 24.00 


X.865X 


9 51 


51.2 


xo.65a 


14 


8 I 39.61 


a. 0x30 


17 i8 50.6 


8.1x6 


H 


9 


34 15.84 


I. 8631 


9 41 


10.9 


10. 690 


15 


8 3 40.27 


a. 0089 


17 10 41.5 


8.X87 


15 


9 


36 7. 57 


X.8613 


9 30 


28.4 


XO.737 


16 


8 5 40.68 


a.oa47 


17 2 28.2 


8.257 


16 


9 


37 59.19 


X.8594 


9 19 


43.6 


X0.764 


17 


8 7 40.84 


a. 0007 


16 54 10.7 


8.385 


17 


9 


39 50.70 


X.8576 


9 8 


56.7 


X0.800 


18 


8 9 40.77 


1.9967 


16 45 49.2 


8.39a 


18 


9 


41 42.10 


X.8358 


8 58 


7.6 


X0.836 


19 


8 II 40.45 


1.9987 


16 37 23.6 


8.460 


19 


9 


43 33.40 


X.854X 


8 47 


16.4 


X0.87X 


20 


8 13 39.90 


Z.9889 


16 28 54.0 


«.5«7 


20 


9 


45 24.59 


X.8524 


8 36 


23.1 


X0.905 


21 


8 15 39.12 


X.9850 


16 20 20.4 


8.59a 


21 


9 


47 15.69 


X.8509 


8 25 


27.8 


X0.939 


22 


8 17 38.10 


Z.98XI 


16 II 42.9 


8.657 


22 


9 


49 6.70 


X.8494 


8 14 


30.4 


xo.97a 


23 


8 19 36.85 
TK 


z.977a 

[URSDi 


N.16 3 1.5 
^Y 26. 


8.732 


33 


9 


50 57.62 
SA 


X.8479 

TURDA 


N. 8 3 
lY 28. 


31.1 


XX.Q05 





8 21 35-37 


X.9735 


N.15 54 16.3 


8.783 





9 


52 48.45 


X.8465 


N. 7 52 


29.8 


XX.P37 


X 


8 23 33.67 


1.9697 


15 45 27.3 


8.848 


I 


9 


54 39.20 


X.8453 


7 41 


26.6 


XX.068 


2 


8 25 31-74 


1.9660 


15 36 34.5 


8.911 


2 


9 


56 29.87 


X.8438 


7 30 


21.6 


XX.098 


3 


8 27 29.59 


1.9623 


15 27 38.0 


8.972 


3 


9 


58 20.46 


1.8436 


7 19 


14.8 


xx.xa9 


4 


8 29 27.22 


X.9587 


15 18 37.9 


9.03a 


4 


10 


10.98 


X.84X4 


7 8 


6.1 


XX. 159 


5 


8 31 24.63 


X.9553 


15 9 34-1 


9.093 


5 


10 


2 1.43 


X.8403 


6 56 


55.7 


XX. 187 


6 


8 33 21.84 


1.95x7 


15 26.8 


9.x5a 


6 


10 


3 51.81 


X.8393 


6 45 


43.6 


XI. 216 


7 


8 35 18.83 


X.948X 


14 51 15.9 


9.210 


7 


10 


5 42.13 


X.8383 


6 34 


29.8 


XX.243 


8 


8 37 15.61 


X.9446 


14 42 1.6 


9.267 


8 


10 


7 32.39 


x.837a 


6 23 


14.4 


XX.37I 


9 


8 39 12.18 


i.94xa 


14 32 43.8 


9.335 


9 


10 


9 22.59 


X.8363 


6 II 


57.3 


11.397 


10 


8 41 8.55 


X.9378 


14 23 22.6 


9.383 


10 


10 


II 12.74 


X.8354 


6 


38.7 


XX. 333 


II 


8 43 4-72 


X.934S 


14 13 58.0 


9.437 


II 


10 


13 2.84 


X.8347 


5 49 


18.5 


XX, 349 


12 


8 45 0.69 


x.93ia 


14 4 30.1 


9.493 


12 


10 


14 52.90 


X.8339 


5 37 


56.8 


XX. 373 


13 


8 46 56.47 


x.9a8o 


13 54 58.9 


9.547 


13 


10 


16 42.91 


1.8333 


5 26 


33.7 


XX.397 


14 


8 48 52.05 


1.9348 


13 45 24.5 


9.600 


14 


10 


18 32.89 


X.8337 


5 15 


9.2 


XX. 421 


15 


8 50 47-44 


X.92X7 


13 35 46.9 


9.653 


15 


10 


20 22.83 


X.832X 


5 3 


43.3 


XI.444 


16 


8 52 42.65 


1.9x86 


13 26 6.1 


9.705 


16 


10 


22 12.74 


X.83X6 


4 52 


15.9 


XX.466 


17 


8 54 37-67 


I. 9155 


13 16 22.3 


9.757 


17 


10 


24 2.62 


x.83xa 


4 40 


47.3 


XX.487 


18 


8 56 32.51 


i.9xa5 


13 6 35.3 


9.808 


18 


10 


25 52.48 


X.8308 


4 29 


17.4 


XI.308 


19 


8 58 27.17 


Z.9096 


13 56 45.3 


9.858 


19 


10 


27 42.32 , 


X.83QS 


4 17 


46.3 


xx.5a9 I 


1 20 


9 21.66 


X.9067 


12 46 52.3 


9.908 


20 


10 


29 3?.i4- 


X.8303 


4 6 


13.9 


XX.549 


i 21 


9 2 15-97 


X.9038 


12 36 56.3 


9.957 


21 


10 


31 21.95 


X.8301 


3 54 40.4 


xx.568 


1 22 


9 4 10.12 


X.90X1 


12 26 57.5 


XO.004 


22 


10 


33 11.75 


X.8299 


3 43 


5.7 


XI.587 


23 


9 6 4.10 


X.8982 


12 16 55.8 


10.053 


23 


10 


35 1.54 


X.8297 


3 31 


29.9 


XX.60S 


24 


9 7 57.91 


X.8955 


N.I2 6 51.2 


xo.xoo 


34 


10 


36 51.32 


X.8397 


N. 3 19 


53.1 


xx.6a3 



XII. 



OCTOBER, 1899. 



175 









GREENWICH 


• 

MEAN TIME. 








THE MOON'S RIGHT ASCENSION AND DECLINATION. 


Hoar. 


RiCht 


Diff. for 


Declination. 


DIff. for 


Honr. 


Right 


Diff. for 


Declination. 


DifCfor 




Atcansion. 


I Minate. 




X Minate. 




Ascension. 


2 Minute. 




X Minnta 




s 


UNDAT^ 


' »9- 






TUESDAY 31. 






h m t 


t 


• f • 


m 




h in 8 


s 


t m 


m 





10 36 51.32 


1.8997 


N. 3 19 53.1 


XX. 632 





12 5 46.13 


2.8973 


S. 6 5 40.5 


XX.675 


I 


10 38 41.10 


1,8297 


3 8 15.3 


21.638 


I 


12 7 40.06 


1.9002 


6 17 20.5 


xx.6s8 


2 


10 40 30.89 


Z.6999 


2 56 36.5 


XX. 655 


2 


12 9 34.16 


X.903X 


6 28 59.5 


XX.64X 


3 


10 42 20.69 


Z.830I 


2 44 56.7 


ZX.67X 


3 


12 II 28.43 


X.9060 


6 40 37.4 


XX.622 


4 


10 44 10.50 


1.83P3 


2 33 16.0 


XX. 686 


4 


12 13 22.88 


X.9090 


6 52 14.2 


XX. 603 


5 


10 46 a 33 


X.8305 


2 21 34.4 


XX.700 


5 


12 15 17.51 


X.9X2X 


7 3 49.8 


XX.582 


6 


10 47 50.16 


1.8308 


2 9 52.0 


22.7x3 


6 


12 17 12.33 


1.9x52 


7 15 24.1 


XX. 562 


7 


10 49 40.02 


1.83x2 


I 58 8.8 


XX.727 


7 


12 19 7.33 


1.9x83 


7 26 57.2 


XI.540 


8 


10 51 29.90 


1.8316 


I 46 24.8 


XX.739 


8 


12 21 2.53 


X.92X6 


7 38 28.9 


XX. 5x7 


9 


10 53 19.81 


1.832a 


I 34 40.1 


XX.75X 


9 


12 22 57.92 


X.9248 


7 49 59-3 


XX.494 


10 


10 55 9-76 


1.8327 


z 22 54.7 


XX. 763 


10 


12 24 53.51 


X.928X 


8 I 28.2 


XI.469 


II 


10 56 59-74 


X.8333 


z zi 8.6 


XX. 772 


II 


12 26 49.29 


X.93X4 


8 12 55.6 


XX.444 


12 


10 58 49.76 


Z.8340 


59 22.0 


XI. 782 


12 


12 28 45.28 


X.9349 


8 24 21.5 


12.428 


13 


II 39.82 


1.8347 


47 34.8 


IX.792 


13 


12 30 41.48 


1.9383 


8 35 45.8 


12.392 


14 


II 2 29 93 


X.8356 


35 47.0 


XI. 800 


14 


12 32 37.88 


X.9418 


8 47 8.4 


12.368 


15 


II 4 20.09 


1.8364 


23 58.8 


XX. 807 


15 


12 34 34.50 


X.9434 


8 58 29.3 


22.384 


i6 


II 6 10.30 


x.837a 


Z2 10. 1 


ZX.8IS 


16 


12 36 31.33 


X.9490 


9 9 48.5 


XX.304 


17 


II 8 0.56 


Z.8382 


N. 21.0 


XI. 822 


17 


12 38 28.38 


X.9527 


9 21 5.8 


xx.a73 


i8 


II 9 50.89 


X.8393 


S. II 28.6 


ZX.828 


18 


12 40 25.66 


1.9565 


9 32 21.2 


XX.24« 


19 


zz II 41.28 


1.8404 


23 18.4 


XX. 833 


19 


12 42 23.16 


X.9602 


9 43 34.8 


XI. 2x0 


20 


" 13 31-74 


1.84x6 


35 8.5 


IX. 837 


20 


12 44 20.88 


X.9640 


9 54 46.4 


XX. 276 


21 


II 15 22.27 


1.8428 


46 58.9 


XI. 842 


21 


12 46 18.84 


X.9679 


10 5 55.9 


XX.X42 


22 


II 17 12.88 


X.844X 


58 49.5 


XI. 845 


22 


12 48 17.03 


X.9727 


10 17 3.3 


22.206 


33 


II 19 3«56 


1.8453 


S. I 10 40.3 


IX.847 


23 


12 50 15.45 


X.9757 


S.zo 28 8.6 


XX.069 




M 


ONDAl 


f 30. 






WEDNESI 


)AY, Nt 


3VEMBER z. 






z 


II 20 54.32 
II 22 45.17 


X.8467 
Z.8482 


S. I 22 31.2 
I 34 22.2 


XX. 849 
XX. 850 





12 52 14.12 


X.9797 


S.zo 39 Z1.6 


XX. 032 












2 


11 24 36.10 


X.8497 


I 46 13.2 


XX.850 












3 


II 26 27.13 


1.85x2 


z 58 4.2 


XX.850 












4 


II 28 18.25 


X.8528 


a 9 55.2 


• XX.849 












5 


II 30 9.47 


X.8546 


2 21 46.1 


XX.847 




PHASES 


OF TI 


IE MOON. 




6 
7 


II 32 0.80 
II 33 52.23 


X.8563 

z.8s8x 


2 33 36.9 
2 45 27.5 


XX.845 

XX. 842 






















8 


II 35 43-77 


X.8S99 


3 57 17.9 


XX. 838 








d 


b m 


9 


II 37 35.42 


x.86x8 


3 9 8.1 


X 1.834 


• 


New Moon 


• • • 


• Oct. 4 


7 14.0 


lO 


II 39 27.19 


X.8638 


3 20 58.0 


XX. 829 


3) 


First Quarte 


r • •. 


• • . II 1 


8 9.6 
4.7 


II 

12 


II 41 19.08 
II 43 11.09 


x.8658 
X.8679 


3 32 47.6 
3 44 36.8 


22.823 
XX.8I6 





Full Moon 


• A A 


■ • . 18 I 


V V ■ 


V V • A\J J 


13 


II 45 3-23 


X.870Z 


3 56 25.5 


XX.808 


c 


Last Quarte] 


r . . 


. • . 25 21 40.1 1 


15 


II 46 55.50 
II 48 47.91 


1.8723 
Z.8746 


4 8 13.8 
4 20 1.6 


ZX.80X 

22.792 






















i6 


II 50 40.45 


Z.8768 


4 31 48.8 


XX. 782 










d b 


17 


II 52 33.13 


X.8792 


4 43 35.4 


XX.77X 


c 


Perigee . , 


• • 


. • Oct I 


:^ 22.2 


i8 
19 


II 54 25.96 
II 56 18.93 


X.88X7 
2.8842 


4 55 21.3 

5 7 6.5 


".759 
XX.747 


c 


Apogee . . 


• 


• • • • 27 17.4 


20 
21 


iz 58 Z2.o6 
13 5.34 


X.8867 
X.8893 


5 18 51-0 
5 30 34.7 


XX.735 

22.722 






















22 


12 I 58.78 


X.8920 


5 42 17-5 


12.707 












«3 


12 3 52.38 


1.8946 


5 53 59-5 


12.692 






• 






24 


12 5 46.13 


1.8973 


S. 6 5 40.5 


22.675 













176 



OCTOBER, 1899. 



XIII. 









GREENWICH MEAN TIME. 








LUNAR DISTANCES. 




Name and Direction 


NOOXL 


P.U 
of 


Illh- 


p. L. 
of 


VIb. 


P.L 
of 


IX^ 


P.L 

of 


^ 


of Object 






Di£E. 




Diif. 




Difi. 




Diff. 






o • 




• > • 




f • 




9 f m 


1 
1 


z 


Aldebaran 


W. 


8a 33 24 


3087 


84 z 50 


3083 


85 30 20 


3078 


86 58 56 


1 

3073 




Pollux 


W. 


41 1 43 


3x80 


42 28 z6 


3x69 


43 55 a 


3XS9 


45 22 


3148 




Sun 


E. 


36 59 20 


3477 


35 38 30 


3476 


34 17 39 


3475 


32 56 47 


3473 


2 


Aldebarazi 


W. 


94 23 24 


S048 


95 52 37 


3043 


97 2Z 56 


3037 


98 51 23 


303X 




PoUux 


W. 


52 39 46 


310a 


54 7 53 


3094 


55 36 zo 


3085 


57 4 38 


3077 




Sun 


£. 


26 12 Z5 


3474 


24 5z 22 


3478 


23 30 33 


3489 


22 9 49 


3488 


6 


Sun 


W. 


19 55 53 


3358 


21 20 54 


3833 


22 46 24 


3ax2 


24 Z2 Z9 


3x93 ' 




Antares 


E. 


35 41 33 


2803 


34 7 8 


8795 


32 32 33 


a788 


30 57 50 


•783 




Saturn 


E. 


46 23 4 


a8o6 


44 48 44 


8798 


43 14 13 


3789 


41 39 31 


9782 




a Aquils 


E. 


89 58 10 


3249 


88 32 59 


3341 


87 7 38 


3334 


85 42 9 


3997 ■ 




Fomalhaut 


E. 


zz6 3 4Z 


3334 


114 40 32 


333a 


"3 16 57 


33X0 


zzz 52 57 


3990 


7 


Sun 


W. 


3z 27 zz 


3tX4 


32 55 4 


3x00 


34 23 Z4 


3087 


35 5X 39 


3074 




Saturn 


E. 


33 43 22 


a74X 


32 7 36 


«73a 


30 31 39 


9724 


28 55 31 


97x6 




a Aquilfls 


E. 


78 33 3 


S«H 


77 6 59 


3903 


75 40 53 


3901 


74 14 45 


390Z 




Fomalhaut 


E. 


Z04 47 24 


3ao3 


103 21 z8 


3187 


zoz 54 53 


3x73 


zoo 28 zz 


3x59 


8 


Sun 


W. 


43 17 29 


3016 


44 47 22 


300s 


46 Z7 29 


•993 


47 47 50 


•989 




a Aquils 


E. 


67 4 Z9 


3ai3 


65 38 25 


3az9 


64 Z2 38 


3aa« 


62 47 


3236 




Fomalhaut 


E. 


93 10 54 


310Z 


91 42 46 


309X 


90 Z4 26 


3083 


88 45 56 


3P74 




a Pegasi 


£. 


"3 9 49 


aBoi 


zzz 35 26 


«79a 


zzo 47 


«779 


Z08 25 52 


9767 


9 


Sun 


W. 


55 23 2 


9997 


56 54 46 


99x7 


58 26 43 


3906 


59 58 54 


9896 




Mars 


W. 


28 5z 23 


88a8 


30 25 Z4 


a8i7 


31 59 20 


a8o3 


33 33 42 


a793 




JUPITBR 


W. 


28 ID 58 


a6B5 


29 47 58 


■^ 


31 25 z6 


•659 


33 2 5Z 


8646 




a Aquila 


E. 


55 42 Z2 


3309 


54 z8 zz 


333a 


52 54 37 


3358 


51 31 32 


3386 




Fomalhaut 


E. 


8z 2Z 5 


3043 


79 51 45 


3038 


78 22 Z9 


3034 


76 52 49 


Sosa 




a Pegasi 


E. 


zoo 27 27 


tn^ 


98 5Z 2 


3700 


97 Z4 22 


1690 


95 37 29 


9680 


zo 


Sun 


W. 


67 43 15 


ia«a 


69 z6 49 


1 -»3X 


70 50 37 


9890 


72 24 39 


9B08 




Mars 


W. 


41 29 17 


2736 


43 5 9 


«7a8 


44 41 15 


«7X4 


46 Z7 36 


•704 




JUPITBR 


W. 


41 15 2 


ajSS 


42 54 17 


8374 


44 33 47 


95^3 


46 Z3 33 


«35» 




Fomalhaut 


E. 


69 24 5z 


305a 


67 55 18 


3036 


66 25 50 


3040 


64 56 27 


3<H7 




a Pegasi 


£. 


87 29 4Z 


*63* 


85 5Z 29 


9699 


84 X3 4 


•6x3 


82 34 27 


a604 


zz 


Sun 


W. 


80 z8 26 


2754 


81 53 54 


1743 


83 29 37 


973a 


85 5 34 


9799 




JUPITBR 


W. 


54 36 " 


8497 


56 Z7 28 


9487 


57 59 


«47« 


59 40 47 


a4tfS 




Mars 


W. 


54 23 


•649 


56 49 


9^ 


57 38 53 


■096 


59 17 12 


9616 




Antares 


W. 


30 27 Z9 


9441 


32 9 55 


un 


33 52 48 


•417 


35 35 59 


a40s 




Fomalhaut 


E. 


57 32 zo 


3x05 


56 4 7 


Sia4 


54 36 26 


3x45 


53 9 " 


3x70 




a Pegasi 


E. 


74 z8 28 


as64 


72 38 44 


«537 


70 58 50 


•33X 


69 z8 47 


aS44 




a Arietis 


£. 


ZZ7 z6 28 


9448 


"5 34 1 


•436 


ZZ3 5Z z8 


a4a6 


ZZ2 8 ao 


«4XS 


Z2 


Sun 


W. 


93 8 54 


a668 


94 46 17 


«fi37 


96 23 54 


■647 


98 z 45 


•837 




Jupiter 


W. 


68 Z3 27 


9413 


69 56 43 


940s 


7z 40 Z4 


t393 


73 23 59 


•383 




Mars 


W. 


67 32 23 


as^ 


69 Z2 9 


•sss 


70 52 9 


•343 


72 32 24 


•3Sa 




Azitares 


W. 


44 15 57 


SS50 


46 44 


«S39 


47 45 47 


tsaS 


49 31 5 


93x8 




Saturn 


W. 


32 57 2 


«3«4 


34 4X 29 


ns% 


36 26 zz 


t34S 


38 zz 8 


•333 




a Pegasi 


£. 


60 36 32 


n» 


59 X5 47 


«$X7 


57 34 57 


•$13 


55 54 4 


•$14 




a Arietis 


£. 


Z03 29 4Z 


«9QS 


zoz 45 Z3 


SSS3 


100 30 


«4S 


98 15 33 


•333 



XIV. 



OCTOBER, 1899. 



177 







GREENWICH MEAN TIME. 










1 








LUNAR DISTANCES. 














h 








P. L. 




p. u 




P.L 








P.L 


og 


Name and Direction 1 


Midnight 


of 


XV^ 


of 


XVIIIii. 


of 


XXIh 


» 


of 


Q 


of Object 




%^ 


DifiF. 




DifiF. 




Diff. 








Diff. 






O t tt 




• r m 




• r • 







f 


IV 




z 


Aldebaran 


W. 


88 27 38 


3069 


89 56 26 


3065 


91 25 19 


3060 


92 


54 


18 


3054 




Pollux 


W. 


46 49 II 


3x39 


48 16 33 


3130 


49 44 6 


3I2X 


51 


II 


50 


3x11 ' 




Sun 


E. 


31 35 53 


3473 


30 14 59 


347a 


28 54 4 


3472 


27 


33 


9 


3473 

1 


a 


Aldebaran 


W. 


100 20 57 


y»6 


loi 50 38 


30x9 


103 20 27 


3013 


104 


50 


24 


1 

3007 




Pollux 


W. 


58 33 16 


S06B 


60 2 5 


3Q59 


61 31 5 


305X 


63 





15 


3043 




Sun 


E. 


20 49 12 


3498 


19 28 46 


35x0 


18 8 33 


3525 


16 


48 


37 


3545 


6 


Sun 


W. 


25 38 37 


3175 


27 5 16 


3x58 


28 32 16 


3x42 


29 


59 


35 


3128 




Antares 


E. 


29 23 


2778 


27 48 3 


a773 


26 13 


2768 


24 


37 


50 


2764 




Saturn 


E. 


40 4 39 


a773 


38 29 36 


•765 


36 54 22 


2756 


35 


18 


57 


2749 




a Aquilae 


E. 


84 16 32 


323X 


82 50 48 


32x6 


81 24 58 


32X2 


79 


59 


3 


3208 




Fomalhaut 


E. 


no 28 34 


3270 


109 3 48 


3252 


107 38 40 


3235 


106 


13 


12 


3218 


7 


Sun 


W. 


37 20 20 


3063 


38 49 16 


305X 


40 18 26 


3039 


41 


47 


50 


3027 




Saturn 


E. 


27 19 12 


2708 


25 42 43 


2700 


24 6 3 


2692 


22 


29 


13 


2685 




a Aquilae 


E. 


72 48 37 


320X 


71 22 29 


3903 


69 56 23 


3204 


68 


30 


19 


3208 




Fomalhaut 


E. 


99 I 13 


3146 


97 33 59 


3x34 


96 6 31 


3x23 


94 


38 


49 


31x2 

1 


8 


Sun 


W. 


49 18 25 


0971 


50 49 14 


296X 


52 20 16 


2950 


53 


51 


32 


2939 




a Aquilae 


E. 


61 21 33 


3246 


59 56 18 


3259 


58 31 18 


3273 


57 


6 


35 


3290 




Fomalhaut 


E. 


87 17 15 


3067 


85 48 25 


3060 


84 19 26 


3053 


82 


50 


19 


3047 




a Pegasi 


E. 


106 50 41 


a756 


105 15 15 


a744 


103 39 34 


2733 


102 


3 


38 


2722 


9 


Sun 


W. 


6z 31 18 


2884 


63 3 57 


2874 


64 36 49 


2863 


66 


9 


55 


2852 




Mars 


W. 


35 8 19 


2782 


36 43 II 


2770 


38 18 18 


2759 


39 


53 


40 


2747 




Jupiter 


W. 


34 40 44 


a633 


36 18 54 


262X 


37 57 20 


2609 


39 


36 


3 


9597 




a Aquilae 


E. 


50 9 


3419 


48 47 5 


3457 


47 25 53 


3499 


46 


5 


28 


3548 




Fomalhaut 


E. 


75 23 16 


3030 


73 53 40 


3029 


72 24 3 


3029 


70 


54 


26 


3030 




a Pegasi 


E. 


94 22 


2670 


92 23 2 


2660 


90 45 28 


2<^0 


89 


7 


41 


2640 


zo 


Sun 


W. 


73 58 56 


2798 


75 33 27 


2787 


77 8 Z2 


a775 


78 


43 


12 


2765 




Mars 


W. 


47 54 " 


2692 


49 31 I 


268X 


51 8 6 


2670 


52 


45 


26 


2660 




Jupiter 


W. 


47 53 34 


234 X 


49 33 50 


8530 


51 14 22 


25x9 


52 


55 


9 


2508 




Fomalhaut 


E. 


63 27 12 


3035 


61 58 7 


3064 


60 29 13 


3075 


59 





33 


3089 




a Pegasi 


E. 


80 55 38 


2596 


79 16 37 


2588 


77 37 25 


2380 


75 


58 


2 


2572 


IZ 


Sun 


W. 


86 41 45 


27x0 


88 18 II 


2700 


89 54 51 


2689 


91 


31 


45 


2678 




Jupiter 


w. 


61 22 49 


«455 


63 5 6 


2444 


64 47 38 


2433 


66 


30 


25 


2423 




Mars 


w. 


60 55 45 


2605 


62 34 33 


2395 


64 13 35 


2584 


65 


52 


52 


2574 




Antares 


w. 


37 19 26 


2394 


39 3 10 


2382 


40 47 10 


2371 


4« 


31 


26 


236X 




Fomalhaut 


E. 


51 42 26 


3198 


50 16 15 


323X 


48 50 43 


3270 


47 


25 


56 


33x4 




a Pegasi 


E. 


67 38 35 


•338 


65 58 15 


2533 


64 17 47 


2527 


62 


37 


12 


2524 




a Arietis 


E. 


zio 25 6 


2404 


108 41 37 


«394 


106 57 53 


5^83 


105 


13 


54 


a373 


za 


Sun 


W. 


99 39 50 


2626 


loi 18 9 


2617 


Z02 56 41 


2607 


104 


35 


27 


«597 




Jupitbr 


W. 


75 7 58 


8373 


76 5a II 


2363 


78 36 39 


«334 


80 


21 


20 


«344 




Mars 


W. 


74 12 53 


S522 


75 53 36 


25X9 


77 34 33 


2502 


79 


15 


44 


2492 




Antares 


W. 


51 16 38 


2309 


53 2 25 


2298 


54 48 27 


2289 


56 


34 43 


2279 




Saturn 


W. 


39 56 19 


«3a4 


41 41 44 


23x4 


43 27 23 


2304 


45 


13 


16 


1295 




a Pegasi 


E. 


54 13 10 


25x3 


52 32 15 


45IS 


50 51 22 


•5x7 


49 


10 


32 


2322 


' 


a Arietis 


E. 


96 30 21 


93SS 


94 44 55 


23x3 


92 59 X5 


8304 


9X 


^3 


22 


229s 





12 



178 



OCTOBER, 1899. 



XV. 











GREENWICH MEAN TIME. 










1 


LUNAR DISTANCES. 


-a 










P.L. 




P.L. 




P.L. 






• 


P.L 


Name and Direction | 


Noon. 


of 


Illb. 


of 


Vlh. 


of 


IXh- 




of 


^1 

Q 


of Object 








Diff. 




DlflE. 




DifE. 








Diff 






• 


t .» 




» I* 




t m 




e 


• 


m 




13 


Sun 


W. 


106 


14 26 


3588 


107 53 38 


«579 


109 33 2 


2369 


III 


12 


39 


2561 




Jupiter 


W. 


82 


6 15 


2335 


83 51 23 


2326 


85 36 45 


3317 


87 


22 


19 


3309 




Mars 


w. 


80 


57 8 


2483 


82 38 45 


2473 


84 20 36 


2464 


86 


2 


40 


2455 




Antares 


w. 


58 


21 14 


3270 


60 7 58 


2360 


61 54 56 


3351 


63 


42 


7 


2243 




Saturn 


w. 


46 


59 23 


«a86 


48 45 43 


2277 


50 32 16 


3368 


52 


19 


2 


3260 




a Arietis 


E. 


89 


27 15 


«86 


87 40 55 


3377 


85 54 22 




84 


7 


37 


3360 ! 




Aldebaran 


E. 


122 


21 15 


330X 


120 35 17 


3390 


"8 49 3 


338X 


117 


2 


35 


3370 


14 


Sun 


W. 


119 


33 38 


3521 


121 14 22 


35x5 


122 55 15 


3506 


124 


36 


17 


3503 




Jupiter 


W. 


96 


13 II 


3370 


97 59 55 


3263 


99 46 49 


2356 


lOI 


33 


53 


3350 . 




Mars 


W. 


94 


35 59 


3415 


96 19 13 


240S 


98 2 37 


34OX 


99 


46 


II 


2394 1 




Antares 


W. 


72 


41 7 


3303 


74 29 30 


2x96 


76 18 3 


3190 


78 


6 


46 


3x83 




Saturn 


W. 


61 


15 56 


3330 


63 3 53 


22x4 


64 52 


3907 


66 


40 


17 


3301 




a Arietis 


E. 


75 


10 55 


3234 


73 23 3 


2217 


71 35 I 


32X2 


69 46 


51 


3306 




Aldebaran 


E. 


108 


6 50 


3238 


106 19 4 


t230 


104 31 7 


3313 


102 


42 


59 




15 


Mars 


W. 


108 


26 10 


2367 


no 10 32 


3364 


"I 54 59 


2359 


113 


39 


32 


2357 


1 

1 


Antares 


W. 


87 


12 35 


ax57 


89 2 7 


3x53 


90 51 45 


3XSO 


92 


41 


28 


2X47 


1 
1 


Saturn 


W. 


75 


43 51 


3175 


77 32 56 


2x71 


79 22 7 


3167 


81 


II 


24 


2z6s > 




a Aquiiae 


W. 


40 


59 9 


3403 


42 21 23 


331a 


43 45 21 


3232 


45 


10 


52 


3x62 , 




a Arietis 


E. 


60 


44 7 


3185 


58 55 17 


2183 


57 6 23 


3x80 


55 


17 


26 


3180 


1 


Aldebaran 


E. 


93 


40 2 


2180 


91 51 4 


2x76 


90 2 


3173 


88 


12 


50 


3169 


16 


Antares 


W. 


lOI 


50 57 


2139 


103 40 56 


2X39 


105 30 55 


3140 


107 


20 


53. 


2I4I 




Saturn 


W. 


90 


18 40 


2157 


92 8 12 


21S7 


93 57 45 


3x57 


95 


47 


17' 


2159 




a Aquiiae 


W. 


52 


37 I 


2908 


54 9 10 


2872 


55 42 5 


284X 


57 


15 


40 


3813 




a Arietis 


E. 


46 


12 36 


2Z8« 


44 23 45 


2188 


42 34 59 


2192 


40 


46 


20 


3198 




Aldebaran 


E. 


79 


6 10 


2163 


77 16 46 


2163 


75 27 22 


2x64 


73 


38 





3165 




Pollux 


E. 


120 


53 3 


2206 


119 4 45 


3204 


117 16 23 


3202 


"5 


27 


58 


330X 1 


17 


Saturn 


W. 


104 


54 15 


2x72 


106 43 25 


2176 


108 32 28 


2182 


no 


21 


23 


2x87 




a Aquiiae 


W. 


65 


II 18 


37x9 


66 47 32 


vjcrj 


68 24 2 


2698 


70 





44 


2692 




Fomalhaut 


W. 


40 


55 19 


3379 


42 17 59 


3296 


43 42 15 


3326 


45 


7 


53 


3167 




Aldebaran 


E. 


64 


32 4 


2183 


62 43 II 


2188 


60 54 26 


2195 


59 


5 


51 


3202 




Pollux 


E. 


106 


25 53 


2207 


104 37 36 


3210 


102 49 24 


3314 


lOI 


I 


18 


3319 


18 


a Aquiiae 


W. 


78 


5 45 


2684 


79 42 47 


2686 


81 19 46 


3690 


82 


56 


39 1 


2697 




Fomalhaut 


W. 


52 


31 26 


2962 


54 2 26 


2937 


55 33 58 


3916 


57 


5 


57 


2897 




Aldebaran 


E. 


50 


5 54 


2248 


48 18 38 


2260 


46 3X 39 


2372 


44 


44 


59. 


3386 




Pollux 


E. 


92 


2 54 


2253 


90 15 46 


2362 


88 28 50 


2271 


86 


42 


8' 

J 


228X 


19 


a Aquiiae 


W. 


90 


58 23 


2747 


92 34 I 


276X 


94 9 20 


2775 


95 


44 


1 
20 


2792 




Fomalhaut 


W. 


64 


50 26 


2849 


66 23 50 


2846 


67 57 18 


2846 


69 


30 


46 


2847 




a Pegasi 


W. 


43 


23 50 


2573 


45 3 22 


2368 


46 43 I 


2565 


48 


22 


44 


2565 




Pollux 


E. 


77 


52 38 


2340 


76 7 37 


2353 


74 22 55 


2368 


72 


38 


34 


23H2 




Regulus 


E. 


114 


43 40 


2302 


112 57 43 


2314 


III 12 4 


2326 


109 


26 


43 


23^9 


20 


a Aquilse 


W. 


103 


33 33 


2891 


105 6 4 


39U 


106 38 5 


2939 


108 


9 


34 


2965 




Fomalhaut 


W. 


77 


17 5 


2876 


78 49 55 


288s 


80 22 33 


2896 


81 


54 


57 


2908 




a Pegasi 


W. 


56 


40 40 


2587 


58 19 53 


2594 


59 58 56 


2604 


61 


37 


46 


2613 




Pollux 


E. 


64 


2 17 


2463 


62 20 12 


24^0 


60 38 31 


2498 


58 


57 


15 


25x7 


1 


Regulus 


E. 


100 


44 49 


3410 


98 I 28 


3425 


97 18 29 


2440 


95 


35 


51 


2456 

1 



XVI, 



OCTOBER, 1899. 



179 



1 




GREENWICH MEAN TIME. 












LUNAR DISTANCES. 

1 


the 
h. 








P. L 




P.L. 






P.L. 






PI* 


o| 


Name and Direction 


Midnight. 


of 


XVh. 


of 


XVIIIh. 


of 


XXIh. 


of 


a 


of Object. 






Diff. 




Diff. 






DifE. 






Dift 








e » m 




e t m 




e » 


m 




* 


m 




; '3 


Sun 


W. 


1X2 52 28 


assa 


Z14 32 29 


a544 


116 12 


41 


8536 


"7 53 


4 


2328 


1 


Jupiter 


W. 


89 8 6 


3300 


90 54 5 


229a 


92 40 


16 


2285 


94 26 


38 


2277 




Mars 


w. 


87 44 56 


a447 


89 27 24 


8438 


91 10 


4 


2430 


92 52 


56 


2422 




Antares 


w. 


65 29 30 


8335 


67 17 6 


2226 


69 4 


55 


2218 


70 52 


55 


22x0 


1 


Saturn 


w. 


54 6 I 


aasz 


55 53 12 


a243 


57 40 35 


2235 


59 28 


10 


2228 




a Arietis 


E. 


82 20 39 


2253 


80 33 30 


2245 


78 46 


9 


2237 


76 58 


37 


223X 




Aldebaran 


E. 


"5 15 52 


2963 


113 28 56 


2252 


III 41 


46 


2244 


109 54 


24 


2236 


14 


Sun 


W. 


126 17 27 


3497 


127 58 45 


249X 


129 40 


II 


2487 


131 21 


43 


1 
2483 1 




Jupiter 


W. 


103 21 6 


2244 


105 8 28 


2239 


106 55 


58 


2234 


108 43 


35 


2229 




Mars 


W. 


loi 29 54 


2388 


103 13 46 


2382 


104 57 


47 


2377 


106 41 


55 


237a 


1 


Antares 


W. 


79 55 39 


2177 


81 44 41 


2x7a 


83 33 


51 


2x67 


85 23 


9 


2161 ! 


1 


Saturn 


W. 


68 28 43 


2195 


70 17 i8 


2190 


72 6 


I 


2x84 


73 54 


52 


2179 


1 


n Arietis 


E. 


67 58 3a 


2200 


66 10 5 


2196 


64 21 


32 


2x92 


62 32 


52 


2x88 




Aldebaran 


E. 


100 54 41 


2200 


99 6 14 


2x94 


97 17 


38 


2x89 


95 28 


54 


2x84 ' 


15 


Mars 


W. 


"5 24 9 


a3;4 


117 8 50 


2353 


"8 53 


33 


2350 


120 38 


19 


2350 1 




Antares 


W. 


94 31 16 


ai45 


96 21 7 


2142 


98 II 


2 


2141 


100 


59 


ax40 




Saturn 


W. 


83 45 


2162 


84 50 10 


2x60 


86 39 


38 


21*9 


88 29 


8 


2x57 




a Aquilae 


W. 


46 37 47 


3099 


48 5 58 


3042 


49 35 


19 


299a 


51 5 


42 


2947 




a Arietis 


E. 


53 28 28 


2x78 


51 39 28 


2x79 


4? 50 


29 


2180 


48 I 


31 


2x82 




Aldebaran 


E. 


86 23 36 


2x67 


84 34 18 


2x65 


82 44 


57 


2163 


80 55 


34 


2x63 


i6 


Antares 


W. 


109 10 49 


2x43 


III 43 


2x45 


112 50 


33 


2x48 


114 40 


19 


2x52 




Saturn 


W. 


97 36 47 


2160 


99 26 15 


2x63 


loi 15 


39 


2165 


103 4 


59 


2x68 




a Aquilae 


W. 


58 49 51 


2788 


60 24 34 


2766 


61 59 


46 


2748 


63 35 


22 


2733 1 


1 


a Arietis 


E. 


38 57 49 


aao4 


37 9 28 


2213 


35 21 


20 


2223 


33 33 


27 


2235 




Aldebaran 


E. 


71 48 40 


2167 


69 59 23 


2x70 


68 10 


II 


2174 


66 21 


4 


2x78 




Pollux 


E. 


113 39 32 


2200 


III 51 5 


220X 


no 2 


39 


2202 


108 14 


15 


2204 


17 


Saturn 


W. 


112 10 10 


2193 


113 58 48 


2200 


"5 47 


15 


2207 


"7 35 


32 


22x5 




a Aquilie 


W. 


71 37 35 


2687 


73 14 33 


2683 


74 51 


36 


268X 


76 28 


41 


2682 




Fomalhaut 


W. 


46 34 42 


3"4 


48 2 35 


3067 


49 31 


25 


3<»7 


51 I 


4 


2993 




Aldebaran 


E. 


57 17 26 


2210 


55 29 13 


22x8 


53 41 


13 


2227 


51 53 


26 


2237 




Pollux 


E. 


99 13 19 


2225 


97 25 28 


223X 


95 37 


46 


2237 


93 50 


14 


2245 i 


i8 


a Aquilae 


W. 


84 33 23 


2704 


86 9 57 


2713 


87 46 


20 


2723 


89 22 


29 


2735 




Fomalhaut 


W. 


58 38 20 


2882 


60 II 2 


2870 


61 43 


59 


286X 


63 17 


8 


2854 1 




Aldebaran 


E. 


42 58 39 


2300 


41 12 40 


83x6 


39 27 


4 


2333 


37 41 


52 


2350 1 




Pollux 


E. 


84 55 41 


2292 


83 9 30 


2303 


81 23 


35 


2315 


79 37 


58 


2327 i 


19 


a Aquilae 


W. 


97 18 59 


2809 


98 53 15 


2828 


100 27 


7 


2847 


102 


34 


28«9 




Fomalhaut 


W. 


71 4 13 


2830 


72 37 36 


a854 


74 10 


54 


2860 


75 44 


4 


2867 


I a Pegasi 


W. 


50 2 27 


2566 


51 42 9 


3569 


53 21 


46 


2574 


55 I 


17 


2580 




Pollux 


E. 


70 54 34 


2398 


69 10 56 


a4Z3 


67 27 


40 


24»9 


65 44 


47 


2445 




Regulus 


E. 


107 41 40 


2333 


105 56 57 


23^ 


104 12 


34 


2380 


102 28 


31 


2395 

1 

1 


20 


a Aquilae 


W. 


109 40 31 


299a 


III 10 54 


302X 


112 40 


41 


3051 


114 9 


51 


1 
3082 




Fomalhaut 


W. 


83 27 6 


2920 


84 58 59 


3935 


86 30 


34 


2949 


88 I 


51 


2965 




a Pegasi 


W. 


63 16 23 


2624 


64 54 45 


9636 


66 32 


51 


2648 


68 10 


41 


26fiO 




Pollux 


E. 


57 16 26 


2536 


55 36 3 


3556 


53 56 


7 


2575 


52 16 


38 


2596 





Regulus 


E. 


93 53 36 


2472 


92 II 43 


2488 


90 30 


13 


3504 


88 49 


6 


2320 1 



180 



OCTOBER, 1899. 



XVII 



GREENWICH MEAN TIME. ' 

1 










LXJNAR DISTANCES. 








1 

1 


Day of the 
Month. 


Name and Direction 
of Object 


Noon. 


of 
Diff. 


Illh. 


P.L. 

of 
DiflE. 


Vlh. 


P.L. 

of 

DifE. 


IXlx. 


P.L. 

of 
Diff. 








m 9 m 




e • 




• > • 




• r V 




2Z 


Fomalhaut 
a Pegasi 
a Arietis 
Pollux 
Regulus 


W. 
W. 
W. 
E. 
E. 


89 32 48 
69 48 14 
26 10 26 

50 37 38 
87 8 21 


3981 

■674 
3653 
3618 

8537 


91 3 25 
71 25 29 
27 48 II 

48 59 7 
85 27 59 


3998 
3667 
3634 
3639 
8554 


92 33 40 
73 2 26 
29 25 53 
47 21 5 

83 48 I 


30x6 
370X 
3658 
3663 
337X 


94 3 33 
74 39 4 
31 3 29 

45 43 34 
82 8 26 


3034 
3716 
3666 
3685 
3588 


22 


Fomalhaut 
a Pegasi 
a Arietis 
Pollux 
Regulus 
Sun 


W. 
W. 
W. 
E. 
E. 
E. 


loz 26 54 
82 37 ai 
39 8 30 
37 44 3 
73 56 18 

134 22 31 


3139 
a79a 
3718 
38x4 
3G73 
3031 


102 54 16 

84 12 
40 44 46 

36 9 53 
72 19 I 

132 52 44 


3x63 
3807 
3730 

3844 
3689 
3038 


104 21 ZZ 

85 46 19 
42 20 46 

34 36 22 

70 42 7 

131 23 i8 


3186 
8833 

•743 
3875 
3706 

3053 


105 47 37 
87 20 17 

43 56 29 

33 3 31 

69 5 35 

129 54 13 


331 

2838 ; 
3736 
3909 1 

8723 
S073 


a3 


a Pegasi 
a Arietis 
Regulus 
Sun 


W. 
W. 
E. 
E. 


95 4 59 
51 50 42 
61 8 26 

"2 33 53 


99x9 
3833 
380s 
3153 


96 36 54 

53 24 40 

59 34 4 
121 6 48 


9935 

S836 
88sz 

3169 


98 8 29 

54 58 2Z 

58 3 

119 40 2 


•95X 
3850 
S836 
3x85 


99 39 43 

56 31 44 

56 26 22 

"8 Z3 35 


3966 
3863 
3853 

3aoo 1 


«4 


a Arietis 
Aldebaran 
Regulus 
Sun 


W. 
W. 
E. 
E. 


64 14 34 

31 32 4 

48 42 53 

ixz 5 46 


3936 

2997 
3926 

3273 


65 46 20 

33 2 21 

47 II 7 

109 41 3 


a937 
3001 
3940 
3386 


67 Z7 52 
34 32 32 

45 39 39 
108 16 35 


9949 
3007 

•934 
3^99 


68 49 9 

36 2 36 

44 8 29 

Z06 52 22 


1 
3960 

3013 

3968 

3312 


25 


a Arietis 
Aldebaran 
Regulus 
Sun 


W. 
W. 
E. 
E. 


76 22 13 

43 31 10 
36 36 53 
99 54 47 


30x0 
3043 
3<Q5 
3368 


77 52 13 
45 30 

35 7 24 
98 31 54 


30x9 
3048 
3048 
3378 


79 22 2 
46 29 43 
33 38 II 
97 9 12 


3038 

3055 
306a 

3387 


80 51 40 
47 58 48 
32 9 15 
95 46 41 


3035 
3060 

9075 
3396 


26 


a Arietis 

Aldebaran 

Sun 


W. 
W. 

E. 


88 17 35 
55 22 33 
88 56 26 


3069 
3086 
3433 


89 46 22 
56 51 
87 34 47 


3074 
3090 

3439 


91 15 3 
58 19 22 

86 Z3 15 


3080 
3093 
344S 


92 43 37 
59 47 40 
84 51 49 


30S4 
3096 

3449 


27 


a Arietis 

Aldebaran 

Sun 


W. 
W. 


100 5 17 
67 8 20 
78 5 48 


3x00 
3x07 
346s 


loi 33 27 
68 36 21 
76 44 45 


3x03 
3107 
3468 


103 I 34 
70 4 22 

75 23 45 


3x03 
3x08 

34ft 


X04 29 40 
71 32 22 
74 2 46 


9x04 
3x08 , 
3470 


a8 


Aldebaran 

Pollux 

Sun 


W. 
W. 
E. 


78 52 32 

37 30 33 
67 17 51 


31OZ 
3334 
346s 


80 20 40 
38 56 14 
65 56 48 


3099 

33X3 

34ft 


81 48 5z 
40 22 9 

64 35 43 


3096 
3«ox 

3460 


83 17 5 
41 48 17 

63 14 34 


3093 

3190 ' 

S4S7 


29 


Aldebaran 

PoUux 

Sum 


W. 
W. 
E. 


90 39 24 

49 2 X 
56 27 49 


3073 
3x41 

S435 


92 8 8 
50 29 2Z 
55 6 12 


30ft 
3x31 

3430 


93 37 
51 56 53 
53 44 29 


9060 
3Xtt 
S4«3 


95 5 59 
53 24 36 
52 22 39 


3034 
31XS 

3416 


30 


Aldebaran 
Pollux 
Regulus 
Sun 


W. 

w. 

w. 

£. 


Z02 32 52 
60 46 9 

23 45 51 
45 31 32 


30X9 

soft 

3096 
3380 


104 2 4Z 
62 15 4 
25 14 5 

44 8 53 


30XS 

90S3 

3096 

SSTt 


105 32 39 
63 44 ZZ 
26 42 44 
42 46 5 


9001 

9043 
3057 
S3ft 


Z07 2 47 

65 13 31 
28 iz 46 

41 «3 8 


•996 

3033 
304X 
33S< 


SI 


Pollux 

Regulus 

Sun 


W. 
W. 
£. 


72 43 23 
35 4X 4X 
34 «5 52 


•969 

SSn 


74 14 I 
37 12 33 
33 I 54 


•9ft 
«9SS 
3308 


75 44 53 
38 43 42 
31 37 46 


•99B 

•94I 
9«94 


77 15 58 

40 Z5 7 
30 Z3 s8 


«»47 



xvni 



OCTOBER, 1899. 



181 









GREENWICH MEAN TIME. 










LUNAR DISTANCES. 


• 


Name and Dirocdon 


Midnight 


P.L. 
of 


XV^ 


P.L. 
of 


XVIIIh. 


P.L. 

of 


XXIh. 


P.L. 

of 




of ObjacL 






Diff. 




DifiF. 




DifL 






DiflL 






• • 




9 r m 




• t m 




• 


m 




21 


Fomalhaut 


W. 


95 33 3 


9054 


97 2 9 


3074 


98 30 50 


3096 


99 59 


5 


3XX7 




a Pegasi 


w. 


76 15 23 


8731 


77 51 22 


«745 


79 27 2 


wl^6o 


8z 2 


22 


3776 




a Arietis 


w. 


32 40 55 


a675 


34 18 9 


3684 


35 55 II 


2695 


37 31 


58 


•706 




Pollux 


E. 


44 6 34 


2709 


42 30 6 


3734 


40 54 IZ 


«759 


39 18 


49 


3786 




Regulus 


E. 


80 29 14 


3604 


78 50 25 


3633 


77 Z2 


8639 


75 33 


58 


3655 


22 


Fomalhaut 


W. 


107 13 34 


3*35 


108 39 2 


336Z 


zzo 3 59 


3388 


izz 28 


25 


33x5 




a Pegasi 


W. 


88 53 55 


8855 


90 27 12 


3871 


92 8 


3887 


93 32 


44 


3903 




a Arietis 


W. 


45 31 55 


8769 


47 7 3 


3783 


48 41 54 


3796 


50 16 


27 


38x0 




Pollux 


E. 


31 31 23 


9945 


30 z 


9983 


28 29 27 


3026 


26 59 


46 


3073 




Regulus 


E. 


67 29 26 


1740 


65 53 39 


3756 


64 18 13 


3772 


62 43 


9 


3788 




Sun 


E. 


128 25 29 


S088 


126 57 5 


3105 


125 29 z 


3X2 z 


Z24 z 


17 


3x38 


23 


a Pegasi 


W. 


ZOI 10 38 


998a 


102 41 Z3 


3998 


104 zz 28 


30x4 


Z05 41 


24 


3029 




a Arietis 


W. 


58 4 51 


3876 


59 37 41 


3888 


6z 10 Z5 


290X 


62 42 


32 


3913 




Regulus 


E. 


54 53 2 


3667 


53 20 z 


3883 


51 47 20 


3897 


50 14 


57 


39x3 




Sun 


E. 


116 47 26 


33x5 


Z15 2Z 35 


3331 


Z13 56 2 


3345 


ZZ2 30 


46 


3359 


24 


a Arietis 


W. 


70 20 22 


3970 


7Z 5Z 2 


*98x 


73 21 38 


2991 


74 52 


2 


300Z 




Aldebaran 


w. 


37 32 34 


30x8 


39 2 24 


3034 


40 32 7 


3030 


42 z 


42 


3036 




Regulus 


E. 


42 37 36 


398Z 


4Z 7 


9995 


39 36 41 


3009 


38 6 


39 


3039 




Sun 


£. 


105 28 24 


3334 


104 4 40 


3336 


Z02 4Z 10 


3346 


loz Z7 


52 


3358 


25 


a Arietis 


W. 


82 21 9 


yH3 


83 50 28 


3050 


85 19 39 


3057 


86 48 


41 


3064 




Aldebaran 


W. 


49 27 46 


3066 


50 56 37 


307X 


52 25 22 


3077 


53 54 





308X 




Regulus 


E. 


30 40 35 


3090 


29 12 13 


3x04 


27 44 8 


3x19 


26 z6 


22 


3x34 




Sun 


E. 


94 24 20 


S4<H 


93 2 8 


34x3 


9Z 40 6 


3430 


90 z8 


Z2 


3437 


26 


a Arietis 


W. 


94 12 6 


3088 


95 40 30 


3093 


97 8 49 


9095 


98 37 


5 


3098 




Aldebaran 


W. 


61 15 54 


3099 


62 44 5 


3X03 


64 Z2 Z2 


3x04 


65 40 


17 


3x05 




Sun 


E. 


83 50 28 


3454 


82 9 Z2 


3458 


80 48 Z 


346X 


79 26 


53 


3463 


27 


a Arietis 


W. 


105 57 45 


3x05 


Z07 25 49 


3x05 


108 53 53 


3x05 


zzo 2Z 


57 


3x04 




Aldebaran 


W. 


73 22 


3x07 


74 28 23 


3x07 


75 56 24 


3x05 


77 24 


27 


3x04 




Sun 


E. 


72 41 48 


3470 


7Z 20 50 


3469 


69 59 51 


34^ 


68 38 


52 


3467 


28 


Aldebaran 


W. 


84 45 23 


3089 


86 13 46 


3086 


87 42 13 


308X 


89 zo 


46 


3077 




Pollux 


W. 


43 U 38 


3x80 


44 4X " 


3x70 


46 7 56 


3160 


47 34 


53 


315X 




Sun 


E. 


6z 53 22 


3454 


60 32 6 


3449 


59 10 45 


3446 


57 49 


20 


3440 


29 


Aldebaran 


W. 


96 35 5 


9047 


98 4 19 


904X 


99 33 41 


3034 


zoz 3 


Z2 


3026 




Pollux 


W. 


54 52 31 


3ZOS 


56 20 38 


3093 


57 48 56 


3083 


59 17 


26 


3073 




Sun 


£. 


51 41 


34x0 


49 38 36 


3403 


48 z6 23 


3396 


46 54 


2 


3388 


30 


Aldebaran 


W. 


108 33 5 


■987 


"o 3 34 


3979 


I" 34 13 


3970 


"3 5 


3 


3962 




Pollux 


W. 


66 43 3 


3033 


68 12 48 


30XZ 


69 42 47 


3001 


7Z Z2 


58 


2990 




Regulus 


W. 


29 4Z 8 


3036 


31 10 49 


30X0 


32 40 49 


3997 


34 II 


6 


3983 




Sun 


E. 


40 z 


3347 


38 36 44 


3338 


37 13 17 


3330 


35 49 40 


3330 


31 


Pollux 


W. 


78 47 17 


«93« 


80 z8 50 


9935 


81 50 37 


39x4 


83 22 


38 


3904 




Regulus 


W. 


4Z 46 48 


39x7 


43 18 45 


■904 


44 50 59 


t^l 


46 23 


29 


9879 




Sun 


E. 


28 48 59 


3«77 


27 24 2Z 


3369 


25 59 33 


336x 


24 34 36 


S3S4 



182 



NOVEMBER, 1899. 



AT GREENWICH APPARENT NOON. 



4 

I 

Q 



Wed. 
Thur. 
Frid. 

Sat. 

SC/N. 

Mon. 

Tues. 
Wed. 
Thur. 

Frid. 

Sat 

S(/N. 

Mon. 
Tuea. 
Wed. 

Thur. 

Frid. 

Sat 

sc/j\r. 

Mon. 
Tuea. 

Wed. 
Thur. 
Frid. 

Sat 

SC/N. 
Mon. 

Tues. 
Wed. 
Thur. 

Frid. 



« 



X 

2 

3 

4 

5 
6 

7 

8 



lO 

II 

12 

13 

H 
15 

i6 

17 
i8 

20 
21 

22 

23 

34 

35 

26 

27 

28 
29 

30 
31 



THE SUN'S 



Apparent 
Right Ascension. 



h m ■ 
4 25 51.26 

4 29 46.90 

4 33 43-36 

4 37 40-64 
4 41 38.73 
4 45 37-65 

4 49 37-40 
4 53 37-98 
4 57 39-38 



5 
5 
5 



I 41.61 
5 44.68 

9 48.57 



5 13 5330 
5 17 58.86 
5 22 5.26 

5 26 12.50 
5 30 20.56 

5 34 29-46 

5 38 39.20 
5 43 49-76 
5 47 1.15 

5 51 13-35 
5 55 26.37 

5 59 40.18 

6 3 54-79 
6 8 10.18 

6 12 26.32 

6 16 43.20 
6 21 0.81 
6 25 19.12 

6 29 38.10 



Diff. for 
I Hoar. 



■ 
9.802 

9.835 
9.869 

9.903 
9.938 

9.97a 

0.007 
0.041 
0.076 

o.xxo 

0.145 
0.179 

0.2x4 
0.249 
0.284 

0.319 

0.354 
0.389 

0.423 

0-457 
0.491 

0.525 
0.559 
0.592 

0.625 

0.657 
0.688 

0.718 
0.748 
0.777 



10.805 



Apparent 
Declination. 



_ 



S. 14 27 26.8 

4 46 34-0 

5 5 26.8 

524 4-7 

5 42 27.4 

6 034.5 

6 18 25.4 

6 35 59-9 

6 S3 17.5 

7 10 17.8 
7 27 0.4 
7 43 24.9 

7 59 3I-0 

8 15 18.2 

8 30 46.2 

8 45 54.6 

9 o 42.9 
9 15 ii-o 

9 29 18.2 

9 43 4-4 
9 56 29.1 

20 9 32.0 
20 22 12.8 
20 34 31.0 

20 46 26.2 

20 57 58.3 

21 9 6.8 

21 19 51.4 
21 30 1 1.8 
21 40 7.6 

S. 21 49 38.6 



Dlftfor 
I Hoar. 



-48.09 

47-50 
46.89 

-46.26 

45.62 
44.96 

-44.28 

43.58 
42.87 

-42.14 
4X.40 
40.64 

-39.86 
39.06 
38.25 

-37-43 
36.59 
35.73 

-34.86 

33.97 
33.07 

-32.15 

3X.22 
30.28 

-29.32 

28.34 

2735 

-26.35 

25.33 
24.30 

-23.26 



6 9.74 
6 9.98 
6 10.23 



6 
6 
6 

6 
6 
6 

6 
6 
6 

6 
6 



6 
6 



6 
6 
6 

6 
6 
6 

6 
6 



6 
6 



16 



0.47 
0.72 
0.96 

1.20 
1.44 
1.68 

1.91 

2.15 
2.38 

2.60 

2.82 
3.04 

325 

3.46 

3.66 

3.86 
4.06 

4-25 

4-43 
4.61 

4-79 

4.96 

5.13 
5-29 

545 
5.61 

5.76 

5-91 



Sidereal 

Time of 

Semi- 

diameter 
Passing 

Meridian. 



■ 
66.94 

67.05 

67.17 

67.29 
67.40 

67-52 

67.64 
67.76 
67.88 

68.00 

68.12 
68.24 

68.36 
68.48 
68.60 

68.71 
68.83 
68.94 

69.06 
69.17 
69.28 

69.39 
69.50 
69.60 

69.70 

69.80 
69.90 

70.00 
70.09 
70.18 

70.27 



Bqaatiea ol 

Time. 

to be 

Sabtracted 

from 

Apparent 

Timei 



m ■ 

6 19.54 
6 20.44 
6 20.54 

6 19.82 
6 18.28 

6 15-93 

6 12.74 
6 8.73 
6 3.90 

5 58.24 

5 51-75 
5 44-43 

5 36.28 
5 27.29 
5 17-48 

5 6.83 

4 55-35 
4 4304 

4 29.89 
4 1592 
4 x-H 

3 45-53 
3 29.12 

3 "-91 



10 50.27 



0-055 

0.02 X 
0.0x3 

0.047 
0.08 X 
0.ZI5 

0.X50 
0.X84 
0.2x9 

0.253 
0.288 
0.322 

0.357 
0.392 

0.426 
0.461 

0.496 
0.53X 

0.565 
0.599 
0.633 

0.667 
0.700 

0.733 



2 53.90 0.766 

2 35-13, 0.798 
2 15-59 0.829 



I 55-32 0.859 
I 34-33 0.889 
I 12.64 0.9 1 8 



0.945 



Diff. for 
iHooi; 



NoTS.— The meai 



time of semidiameter passiai; may be fouad by subtracting a^.19 



rom the sidereal tima 



The stga «• prehtcd to the hourly change of declination indicates that sonth declloationa are increating. 



II. 



NOVEMBER, 1899. 



183 









AT GKKENWICH MEAN NOON. 












THE SUN'S 










t 

« 

& 


1 

« 
o 

& 










Bqaation of 

Time, 

to be 

Added to 

Mean Timet 


DiflLfdr 
X Hoar. 


Sidereal 

Time, 

or 

Right Aacenaion 

of 

Mean Snn. 


Apparmt 
Right Atcention. 


DiCfor 
I Hoar. 


Apparsnt 
DecIinatioiL 


DiCfor 
z Hour. 


Wed. 

Thur. 
Frid. 


I 

3 


h m ■ 

14 25 53.93 
14 29 49.58 

14 33 46.05 


■ 
9.802 
9.836 
9.870 


• » » 

S. 14 27 39.8 

14 46 46.9 

15 5 39.5 


m 
-48.09 

47.49 
46.88 


m a 

16 1955 
16 20.45 

16 20.54 


a 
0.054 

0.020 

0.014 


h m ■ 
14 42 13.48 

14 46 10.03 

14 50 6.58 


Sat. 

SUN. 
Mon. 


4 

5 
6 


14 37 43-33 

14 41 41.43 
14 45 40.36 


9.904 
9.938 
9.97a 


15 24 17.3 
15 42 39.8 
z6 46.6 


-46.25 
45.6Z 

44.95 


16 19.81 
16 18.26 
16 15.89 


0.048 
0.082 
O.Z16 


14 54 3-14 

14 57 59.70 

15 I 56.25 


Tues. 
Wed. 
Thur. 


7 
8 

9 


14 49 40.10 
14 53 40.68 
14 57 42.08 


ZO.007 
10.041 
ZO.076 


16 18 37.4 
16 36 11.6 
16 53 29.0 


-44.27 

43.57 
42.86 


16 12.70 
16 8.68 
16 3.84 


O.Z50 
0.X85 
0.219 


15 5 52.80 
15 9 49.36 
15 13 45-92 


Frid. 

Sat. 

SUN. 


lO 

II 

12 


15 I 44.31 

15 5 47.36 
15 9 51.24 


ZO.ZZZ 

10.145 

XO.I80 


17 10 29.0 
17 27 11.3 

17 43 35.6 


-42.13 

41.39 
40.63 


15 58.17 
15 51-67 

15 44-34 


0.254 

0.288 

0.322 


15 17 42.47 
15 21 39.03 

15 25 35.58 


Mon. 
Tues. 
Wed. 


13 
15 


15 13 55-96 
15 18 1.50 

15 22 7.88 


Z0.2Z4 

Z0.249 
Z0.283 


17 59 41.4 
i8 15 28.3 

18 30 55-9 


-39.85 

39.05 
38.24 


15 36.18 
15 27.19 
15 17-37 


0.357 
0.392 

0.427 


15 29 32.14 
15 33 28.70 
15. 37 25.25 


Thur. 

Frid. 

Sat. 


i6 

17 
i8 


15 26 15.10 
15 30 23.14 
15 34 32.01 


Z0.3Z8 

Z0.352 

Z0.387 


18 46 4.0 

19 52.0 

19 15 19.7 


-37-42 
36.58 

35.72 


15 6.71 

14 55.23 
14 42.91 


0.462 
0.496 

0.531 


15 41 21.81 
15 45 18.36 
15 49 14.92 


SUN 

Mon. 

Tues. 


19 

20 
21 


15 38 41.72 
15 42 52.25 
15 47 3.60 


Z0.422 
X0.456 
Z0.490 


19 29 26.6 
19 43 12.5 
19 56 36.8 


-34-85 
33.96 
33.06 


14 29.76 
14 15.78 
14 0.99 


0.565 
0.599 
0.633 


15 53 11.48 

15 57 8.03 

16 I 4.59 


Wed. 

Thur. 
Frid. 


22 
23 

24 


15 51 15.77 
15 55 28.74 

15 59 42.51 


Z0.524 
10.557 

Z0.590 


20 9 39.4 
20 22 19.7 
20 34 37.6 


-32.14 
31.2X 

30.27 


13 45.37 
13 28.96 

13 ".75 


0.667 
0.701 

0.734 


16 5 1. 14 
16 8 57.70 
16 12 54.26 


Sat. 

SUN. 

Mon. 


25 
26 

27 


16 3 57.08 
16 8 12.41 
16 12 28.50 


10.623 
10.655 
X0.686 


20 46 32.5 
20 58 4.2 

2X 9 12.4 


-29.31 
28.33 
27.34 


12 53.74 
12 34.96 

12 15.43 


0.766 
0.798 
0.830 


16 16 50.81 
16 20 47.37 
16 24 43.93 


Tues. 
Wed. 
Thur. 


28 

29 
30 


16 16 45.33 
i6 21 2.88 
16 25 21.13 


XO.716 
Z0.746 
10.774 


21 19 56.6 
21 30 16.6 
21 40 I2.I 


-26.34 

25.32 
24.29 


II 55-15 
II 34.16 
II 12.47 


0.860 
0.889 
0.917 


16 28 40.48 
16 32 37.04 
16 36 33.60 


Frid. 


31 


16 29 40.05 


I0.802 


S. 21 49 42.7 


-23.25 


10 50.11 


0.945 


16 40 30.16 


NaT«.-T 


besei 
Mtiff 
lucre 


nidlameter for meai 
a ~~ prefixed to tb* 
asing. 


1 Qoon may 
hoarly chan 


be assamed the same 
Lge of declination ind 


1 as that for 
icatea that s 


apparent noon, 
(oath declinatia 


OS are 


DifE. for X Hoar, 

-f9'.8565. 
(Table III.) 



184 



NOVEMBER, 1899. 



IlL 





AT GREENWICH MEAN NOON. 




1 

1 








THE SUN'S 








4 

g 

a 

, 1 

o 
Q 

Z 
2 

3 


1 
j 












Lof^arithm 

of the 

Radius Vector 

of the 

Earth. 


Diff. for 
I Hour. 


Mean Time 

of 

Sidereal N00& 


TRUE LONGITUDE. 


Diff. for 
I Hour. 


LATITUDE. 


X 


x> 


305 
306 

307 


• * m 

2z8 52 9.3 

219 52 16.8 

220 52 26.2 


1 m 

51 1 1.4 
51 18.7 
51 38.0 


m 
150.27 

150.35 
150.43 


m 
-0.59 
0.52 
O.4Z 


9.9965223 
9.9964Z16 

9-99630Z3 


-46.2 
46.0 

45-9 


h m • 

9 16 r5.z5 
9 Z2 19.24 < 
9 8 23.33 


4 

5 
6 


308 

309 
310 


221 52 37.6 

222 52 50.6 

223 53 5-1 


51 39-3 

52 6.5 


150.50 
150.57 
150.64 


— 0.29 
O.Z7 

— 0.03 


9.99619Z5 
9.996082 z 

9-9959734 


-45.7 
45-4 
45.1 


9 4 27-42 
9 3Z.5Z 
8 56 35.60 


7 
8 

9 


3" 

3Z2 

313 


224 53 2Z.4 

225 53 39-2 

226 53 58.4 


52 22.7 

52 40-3 
52 59-4 


150.71 
150.77 
150.83 


+ O.ZZ 

0.23 

0-34 


9-9958655 

9-9957583 
9.995652 z 


-44-8 

44-4 
44.0 


8 52 39.69 
8 48 43.78 

8 44 47-87 


lO 
IZ 
Z2 


314 
315 

316 


227 54 19.Z 

228 54 4Z.1 

229 55 4-6 


53 19-9 

53 41-8 

54 5-2 


150.89 

150.95 
151.01 


+ 0.42 
0.48 
0.52 


9-9955471 

9-9954434 
99953412 


-43.5 
42.9 

42-3 


8 40 5Z.96 
8 36 56.05 
8 33 0.Z4 


13 
14 
15 


317 

318 

319 


230 55 29.4 

231 55 55-7 

232 56 23.4 


54 29.8 

54 560 

55 235 


151.06 
151. 12 

Z5I.18 


+ 0.5Z 
0.48 
0.4Z 


9.9952405 
9.995 Z4z6 
9.9950446 


—41.6 
40.8 
40.0 


8 29 4.23 
8 25 8.32 
8 2Z Z2.4Z 


z6 

17 
z8 


320 
32Z 
322 


233 56 52.4 

234 57 22.8 

235 57 54-9 


55 52.4 

56 22.6 

56 54.6 


151.24 
151.30 
151-37 


+ 0.33 

0.22 

+ 0.Z0 


9.9949496 
9.9948567 

99947659 


-39-2 
38.3 
37.4 


8 Z7 Z6.50 
8 Z3 20.59 
8 9 24.68 


19 

20 
2Z 


323 
324 
325 


236 58 28.5 

237 59 3.6 

238 59 40.4 


57 28.0 

58 3.0 
58 39.6 


151-43 
151.50 

151-57 


— 0.02 
O.Z5 
0.28 


9.9946772 
9.9945907 
9.9945064 


-36.5 
35.6 
34-7 


8 5 28.77 
8 z- 32.86 

7 57 36.95 


22 

23 
24 


326 

327 
328 


239 60 18.8 

240 60 58.7 
242 z 40.4 


59 178 

59 57-6 

39.x 


151.64 
151.70 

151.77 


— 0.40 
0.49 
0.56 


9.994424Z 

9-9943439 
9.9942655 


-33.8 
33.0 
32.2 


7 53 41-04 
7 49 45-13 
7 45 49-22 


25 
26 

27 


329 
330 
331 


243 2 23.7 

244 3 8.6 

245 3 55-1 


1 22.3 

2 7.0 

2 53-3 


151.84 
151.91 
151.97 


— 0.60 
o.6z 
0.59 


9.994189Z 
9.994Z144 
9.99404 z 2 


-3X-5 
30.8 

30.1 


7 41 53-31 
7 37 57-40 
7 34 1-49 


28 
29 

30 


332 

333 
334 


246 4 43. z 

247 5 32.6 

248 6 23.5 


3 41-2 

4 30.5 

5 21.3 


152.03 
152.09 

152.15 


-0.55 
0.47 

0.37 


9.9939696 
9.9938995 
9.9938307 


-29.5 
28.9 
28.3 


7 30 5-58 
7 26 9.66 

7 22 Z3.75 


31 


335 


249 7 1 5-7 


6 13.3 


152.20 


— 0.25 


9-9937633 


-27.8 


7 z8 Z7.84 


NoTi.— The n 

aqa 

1 


iinib«n in column k c 
inoi of Jannaiy o*a 


orrespond to Ot 


10 true aqnii 


101 of tlM data; 


in colamn k* to 


thamoan 


Diff. for I Hour, 
— 9«.8296. 
(Table a.) 



IV. 



NOVEMBER, 1899. 



185 









GREENWICH 


MEAN TIME. 








B 








THE MOON'S 










O 

a 

e 
rS 

O 

c« 

Q 


SBMIDIAMBTBR. 


HORIZONTAL PARALLAX. 


UPPER TRANSIT. 


AGE. 


Noon. 


Midnight 


Noon. 


Diff. fox. 
z Hour. 


Midnight 


Diff. for 
I Hour. 


Meridian of 
Greenwich. 


DifE. for 
z Hour. 


Nooa 


I 

2 
3 


15 8.2 
15 16.8 
15 35.7 


m 

15 12.4 

15 21.3 
15 30.2 


» m 

55 26.4 

55 58.0 

56 30.8 


m 
+1.26 

X.35 
X.36 


55 42.0 

56 14.4 

56 47.1 


m 
+1.32 

x-37 
1-34 


h m 

22 52.7 

23 41.9 
6 


m 
X.98 

2.12 


d 

27.7 

28.7 
0.1 


4 

5 
6 


15 34-5 
15 42-6 

15 49-9 


15 38.6 

15 46.4 

15 53-2 


57 2.9 
57 32.8 
57 59-6 


+X.30 
X.I9 
1.05 


57 18.2 

57 46.7 

58 11.7 


+X.25 
1.12 
0.97 


34-3 

1 29.6 

2 26.8 


2.25 

2-35 
2.40 


X.I 
2.1 

31 


7 
8 

9 


15 563 

16 1.6 

16 6.0 


IS 59.1 

16 3.9 
16 7.8 


58 22.9 
58 42.6 

58 58.7 


+0.90 
0.75 
0.60 


58 33.2 

58 51.1 

59 5-3 


+0.82 
0.67 
0.52 


3 24.3 

4 207 

5 15-2 


2.38 
2.31 

2.23 


4.1 
51 

6.1 


ID 
XI 
12 


16 9.4 
16 11.6 
16 12.4 


16 10.6 
16 12.2 
16 12.2 


59 ii.i 

59 I9-I 
59 22.2 


+0.43 

+0.24 

0.00 


59 15-6 
59 21.4 
59 21.4 


+0-33 
+0.13 

-0.13 


6 7.6 

6 58.6 

7 48.7 


2-X5 

2.10 
2.09 


7.1 
8.1 

9.1 


13 
14 
15 


16 11.5 
16 8.6 

16 3.5 


16 10.3 
16 6.4 
16 0.2 


59 X8.9 
59 8.3 
58 49.7 


-0.28 
0.61 
0.94 


59 14-6 
59 0.0 
58 37-4 


-0.44 
0.78 

X.IO 


8 39-1 

9 30.5 
10 23.5 


2.12 
2.17 
2.25 


IO.I 

II.I 

I2.I 


i6 

17 
i8 


15 56.3 
15 47-3 
15 36.9 


15 52.0 
15 42.2 
15 31.4 


58 23.2 
57 49-8 
57 1 1.7 


-1.26 

X.50 
X.65 


58 7.2 
57 31-2 
56 51.6 


-1.39 

X.59 

X.68 


XI 18.2 

12 13.9 

13 9.5 


2.31 

2-33 
2.29 


I3-I 

I4.I 

I5-I 


19 

20 
21 


15 25-9 
15 15-3 
15 5-5 


IS 20.4 
15 10.2 

15 1-3 


56 31-4 
55 52.0 
55 16.4 


-X.68 
1.58 
1.36 


56 1 1.4 
55 33-6 
55 0.9 


— X.64 
1.48 
X.22 


14 3.7 
H 55.4 

15 44-0 


2.21 

2.09 
1.96 


16.1 
17.1 
18.1 


22 

23 
24 


14 57-5 
14 518 
14 48.7 


14 54-3 
14 49.9 

14 48.2 


54 47.2 
54 26.1 

54 H-9 


-X.05 

0.68 

-0.25 


54 35-5 
54 19-2 
54 13.1 


-0.88 

0.46 

-0.03 


16 29.7 

17 13.1 

17 54-7 


1.85 
1.76 
1.71 


19.1 
20.1 
21. 1 


25 

26 

27 


14 48.5 
14 51.1 

14 56.6 


14 49-S 

14 53-5 

15 0-2 


54 H-o 
54 23.8 

54 43-7 


+0.19 
0.62 
1.03 


54 17.6 
54 32.5 
54 57.1 


+0.40 
0.83 
X.20 


x8 35.7 
19 16.9 

19 59.3 


X.70 
X.74 
1.81 


22.1 
23.1 
24.1 


28 

1 29 

30 


15 4-4 
15 14.2 

15 35.3 


15 9-1 
15 19-6 
15 3I.O 


55 12.5 

55 48.5 

56 29.1 


+X.36 
1.61 

x-74 


55 29.8 

56 8.4 
56 50-2 


+1.50 
X.69 

X.76 


20 44.0 

21 31.8 

22 23.2 


1.92 
2.06 

2.22 


25-1 
26.1 

27.1 


31 

1 


15 36-8 


15 42.4 


57 "-3 


+1-75 


57 32.1 


+X.70 


23 18.2 


2.36 


28.1 





186 



NOVEMBER, 1899. 



GREENWICH MEAN TIME. 



THE MOON'S RIGHT ASCENSION AND DECLINATION. 



Hour. 



Right 
Ascension. 



Diff.for 
z Minute. 



Declination. 



DHL for 
I Minate. 



O 

I 
2 

3 

4 

5 
6 

7 
8 

9 

lO 

II 

12 

13 

14 

15 
i6 

17 
i8 

19 

20 
21 
22 

23 



O 

I 
3 

3 

4 
5 
6 

7 
8 

9 

lO 

II 

12 

13 

14 

15 
i6 

17 
i8 

19 

20 
21 
23 

23 

24 



WEDNESDAY i. 



3 
3 
3 
3 
3 
3 
3 
3 
3 
3 
3 
3 
3 
3 
3 
3 
3 
3 
3 
3 



13 
13 
13 
13 
13 
13 
13 
13 
13 
14 
14 
14 
14 
14 
14 
X4 
14 
14 
X4 
14 
X4 
14 
14 
14 
14 



h m 
2 52 
2 54 

2 56 

2 58 
O 



2 

4 
6 

8 

10 

12 

14 
16 

18 

20 

23 

24 

26 

28 
30 
32 

34 
36 

38 



41 

43 

45 

47 

49 

51 

53 

55 

57 
o 

3 

4 
6 

8 

10 

13 

15 

17 

19 
31 

23 

25 
38 

30 

32 



a 


a 


14.12 


1.9797 


13-02 


X.9838 


12.17 


1.9879 


".57 


i.99a« 


11.22 


1.9963 


II.I2 


3.0004 


11.27 


a. 0047 


11.68 


a. 0090 


12.35 


a. 0134 


13.29 


3.0x78 


14.49 


a. 0223 


15.96 


3.os68 


17.70 


a. 03x3 


19.71 


a. 0358 


21.99 


3.0403 


24.55 


3.0450 


27.39 


a. 0497 


30.51 


a.0543 


33.91 


a.059x 


37.60 


8.0639 


41.58 


8.0687 


45.84 


••0735 


50.40 


3.0784 


55.25 


3.0833 



o 
o 
I 

I 
I 
I 
I 
I 

2 
2 
2 



39 

50 

I 

12 
23 

33 

44 

55 
6 

16 
27 



2 38 
2 48 

2 59 
9 
19 
30 
40 

50 

o 

10 

20 

30 
40 



II. 6 

12.4 

10.8 

6*9 

0.6 

51.7 
40.3 
26.2 

9.5 
50.0 

27.7 

2.5 

34.4 

3.3 
29.2 

51-9 

".5 
27.9 

40.9 

50.6 

56.8 

59.5 
58.7 
54.3 



THURSDAY 2. 



0.39 


3.0888 


S.I 


5.83 


3.0931 




11.56 


3. 0980 




17.59 


3.X03Z 




23.93 


8.Z08X 




30.56 


S.XI3I 




37.50 


3.XI83 




44-74 


3.xa33 




52.29 


a.x^ 


1 


0.14 


t.x334 


I 


8.30 


3.1386 




16.77 


t.x437 


T 


35.54 


3.1488 


T 


34.63 


•.154X 




44.03 


a.zs9S 




53.74 


3.X644 




3.76 


3.Z696 




14.09 


3.Z748 




24.73 


3.Z800 




35.69 


a.x833 




46.96 


3. 190s 




58-55 


3.Z958 




10.45 


3.3009 




32.66 


3.ao6x 




35.18 


t.8ZZ3 


S.I 



4 

5 

5 

5 

5 

5 

5 

5 
6 

6 

6 

6 

6 

6 

7 

7 

7 

7 

7 

7 

7 
8 

8 

8 

8 



50 46.1 

34.2 
10 18.4 

19 58.7 

29 35.1 

39 7.5 

48 35.7 

57 59.8 

7 19.7 

16 35.2 

25 46.4 

34 53.1 

43 55-3 

52 53.0 

1 46.0 

10 34.3 
17.9 
56.6 

36 30-4 

44 59.2 

53 22.9 
I 41.5 
9 55.0 

18 3.2 

a6 6.1 



19 
27 






ZZ.033 
X0.993 
10.954 
X0.9X5 
X0.873 
Z0.831 
Z0.788 

10.743 
Z0.698 

10.653 
X0.604 
X0.556 

10.507 
10.457 
Z0.40S 

10.353 
X0.300 
10.245 
X0.189 

xo.x3a 
zo.q74 
XO.0X6 

9*957 
9.89s 



9.833 
9.769 
9.704 
9.639 
9.573 
9-505 
9.436 
9.367 
9.395 
9.333 

0.149 
9.074 

8*999 

8.9*3 
8.844 
8.766 
8.686 
8.604 
8.332 
8.438 

8*353 

8.368 
8.x8z 
8.093 
8.003 



Hoar, 



Right 
AacensioQ. 



Diff. for 
I Minate. 



DeclinatioiL 



Diff. for 
X Minute. 



FRIDAY 3. 



o 

I 

2 

3 

4 

5 
6 

7 
8 

9 
10 

II 

12 

13 

14 

15 
16 

17 

18 

19 
20 

21 

32 
23 



O 

I 
3 

3 

4 

5 
6 

7 
8 

9 
10 

II 

13 
13 

14 

15 
z6 

X7 
z8 

19 
30 

31 
33 

23 

24 



h 

14 
14 
14 
14 
14 
14 
14 
14 
14 
14 
14 
14 
14 
15 
15 
15 
15 
15 
15 
15 
15 
15 
15 
15 



m 
32 
34 
37 
39 
41 
43 
45 
48 
50 
52 
54 
57 

59 

I 

4 
6 

8 

10 

13 

15 

17 
30 

32 

24 



■ 


■ 


35.18 


3.3X13 


48.02 


3.3x66 


I.I7 


3.32X8 


14.63 


3.3369 


28.40 


3. 3333 


42.49 


3.3373 


56.88 


3.S434 


11.58 


«.a476 


26.59 


3.3338 


41.91 


3.3579 


57.54 


3.3630 


13-47 


3.2680 


29.70 


3.3730 


46.23 


3. 3780 


3.06 


3. 8830 


20.19 


3.9880 


37.62 


3.3939 


55.34 


3.3978 


13.35 


3.3OS7 


31.66 


3.3075 


50.25 


3.3x33 


9.13 


3.3170 


28.29 


a.3«7 


47.73 


3.3364 



S.I8 26 


6.1 


8.003 


18 34 


3.6 


7.9x3 


18 41 


55.6 


7.82X 


18 49 


42.1 


7.738 


18 57 


23.0 


7.634 


19 4 


58.2 


7.538 


19 12 


27.6 


7.443 


19 19 


51.3 


7.346 


19 27 


9.1 


7.248 


19 34 


21.0 


7.148 


19 41 


26.8 


7'^7 


19 48 


26.6 


6.946 


19 55 


20.3 


6.843 


20 2 


7.7 


6.738 


20 8 


48.9 


6.633 


20 15 


23-7 


6.537 


20 21 


52.1 


6.430 


20 28 


14. 1 


6.3x2 


20 34 


29.6 


6.303 


20 40 


38.5 


6.093 


20 46 


40.7 


5.981 


20 52 36.2 


5.868 


20 58 


24.9 


5-755 


S.21 4 


6.8 


5.641 



SATURDAY 4. 



27 
29 
31 
34 
36 
38 

41 

43 

45 

48 

5 50 

5 53 

55 

57 
o 



4 

7 

9 
12 

14 
17 

19 

21 



6.24 



7.46 
27.46 

47.73 
8.27 

29.08 

50.15 
11.48 

33.07 
54.91 
17.00 

39.34 
1.92 

24.73 
47.78 

11.06 

34.56 
58.29 

22.24 

46.40 

10.76 

35.33 
o.io 

25.06 

50.21 

15.54 



3.3311 

3.33S6 
•.3401 
3.3446 
3.3490 
a. 3533 
•.3577 
3.3619 
3.366X 

••3709 
■.3743 
8.3783 
3.3833 
3.386X 
•.3898 
8.3936 
••3973 
3. 4009 
•.4043 
3.4077 
«.4ZZS 

•.4144 

3.4176 
S.4307 

•.4a37 



S.2I 
2Z 
21 
21 
21 
21 
2Z 
21 
21 
21 
21 
33 
33 
33 
33 
33 
33 
33 
33 
33 
33 
33 
33 
33 

S.22 



9 

15 

20 

25 
30 

35 
40 

45 
50 

54 
58 

3 

7 
II 

15 
18 

23 
36 
39 

32 

35 

38 

41 
44 
46 



41.8 

9.8 

30.8 

44.8 
51.6 
51.2 

43.5 

38.5 

6.3 

36.5 
59.3 
14.5 

32.3 
33.3 

X4.7 

59-3 
36.2 

5.2 
26.4 

39.7 
45.0 

42.3 
31.6 
12.8 

45.9 



5.5a5 

5.408 
5.193 

5.173 
5.053 
4*933 
4.81Z 
4.6B9 
4.567 
4.443 
4.317 
4.191 
4.065 

3.938 
3.808 
3.679 

3.549 
3.418 
3.388 

3.155 

3.032 

3.888 

a. 754 
3.6x9 

■.483 



VL 



NOVEMBER, 1899. 



187 











GREENWICH 


MEAN 


TIME. 


• 










THE MOON*S 


RIGHT 


ASCENSION AND DECLINATION, 




1 

Hour. 




RHCht 


D!ff. tor 


Declination. 


Diflf.for 


Hour. 




Right 


Diff. for 


DecIinatioxL 


1 

Diff. for 




Ascensioa 


z Minute. 






X Mlnnte. 




Aacensioa 


z Minute. 


m^ ** a^AASA^B ^m %# A4B 


X Minute. 

1 






c 


5UNDA 


y s- 










TUESDAY 7. 






h 


m a 


■ 


• 


» m 


m 




h 


m ■ 


8 


• m 


m 


O 


x6 


24 15-54 


■.4837 


S.22 


46 45.9 


3.483 





x8 


22 19.8a 


a. 4595 


S.22 a 39.4 


4.S5a 


X 


i6 


26 41.05 


f.4967 


22 


49 10.8 


3.347 


I 


x8 


24 47.35 


3.4580 


ai 58 14.1 


4.49a 


2 


i6 


29 6.74 


a. 4^ 


22 


51 27.5 


8.3X0 


a 


18 


27 14.78 


8.4563 


2x 53 40 4 


4.63X 


3 


i6 


31 32.60 


a. 4333 


aa 


53 36.0 


a.073 


3 


18 


29 42.11 


3.4548 


21 48 58.4 


4.769 


4 


x6 


33 58.63 


a-4S5o 


22 


55 36.2 


X.934 


4 


18 


32 9.35 


3.453X 


21 44 8.1 


4.908 


5 


i6 


36 24.80 


«.437« 


22 


57 28.1 


X.796 


5 


x8 


34 36.48 


«.45ia 


21 39 9.5 


5.045 


6 


i6 


38 51.13 


a.440x 


22 


59 1 1.7 


x-657 


6 


18 


37 3-49 


a. 4493 


21 34 2.7 


5.X83 


7 


i6 


41 17.61 


8.4435 


23 


46.9 


x.5z8 


7 


18 


39 30.40 


a. 4*74 


21 28 47.7 


5.3x8 


8 


i6 


43 44.23 


9.4448 


23 


2 13.8 


1.378 


8 


-18 


41 57-18 


. a. 4453 


21 23 24.6 


5.453 


9 


i6 


46 10.99 


a.4471 


23 


3 32.2 


X.B37 


9 


18 


44 23.84 


a. 4433 


21 X7 53.3 


5.588 


10 


x6 


48 37-88 


9*4495 


23 


4 42.2 


1.096 


10 


18 


46 50.38 


3.44x5 


21 12 14.0 


5.733 


XX 


x6 


51 4.90 


t.4513 


23 


5 43.7 


0.954 


II 


18 


49 16.79 


a. 4390 


21 6 26.6 


5.856 


xa 


i6 


53 32.03 


t.453a 


23 


6 36.7 


0.813 


la 


18 


51 43.06 


a.4367 


21 31.3 


5.988 


13 


i6 


55 59-28 


a.455x 


23 


7 21.2 


0.670 


13 


18 


54 9.19 


a. 4343 


20 54 28.0 


6. 133 


14 


i6 


58 26.64 


3.4368 


23 


7 57.1 


0.59B 


14 


18 


56 35.18 


8.4320 


20 48 16.7 


6.353 


15 


17 


54.10 


t.4S84 


23 


8 24.5 


0.585 


15 


18 


59 1.03 


8.4896 


20 41 57.6 


6.383 


x6 


17 


3 21.65 


8.4teo 


23 


8 43.3 


0.848 


16 


19 


X 26.73 


3.4370 


20 35 30.7 


6.513 


17 


17 


5 49.30 


8.4615 


23 


8 53-5 


- 0.098 


17 


19 


3 52.27 


3.4344 


20 28 56.0 


6.643 


x8 


17 


8 X7.03 


8.4608 


23 


8 55.x 


+ 0.045 


18 


19 


6 17.66 


8.48x9 


20 22 13.6 


6.771 


19 


17 


10 44.84 


«.4«4a 


23 


8 48.1 


O.Z89 


19 


19 


8 42.90 


a.4X93 


20 15 23.5 


6.898 


20 


17 


X3 12.73 


a.4653 


23 


8 32.4 


0.333 


ao 


19 


IX 7.97 


3.4165 


20 8 25.8 


7.035 


ax 


17 


15 40.68 


a.4664 


23 


8 8.1 


0.478 


ax 


19 


X3 32.88 


8.4x38 


20 I 20.5 


7.X5X 


aa 


17 


18 8.70 


a. 4675 


23 


7 35.1 


0.638 


aa 


19 


15 57.62 


3.4x09 


19 54 7.7 


7.376 


23 


17 


20 36.78 


8.4683 

lONDA 


S.23 
y 6. 


6 53.5 


0.766 


23 


19 


x8 22.19 
WE 


8.406X 
DNESr 


S.19 46 47.4 
)AY 8. 


7.400 

1 


o 


X7 23 4.90 


8.4691 


S.23 


6 3.2 


0.9IX 





19 


20 46.59 


3.4053 


S.19 39 19-7 


7- 5*3 


z 


17 


25 33-07 


a. 4698 


23 


5 4.2 


X.0S6 


X 


19 


23 10.82 


3.4033 


19 31 44.6 


7.646 


a 


17 


28 1.27 


8.4703 


23 


3 56.5 


x.aoz 


a 


19 


25 34.87 


a. 3993 


19 24 2.2 


7.768 


3 


17 


30 29.51 


a.4708 


23 


2 40. X 


X.345 


3 


19 


27 58.74 


a. 3963 


19 16 12.5 


7.888 


4 


17 


32 57.77 


8.47xa 


23 


I 15.1 


X.490 


4 


19 


30 22.43 


a. 3983 


19 8 15.7 


8.007 


5 


17 


35 26.05 


t.4715 


22 


59 41-3 


X.635 


5 


19 


32 45.94 


a. 3903 


19 II. 7 


8.X36 


6 


17 


37 54.35 


a. 4718 


22 


57 58.9 


X.779 


6 


19 


35 9.27 


a. 3873 


18 52 0.6 


8.343 


7 


17 


40 22.66 


8.47x8 


22 


56 7.8 


1.934 


7 


19 


37 32.41 


3.384X 


18 43 42.5 


8.360 


8 


17 


42 50.97 


a.47x8 


22 


54 8.0 


8.0G9 


8 


19 


39 55.36 


8.38x0 


18 35 17.4 


8.476 


9 


17 45 19.28 


8.4717 


22 


51 59.5 


3.3X4 


9 


19 


42 18.13 


a. 3779 


18 26 45,4 


8.590 


xo 


17 


47 47.58 


3.47x5 


22 


49 42.3 


a. 358 


10 


19 


44 40.71 


a.3748 


x8 18 6.6 


8.703 


II 


17 


50 15.86 


S.47XS 


22 


47 16.5 


3.503 


XI 


19 


47 3-10 


8.37x5 


18 9 21.0 


8.8x6 


xa 


17 


52 44.13 


8.4709 


22 


44 42.0 


a. 647 


xa 


19 


49 25.29 


a. 3683 


x8 28.7 


8.938 


13 


17 


55 12.37 


a.4704 


22 


41 58.9 


3.79X 


13 


19 


5x 47.29 


a.365x 


17 51 29.7 


9.038 


H 


17 


57 40.58 


a. 4698 


22 


39 7.1 


a.934 


14 


19 


54 9. 10 


3.36x8 


17 42 24.1 


9.X47 


15 


18 


8.75 


3.4698 


22 


36 6.8 


3.078 


15 


19 


56 30.71 


S.3585 


17 33 12.0 


9.255 


i6 


18 


2 36.88 


3.4683 


22 


32 57.8 


3.aax 


16 


19 


58 52.12 


a. 3553 


X7 23 53.5 


9.363 ; 


17 


18 


5 4.97 


3.4677 


22 


29 40.3 


3.363 


17 


20 


X 13.34 


3.3580 


17 14 28.5 


9.469 


i8 


18 


7 33.00 


3.4668 


22 


26 14.2 


3.506 


18 


20 


3 34.36 


a. 3487 


17 4 57.2 


9.574 . 


19 


18 


10 0.98 


3.4658 


22 


22 39.6 


3.648 


19 


20 


5 55.18 


a. 3454 


16 55 19.6 


9.678 


ao 


18 


X2 28.89 


a.4647 


22 


18 56.5 


3.789 


ao 


20 


8 15.81 


3.3433 


16 45 35.8 


9.781 


ai 


18 


X4 56.74 


a.4635 


22 


15 4.9 


3.93X 


ai 


20 


10 36.24 


a. 3388 


16 35 45.9 


9.883 


22 


18 


17 24. 5X 


3.4633 


22 


II 4.8 


4.07a 


22 


20 


12 56.47 


a. 3356 


16 25 50.0 


9.983 1 


23 


18 


19 52.21 


3.4609 


22 


6 56.3 


4.3X3 


23 


20 


15 16.51 


a.33a3 


16 15 48.0 


X0.083 


24 


18 


22 19.8a 


«.4595 


S.22 


a 39.4 


4*35t 


24 


20 


17 36.34 


3.3889 


S.16 5 40.1 


xo.x8x 



188 



NOVEMBER, 1899. 



VII 



GREENWICH MEAN TIME. 



THE MOON'S RIGHT ASCENSION AND DECLINATION. 



Hour. 



Right 
Ascention. 



Diff. for 
X Minute. 



Declination. 



Diff. for 
z Minute. 



Hour, 



Right 
Ascention. 



Diff. for 
z Minute. 



DeclinatiozL 



Die for 
z Minnte. 



O 

X 
2 

3 

4 

5 
6 

7 
8 

9 

lO 

II 

12 

13 

14 

15 
i6 

I? 
i8 

19 

20 
21 
22 

23 



O 

I 
2 

3 

4 

5 
6 

7 

8 

9 

10 
XI 
12 

13 

14 

15 
x6 

17 

i8 

19 

20 
21 
22 

23 
24 



h m 
20 17 

20 19 
20 22 
20 24 
20 26 
20 29 
20 31 
20 33 
20 36 
20 38 
20 40 

20 43 
20 45 
20 47 
20 49 
20 52 

20 54 
20 56 
20 59 



21 
21 
21 

21 
21 



I 

3 

5 
8 

xo 



a 


a 




36.34 


a. 3089 


S.I 


55.98 


a. 3*57 




15-42 


a.3aa4 




34.67 


a. 3 19a 




53.72 


a. 3159 




12.58 


a.3za7 




31.24 


a. 3094 




49.71 


t.306a 




7.98 


a. 3029 




26.06 


a.a998 




43-96 


a. 2967 




1.66 


a.a935 




19.18 


3.290* 




36.51 


a. 2873 




53.66 


a. 3843 




10.62 


a.a8ia 




27.40 


a. 3783 




44.00 


8.3753 




0.42 


3.3733 




16.66 


t.3693 




32.73 


a. 3664 




48.63 


a. 9636 




4.36 


3.a6o8 




19-92 


a.3579 


S.I 



21 12 
21 14 
21 17 
21 X9 
21 21 
21 23 
21 26 
21 28 
21 30 
2X 32 

21 35 

2X 37 

21 39 

21 41 

21 43 
21 46 
21 48 
21 50 
21 52 

21 54 
21 57 

21 59 

22 X 



22 
33 



3 
6 



THURSDAY 9. 

16 5 40.x 

15 55 26.3 

15 45 6.8 

15 34 4^.5 
15 24 I0.6 

15 13 34.1 

15 2 52.1 

14 52 4.7 

14 41 II. 9 

14 30 13.8 

14 19 10.5 

14 8 2.0 

13 56 48.4 

13 45 29.8 

13 34 6.3 

13 22 38.0 

13 II 4.9 

12 59 27.0 

12 47 44.5 

12 35 57.5 
12 24 6.0 
12 12 xo.o 

12 O 9.7 
II 48 5.2 

FRIDAY 10. 

S.ii 35 56.5 
II 23 43.7 
XI II 26.8 
ID 59 6.0 
ID 46 41.3 
ID 34 12.8 
XO 2X 40.6 

XO 9 4.7 
9 56 25.2 

9 43 42.3 

9 30 55.9 
9 18 6.2 

9 5 13.2 
8 52 17.0 

8 39 17-7 
8 26 15.4 

8 13 10. X 

8 o 2.0 

7 46 51.0 

7 33 37.3 
7 20 20.9 

7 7 2.0 

6 53 40.6 

6 40 16.8 

S. 6 26 50,6 



SATURDAY 11. 



35.31 


a.a55a 


50.54 


a. 3534 


5.60 


a. 8497 


20.50 


■.a47i 


35.25 


t.3446 


49.85 


a.a4ao 


.4.29 


t.a394 


18.58 


i.ss^ 


32.72 


S.9S4S 


46.72 


8.3333 


0.58 


3.8898 


14.30 


8.387^ 


27.89 


t.8as3 


41.34 


8. 3338 


54.67 


8.38ZI 


7.87 


8.8Z89 


20.94 


8.8Z68 


33-89 


8.8I48 


46.72 


8.8X89 


59.44 


8.azzx 


12.05 


8.8093 


24.55 


8.1075 


36.95 


8.8058 


49.24 


8.8040 


1.43 


8.8084 



zo. z8z 
X0.378 

XO.373 
X0.468 
Z0.562 
Z0.654 
10.745 
10.835 
ZO.934 

ZZ.0Z3 
IZ.O98 
IZ.X84 
ZX.368 

IZ.35X 
IZ.433 
ZZ.SI3 

XI. 59a 

ZX.67O 

XX. 746 

XX.83X 

XX. 896 

ZZ.969 

X8.040 

X8.XZO 



18.179 

XS.348 
xa.3X4 
X8.S79 
X8.443 
X8.506 
X8.S68 
xa.638 
xa.687 

W.744 
X8.801 
Z3.856 

X3.9XO 

X3.s)63 
13.0x3 
XS.0C3 

X3.XX8 

13.159 
Z3.8O6 

iS-sSi 

13.094 
13-336 
13.577 
13.417 
13.435 



o 

X 

2 

3 

4 

5 
6 

7 
8 

9 

XO 
IX 

12 

13 

14 

15 
16 

17 

18 

19 
20 

21 

22 

23 



o 

X 

2 

3 

4 

5 
6 

7 
8 

9 
10 

II 

12 

13 

14 

15 
x6 

17 

z8 

19 
20 

3X 
32 

23 
24 



h m 
22 6 

22 8 
22 10 
22 12 
22 14 
22 17 
22 19 
22 21 
22 23 
22 25 
22 27 
22 30 
22 32 

22 34 
22 36 
22 38 
22 41 
22 43 
22 45 
22 47 
22 49 
22 52 

22 54 
22 56 



22 58 

23 O 



8 

1.43 
13.53 
25.54 
37-46 
49.30 

1.05 

12.73 
24.34 

35.87 

47-33 

58.73 
10.08 

21.36 

32.59 
43.78 
54.92 

6.01 
17.07 
28.09 
39.08 
50.05 

0.99 
II. 91 
22.81 



a 

3.2024 
2.3009 
3.X994 
3.t98o 
8.Z966 
3.X953 
3.Z94X 
3.1938 
3. 1916 
8.X905 
3.1896 

3.Z886 
8.X876 
8.X868 

3.186X 
8.1853 
8.X846 
8.X840 

8.1834 
a. t83o 
3.1826 
3.i8aa 
8.z8x8 
8. 18x6 



S. 



S. 



6 


26 


50.6 


13.455 


6 


13 


22.2 


13.492 


5 


59 


51.6 


13. 528 


5 


46 


18.9 


13.56a 


5 


32 


44.2 


13.594 


5 


19 


7.6 


13.606 


5 


5 


29.1 


13.657 


4 


51 


48.8 


Z3.686 


4 


38 


6.8 


13.713 


4 


24 


23.2 


13.740 


4 


10 


38.0 


X3.766 


3 


56 


51.3 


13.790 


3 


43 


3.2 


13.8x3 


3 


29 


13.8 


13.833 


3 


15 


23.2 


13.853 


3 


I 


31.5 


13.871 


2 


47 


38.7 


13.889 


2 


33 


44.8 


13.905 


2 


19 


50.1 


XS.918 


2 


5 


54.6 


13.93a 


I 


51 


58.3 


13.944 


I 


38 


1.3 


13.954 


I 


24 


3.8 


13.963 


X 


10 


5.7 


13.97a 



SUNDAY X2. 



23 
23 
23 
23 



2 

5 

7 
9 



23 XX 

23 13 
23 16 

23 18 

23 20 

23 22 

23 24 
23 26 
23 29 

23 31 
23 33 
23 35 
23 37 
23 40 
23 42 
23 44 
23 46 
23 48 
23 51 



33.70 


8.18x4 


44.58 


8.x8x3 


55.46 


8. i8z3 


6.33 


8. x8z3 


X7.2I 


3.x8z3 


28.09 


8«x8x4 


38.98 


8.x8i7 


49.89 


8. x8z9 


0.81 


3.X888 


11.75 


8.1835 


22.71 


8.X829 


33.70 


■.X835 


44.73 


8.X64X 


55.79 


8.X846 


6.88 


8.X858 


18.OX 


8.1859 


29.19 


8.X868 


40.42 


a. 1876 


5X.70 


8.X884 


3.03 


8.X893 


14.42 


8.X904 


25.88 


•.1915 


37.40 


8.x9as 


48.98 


t.1937 


0.64 


a. 1949 



s. 



s. 

N. 



N. 



o 
o 
o 
o 
o 
o 
o 
o 
o 

X 
X 

I 

X 

a 
2 
a 
2 

3 
3 
3 

3 
3 

4 
4 
4 



56 
42 

28 

14 
o 

13 
27 
41 
55 

9 
23 
37 
51 

5 

19 

33 

47 
I 

15 

28 

42 

56 

XO 

24 
37 



7.2 

8.4 

9.3 

lO.O 

10.6 

48.8 

48.2 

47.5 
46.5 
45.2 
43.6 
41.5 
38.8 

35.5 

31.6 
26.8 

21.2 

14-7 

7.x 

58.4 
48.6 

37-5 
25.0 

II. X 

55-7 



13.978 
13.983 
13.987 
13.989 
13.990 
13.990 
13.989 
13.966 
13.981 
13.976 
13.969 
13.960 

13.990 
13.940 
13.988 

13.913 
15.899 

13.883 

13.864 
13.846 
15.886 
13.805 
13.780 
13.756 
13.730 



VIIL 



NOVEMBER, 1899. 



189 



GREENWICH MEAN TIME. 



THE MOON'S RIGHT ASCENSION AND DECLINATION. 



Hour. 



Right 
Ascension. 



Diff. for 
z Minute. 



Declination. 



Diflf.for 
I Minute. 



Hour, 



Right 
Ascension. 



Diff. for 
X Minute. 



Declination. 



Diff. for 
z Minute. ' 



O 

I 
2 

3 

4 

5 
6 

7 

8 

9 
lo 

II 

12 

13 

15 
i6 

17 
i8 

19 

20 
21 
22 

23 



O 

I 
2 

3 

4 

5 
6 

7 
8 

9 

lO 

II 

12 

13 
14 

15 

i6 

17 
x8 

19 

20 
21 
23 

a3 

24 



MONDAY 13. 



WEDNESDAY 15. 



h m 

23 51 

23 53 

23 55 

23 57 

23 59 
o 2 



o 
o 
o 
o 
o 
o 
o 
o 
o 
o 
o 
o 
o 
o 
o 
o 
o 
o 



o 
o 
o 
o 
o 
o 
o 
o 



4 
6 

8 

10 

13 
15 

17 

19 
21 

24 
26 
28 
30 
32 
35 
37 
39 
41 



44 
46 

48 

50 

53 

55 

57 

59 
2 

4 
6 

8 

II 

13 

15 
18 

20 

22 

^4 
27 

29 

31 
34 

36 

38 



0.64 

12.37 
24.18 

36.07 

48.04 

o.io 
12.25 
24.50 
36.84 
49.28 

1.82 
14.46 
27.21 
40.07 

53.04 
6.13 

19.34 
32.67 

46.12 

59.70 
13.40 

27.23 

41.20 

55.30 



s 

3.1949 

2.1962 

2. Z956 
2.Z988 
2.2003 
S.90Z8 
8.2033 
3.2049 
2.2065 
2.2082 
2.2098 
2. 21 16 

2.2134 
2.2153 
2.2172 
3.2x92 
2.22X3 
2.2233 
3.2253 
2.2273 
3.2294 
3.2317 

a. 2339 
3.3363 



N. 



4 

4 

5 

5 

5 

5 

5 
6 

6 

6 

6 

7 

7 
7 

7 

8 



N. 



9 
9 
9 
9 



9.54 
23.92 

38.43 

53.09 
7.89 

22.84 

37.93 

53.18 

8.57 
24.12 

39.8a 

55.67 
11.68 

27.85 

44.17 
0.66 

17.30 

34.10 

51.07 

8.20 

25.49 
42.94 

0.56 

18.34 

36.29 



TUESDAY 14. 

N. 9 



3.2385 
3.2408 

a.a43x 
3.3455 
3.3479 
3.2503 
3.3528 

a. 2553 
2.3578 
3.2604 
3.2629 
3.2655 
3.2682 
2.2708 

2.2734 
3.2761 
3.3787 
3.38x4 
3.3843 
8.2868 
8.2895 
3.3933 

8.3990 
8.3978 
8. 3003 



N. 



o 
o 
o 
o 
o 
I 
I 
I 
I 

2 
2 
2 
2 

2 
2 

3 
3 
3 
3 
3 
4 
4 
4 
4 



37 
51 

5 

18 

32 

46 

59 

13 
26 

40 

53 

7 
20 

33 

46 

o 



8 13 
8 26 

8 39 

8 52 



5 
18 

31 
43 



21 

34 
46 

59 
II 

23 
36 
48 
o 
12 

24 
36 

47 

59 
II 

22 

34 

45 

56 

8 

19 
30 

41 



55.7 
38.7 

20.0 

59-5 
37.2 
12.9 
46.7 
18.3 
47.8 
15.0 

39.9 
2.4 

22.3 

39.7 

54.4 
6.4 

155 

21.7 

24.9 
25.1 

22.1 

15.9 

6.3 

53.4 



56 36.9 
9 16.9 

53.3 
25-9 

54.7 
19.6 

40.6 

57.6 
10.4 
19.0 

23.4 

23.4 

18.9 

9.9 
56.3 
38.1 
15.2 

47.4 
14.7 

37.0 

54.3 
6.5 

13.4 
15.1 
11.5 



w 



13.730 
13.703 
13.673 
13.643 

X3.6I2 
J 3. 579 
13.545 
13.509 
13.473 
'3.434 
13.395 
13.353 
13.311 
13.86S 
13.223 

13.176 
13.128 
13.078 
X3.028 
X2.977 

12.933 
13.868 
Z3.8X3 
13.755 



X3.696 
Z3.637 
Z3.575 

Z3.5Z3 

Z3.448 

X2.383 

12.317 
Z3.348 

X3. X78 

Z3.I08 

X2.037 

ZZ.963 

ZZ.888 

ZI.8Z3 

IX.735 
IZ.658 

XX. 578 

IZ.496 

IZ.4X3 
ZZ.330 
ZZ.246 
XX.Z59 
IZ.072 
ZO.984 
10.894 



O 

I 
2 

3 

4 

5 
6 

7 

8 

9 
10 

II 

12 

13 

14 

15 
16 

17 
18 

19 
20 

21 

22 

23 



o 

I 
2 

3 

4 

5 
6 

7 
8 

9 
10 

II 

12 

13 

14 

15 
16 

17 

18 

19 
20 

21 

22 

23 
24 



h 

I 

I 
I 
I 

I 
I 
I 
I 
I 
I 
2 
2 
2 
2 
2 
2 



2 
2 

3 
2 



2 
3 

3 
3 
3 
3 
3 
3 
3 
3 
3 
3 
3 
3 
3 



tn 
38 
40 

43 
45 
47 
50 
52 
54 
57 

59 

I 

4 
6 

8 

II 

13 



2 15 

2 18 
2 20 
2 22 
2 25 
2 27 
2 29 
2 32 



2 34 
2 36 



36.29 

54.40 
12.67 

31.11 
49.71 
8.47 
27.40 
46.49 

5.74 

25.15 
44.72 

4.45 
24.33 
44.38 

4.58 
2493 

45.44 
6.10 

26.91 
47.87 

8.97 
30.22 

51.61 
13.14 



s 
3.3005 

8.3033 
2.3059 
3.3087 
3.31x3 
2.3141 
2.3168 

a.3195 
2.3222 

3.3248 

2.3275 
2.3301 
2.3328 

a. 3354 
a. 3379 
3.3405 
2.3431 
a. 3456 
2.3481 
a. 3505 
8.3529 
a. 3553 

2.3577 
3.3600 



N. 



N. 



4 

4 

5 

5 

5 

5 

5 

5 
6 

6 

6 

6 

6 

6 

7 
7 
7 
7 
7 
7 

7 

8 



41 

52 

2 

13 
24 
34 
44 
55 

5 
15 
25 
35 
45 
54 

4 
13 
23 
32 

41 
50 

59 

8 



8 16 
8 25 



THURSDAY 16. 



39 

41 

44 
46 

2 48 
2 51 
2 53 
2 55 



58 
o 

3 

5 

7 
10 

12 

15 

17 

19 
22 

24 
27 
29 
3X 



34.81 


2.3633 


56.61 


a. 3645 


18.55 


a. 3667 


40.62 


a. 3689 


2.82 


8.37x0 


25.14 


a. 3730 


47.58 


a. 3750 


10.14 


a. 3770 


32.82 


a. 3789 


55.61 


2.3808 


18.51 


3.3826 


41.52 


3.3844 


4.64 


8.3868 


27.86 


8.3878 


51.17 


a. 3893 


14-57 


2.3908 


38.06 


2.3923 


1.63 


2:3936 


25.29 


a. 3949 


49.02 


8.3968 


12.83 


2.3973 


36.70 


a. 3984 


0.64 


a. 3995 


24.64 


8.4004 


48.69 


•.40x3 



N. 



8 
8 
8 
8 

9 

9 

9 

9 

9 

9 

9 

9 
20 

20 

20 

20 

20 

20 

20 

20 

20 

21 

21 

21 

N.21 



33 
42 
50 

58 
6 

14 
22 

29 
37 
44 
52 

59 
6 

13 

19 
26 

32 

39 

45 

51 

57 

3 

9 

14 
20 



11.5 
2.4 

47.8 

27.7 

1.9 

30.4 
53.2 
10. 1 
21. 1 
26.1 
25.1 
17.9 

4.6 
45.0 
19.1 
46.8 

8.1 
22.8 
31.0 
32.6 

27.5 
15.7 
57.0 

31.5 



59.0 
19.6 

33.1 
39.6 

38.9 

31.1 
16.0 

53.7 
24.0 

46.9 

2.4 

10.5 

II. o 

4.0 

49.3 
27.0 

57.1 
19.4 

34.0 
40.8 

39.8 
31-0 

14.3 
49.6 

17.0 



X0.894 

XO.803 

X0.7XI 

ZO.618 

XO.523 

XO.428 

ZO.33X 

XO.233 

xo. 133 

Z0.033 

9.932 

9.829 

9.726 

9.621 

9.5x5 
9.408 

9.300 

9.X9I 

9.082 

8.971 
8.859 
8.746 
8.632 
8.517 



8.40X 

8.2S4 
8.167 
8.048 

7.929 
7.809 
7.688 

7.567 
7.443 
7.320 

7.197 
7.072 

6.946 
6.8x9 
6.692 

6.565 

6.437 
6.308 
6.X78 
6.048 
5.9x8 
5.787 
5.655 
5.523 
5.390 



190 



NOVEMBER, 1899. 











GREENWICH 


MEAN TIME. 












1 




THE MOON'S 


RIGHT ASCENSION AND DECLINATION. 








Hour. 




Right 


Diff. for 


Declination. 


Diflf. for 


Hoar. 


Right 


Diff. for 


Declination. 


Diff. for 




Ascension. 


X Minate. 






z Minute. 




Ascension. 


I Minate. 








X Minate.' 






I 


•RIDAY 


17. 








SUNDAY 19. 










b 


m ■ 


s 


• 


t m 


m 




b m a 


s 


• 


f 


m 


• 





3 


31 48.69 


a. 4013 


N.2I 


20 Z7.O 


5.390 





5 26 32.41 


3.3466 


N.23 


2 


45.x 


X.0R8 


X 


3 


34 12.79 


a.4oaz 


21 


25 36.4 


5.a57 


Z 


5 28 53.11 


a. 3434 


23 


I 


36.0 


X.216 


2 


3 


36 36.94 


2.4099 


21 


30 47.8 


5.X33 


2 


5 31 13.62 


3.3403 


23 





19.2 


X.343 


3 


3 


39 I- 14 


S.4036 


21 


35 51.2 


4' 990 


3 


5 33 33-94 


3.3370 


22 


58 


54.8 


X-47t 


4 


3 


41 25-37 


2.404X 


21 


40 46.6 


4.856 


4 


5 35 54.06 


3.3336 


22 


57 


22.7 


X.598 


5 


3 


43 49.63 


3.4046 


21 


45 33.9 


4.733 


5 


5 38 13-97 


3.330a 


22 


55 


43.0 


1.734 


6 


3 


46 13.92 


8.4051 


21 


50 13-2 


4.587 


6 


5 40 33.68 


3.3267 


22 


53 


55.8 


1.850 


7 


3 


48 38.24 


a. 4054 


21 


54 44.3 


4.451 


7 


5 42 53.17 


3.3231 


22 


52 


I.O 


X.975 


8 


3 


51 2.57 


a.4057 


21 


59 7.3 


4.315 


8 


5 45 12.45 


3.3x95 


22 


49 


58.8 


3.099 


9 


3 


53 26.9a 


a. 4058 


22 


3 22. z 


4.179 


9 


5 47 31.51 


3.3158 


22 


47 


49.1 


3.323 


10 


3 


55 51-27 


a.4059 


22 


7 28.8 


4.043 


10 


5 49 50.35 


3.3133 


22 


45 


32.1 


a. 345 


IZ 


3 


58 15.63 


3.4060 


22 


II 27.3 


3.908 


II 


5 52 8.97 


3.3063 


22 


43 


7.7 


3.468 


12 


4 


39.99 


3.4059 


22 


15 17.7 


3.771 


12 


5 54 27.35 


3.3045 


22 


40 


36.0 


3.589 


13 


4 


3 4.34 


3.4058 


22 


18 59.8 


3.^ 


13 


5 56 45-50 


3.3006 


22 


37 


57-0 


8.7x0 


14 


4 


5 28.68 


3.4055 


22 


22 33.8 


3.498 


14 


5 59 3.42 


3.3967 


22 


35 


10.8 


8.839 


15 


4 


7 53.00 


3.4053 


22 


25 59.5 


S.360 


15 


6 I 21.10 


3.3936 


22 


32 


17.5 


8.948 


i6 


4 


10 17.30 


3.4048 


22 


29 17.0 


3.a23 


16 


6 3 38.53 


2.2883 


22 


29 


17.0 


3.067 


17 


4 


12 41.58 


3.4043 


22 


32 26.3 


S.087 


17 


6 5 55.72 


8.3844 


22 


26 


9.4 


3.185 


i8 


4 


15 5-82 


3.4038 


22 


35 27.4 


a. 949 


18 


6 8 12.66 


3.2803 


22 


22 


54.8 


3.300 


19 


4 


17 30.03 


3.4<qi. 


22 


38 20.2 


3.8X3 


19 


6 10 29.35 


3.276X 


22 


19 


33.2 


3.4x8 


20 


4 


19 54.19 


3.4033 


22 


41 4.8 


a.675 


20 


6 12 45.79 


2.27x8 


22 


16 


4.7 


3.S33 


21 


4 


22 18.30 


3.4014 


22 


43 41.X 


3.537 


21 


6 15 1.97 


3.3675 


22 


12 


29.2 


3.648 


22 


4 


24 42.36 


3.4006 


22 


46 9.2 


3.400 


22 


6 17 17.89 


3.3633 


22 


8 


46.9 


3.76a 


23 


4 


27 6.37 


a. 3996 


N.22 


48 29.1 


a. 3^ 


23 


6 19 33-55 


8.2588 


N.22 


4 


57.8 


S.^4 






SA 


TURDi 


^Y 18. 






M 


ONDA1 


if 20. 








O 


4 


29 30.31 


3.39B4 


N.22 


50 40.8 


3.X36 





6 21 48.95 


3.2544 


N.22 


I 


2.0 


S.9B6 


z 


4 


31 54-18 


3.3973 


22 


52 44.2 


2.969 


Z 


6 24 4.08 


3.3499 


21 


56 


59.5 


4.098 


2 


4 


34 17.97 


3.3959 


22 


54 39.5 


X.853 


2 


6 26 18.94 


3.3455 


2Z 


52 


50.3 


4.aoB 


3 


4 


36 41.69 


3.3947 


22 


56 26.5 


1.715 


3 


6 28 33.54 


8.34x0 


21 


48 


34.5 


4.3x8 


4 


4 


39 5.33 


a.3933 


22 


58 5.3 


X.579 


4 


6 30 47.86 


3.2364 


21 


44 


12.Z 


4.437 


5 


4 


41 28.87 


3.391S 


22 


59 36-0 


X.443 


5 


6 33 1.91 


2.3318 


21 


39 43.3 


4.534 


6 


4 


43 52.31 


3.3899 


23 


58.5 


X.307 


6 


6 35 15.68 


2.2273 


ai 


35 


8.0 


4.641 


7 


4 


46 15.66 


3.3883 


23 


2 12.8 


X.Z70 


7 


6 37 29.18 


3.2236 


21 


30 


26.4 


4.747 


8 


4 


48 38.91 


3.3865 


23 


3 18.9 


1.034 


8 


6 39 42.39 


2.2179 


21 


25 


38.4 


4.853 


9 


4 


51 2.04 


3.3846 


23 


4 16.9 


0.899 


9 


6 41 55.33 


3.2133 


21 


20 


44.1 


4.997 


lO 


4 


53 25.06 


3.3827 


23 


5 6.8 


0.764 


10 


6 44 7.99 


2.30B6 


21 


15 


43.6 


5.060 


II 


4 


55 47-96 


2.3806 


23 


5 48.6 


0.629 


II 


6 46 20.36 


3.3038 


21 


10 


36.9 


9.X63 


12 


4 


58 10.73 


a. 3784 


23 


6 22.3 


0.495 


12 


6 48 32.45 


a.i99t 


31 


5 


24.0 


5.165 


13 


5 


33.37 


3.3763 


23 


6 48.0 


0.361 


13 


6 50 44.25 


3.1943 


21 





5.1 


S.366 


14 


5 


2 55.87 


a. 3738 


23 


7 5.6 


0.237 


14 


6 52 55-77 


3.X896 


20 


54 


40.1 


5. 466 


15 


5 


5 18.23 


3.37«5 


23 


7 15.2 


+0.093 


15 


6 55 7.00 


8.X848 


20 


49 


9.2 


S.564 


i6 


5 


7 40.45 


3.3691 


23 


7 16.8 


-0.040 


16 


6 57 17.94 


2.1799 


20 


43 


32.4 


5.663 


17 


5 


10 2.52 


3.3665 


23 


7 10.4 


0.X73 


17 


6 59 28.59 


2.175a 


20 


37 


49.7 


5.760 


i8 


5 


12 24.43 


3.3639 


23 


6 56.1 


0.304 


18 


7 I 38.96 


8.1703 


20 


32 


1.2 


9.856 


19 


5 


14 46.19 


2.3613 


23 


6 33.9 


0.436 


19 


7 3 49.03 


3.1654 


20 


26 


7.0 


9.99X 


20 


5 


17 7.78 


3.3584 


23 


6 3.8 


0.568 


20 


7 5 58.81 


3.X606 


20 


20 


7.x 


6.Q46 


21 


5 


19 29.20 


a. 3556 


23 


5 25.8 


0.698 


21 


7 8 8.30 


8.1558 


20 


14 


X.5 


6.X40 


1 22 


5 


21 50.45 


3. 3587 


23 


4 40.1 


0.838 


22 


7 10 17.50 


S.XS09 


20 


7 


50.3 


6.833 


23 


5 


24 11.52 


3.3497 


23 


3 46.5 


0.958 


23 


7 Z2 26.41 


3.X46I 


20 


I 


33.6 


6.333 


a4 


5 


26 32.41 


3.3466 


N.23 


2 45- X 


X.088 


24 


7 14 35-03 


a. 14x3 


N.I9 


55 


11.5 


6.4x4 



X. 



NOVEMBER, 1899. 



191 









GREENWICH 


MEAN 


TIME. 










1 




THE MOON'S RIGHT 


ASCENSION AND DECLINATION. 








1 
Hoar. 


Right 


Diff. for 


Declination. 


Diir. for 


Hour. 




RiRht 


Diff. for 


Declination. 


Diff. for 




Ascension. 


I Minute. 




X Minute. 




Ascension. 


I Minute. 








X Minute. 




Tl 


JESDA' 


y ai. 








THURSDAY 23. 








h m • 


• 


• • IT 


w 




h 


m 8 


8 


e 


t 


m 


M 


O 


7 14 35.03 


«.X4X3 


N.19 55 11.5 


6.4x4 





8 


52 382 


X.9314 


N.I3 


19 


25.4 


9.75a 


I 


7 16 43-36 


a. 1363 


19 48 43.9 


6.504 


I 


8 


53 59.60 


1.9279 


13 


9 


38.8 


9.802 


2 


7 18 51.39 


a. 1315 


19 42 II.O 


6.593 


2 


8 


55 55-17 


x.9a45 


12 


59 


49.2 


9.853 


3 


7 20 59.14 


3.xa67 


19 35 32.7 


6.688 


3 


8 


57 50.54 


X.92X2 


12 


49 


56.6 


9.900 


1 4 


7 23 6.60 


3.X218 


19 28 49.2 


6.768 


4 


8 


59 45.71 


X.9X78 


12 


40 


1.2 


9.948 


5 


7 25 13.76 


a.zz69 


19 22 0.5 


6.855 


5 


9 


I 4.0.68 


X.9X45 


12 


30 


2.9 


9.994 


6 


7 27 20.63 


a.xxn 


19 15 6.6 


6.941 


6 


9 


3 35.45 


X.9I13 


12 


20 


1.9 


xo.a40 


7 


7 29 27.22 


a. 1074 


19 8 7.6 


7.M5 


7 


9 


5 30.03 


X.908X 


12 


9 


58.1 


10.086 


8 


7 31 33.52 


3.1096 


19 I 3.6 


7.108 


8 


9 


7 24.42 


X.9049 


II 


59 


51.6 


X0.X31 


9 


7 33 39.53 


2.0978 


18 53 54.6 


7.192 


9 


9 


9 18.62 


X.90I8 


II 


49 


42.4 


xo. 176 


lO 


7 35 45.25 


8.0929 


18 46 40.6 


7.274 


10 


9 


II 12.64 


X.8988 


II 


39 


30.5 


10.2x9 


II 


7 37 50.68 


3.0883 


18 39 21.7 


7.354 


II 


9 


13 6.48 


X.8958 


II 


29 


16. 1 


xo. 261 


Z2 


7 39 55.83 


a.0834 


18 31 58.1 


7-433 


12 


9 


15 0.14 


X.8989 


II 


x8 


59.2 


XO.303 


13 


7 42 0.69 


2.0787 


18 24 29.7 


7.513 


13 


9 


16 53.63 


X.8900 


II 


8 


39.7 


X0.345 


14 


7 44 5.27 


3.0740 


18 16 56.5 


7.59a 


14 


9 


18 46.94 


X.8878 


10 


58 


17.8 


10.385 


15 


7 46 9.57 


3.0693 


18 9 18.7 


7.669 


15 


9 


20 40.09 


1.8844 


10 


47 


53.5 


X0.425 


i6 


7 48 13.59 


3.0647 


18 I 36.2 


7.746 


16 


9 


22 33.07 


X.8817 


10 


37 


26.8 


10.463 


17 


7 50 17.33 


2.0600 


17 53 49.2 


7.821 


17 


9 


24 25.89 


X.879X 


10 


26 


57.7 


X0.504 


i8 


7 52 20.79 


2.0553 


17 45 57.7 


7.896 


18 


9 


26 18.56 


1.8765 


10 


16 


26.3 


xo.54a 


19 


7 54 23.97 


3.0507 


17 38 1.7 


7.970 


19 


9 


28 11.07 


1.8739 


10 


5 


52.7 


X0.579 


20 


7 56 26,87 


S.046X 


17 30 1.3 


8.043 


20 


9 


30 3.43 


X.8714 


9 


55 


16.8 


xo.6x6 


21 


7 58 29.50 


8.0416 


17 21 56.6 


8.XZ4 


21 


9 


31 55.64 


X.8690 


9 


44 


38.8 


10.653 


22 


8 31.86 


8.0370 


17 13 47.6 


8.186 


22 


9 33 47.71 


X.8667 


9 


33 


58.6 


X0.688 


23 


8 2 33.94 
WE 


2.0335 
DNESD 


N.17 5 34.3 
>AY 22. 


8.257 


23 


9 


35 39.64 
F 


X.8643 

RIDAY 


N. 9 
24. 


23 


16.3 


X0.783 





8 4 35.76 


t.028x 


N.16 57 16.8 


8.337 





9 


37 31.43 


X.8621 


N. 9 


12 


31.9 


XO.757 


z 


8 6 37.31 


3.0236 


16 48 55.1 


8.395 


I 


9 


39 23.09 


X.8598 


9 


I 


45.5 


X0.790 


2 


8 8 38.59 


8.0x93 


16 40 29.4 


8.46a 


2 


9 


41 14.61 


1.8577 


8 


50 


57.1 


10.823 


3 


8 10 39.61 


8.0x48 


16 31 59.7 


8.529 


3 


9 


43 6.01 


X.8556 


8 


40 


6.8 


X0.855 


4 


8 12 40.37 


3.0Z04 


16 23 25.9 


8.597 


4 


9 


44 57.28 


Z.8536 


8 


29 


14.5 


10.887 


5 


8 14 40.86 


2.006X 


16 14 48.1 


8.662 


5 


9 


46 48.44 


X.8517 


8 


18 


20.3 


ZO.918 


6 


8 16 41.10 


2.0018 


16 6 6.5 


8.726 


6 


9 


48 39.48 


X.8498 


8 


7 


24.3 


10.948 


7 


8 18 41.08 


X.9976 


15 57 21.0 


8.790 


7 


9 


50 30.41 


1.8478 


7 


56 


26.5 


XO.978 


8 


8 20 40.81 


1.9934 


15 48 31.7 


8.853 


8 


9 


52 21.22 


1.84G0 


7 


45 


26.9 


ix.ooS 


9 


8 22 40.29 


X.9893 


15 39 38.7 


8.914 


9 


9 


54 11-93 


X.8443 


7 


34 


25.6 


XZ.036 


10 


8 24 39.51 


X.9850 


15 30 42.0 


8.976 


10 


9 


56 2.54 


X.8427 


7 


23 


22.6 


XX.064 


II 


8 26 38.49 


1.9809 


15 21 41.6 


9.037 


II 


9 


57 53-05 


1.84x0 


7 


12 


17.9 


11.092 


12 


8 28 37.22 


Z.9768 


15 12 37>6 


9.096 


12 


9 


59 43.46 


1.8394 


7 


I 


II. 6 


XZ.IX8 


13 


8 30 35.71 


1.9728 


15 3 30.1 


9.155 


13 


10 


I 33.78 


1.8380 


6 


50 


3-7 


XX.X45 


14 


8 32 33.96 


1.9688 


14 54 19.0 


9.2x3 


14 


10 


3 24.02 


1.8366 


6 


38 


54.2 


II. 171 


15 


8 34 31.97 


1.9649 


14 45 4.5 


9.27X 


15 


10 


5 14.17 


K8352 


6 


27 


43.2 


II. 195 


16 


8 36 29.75 


X.96XZ 


14 35 46.5 


9.3«8 


16 


10 


7 4.24 


1.8339 


6 


16 


30.8 


IX. 219 


17 


8 38 27.30 


x.957a 


14 26 25.2 


9.38s 


17 


10 


8 54.24 


1.8327 


6 


5 


16.9 


11.244 


18 


8 40 24.61 


Z'9S33 


14 17 0.5 


9.438 


18 


10 


10 44.16 


1.83x4 


5 


54 


1.5 


XX. 267 


19 


8 42 21.70 


X.9496 


14 7 32.6 


9.493 


19 


10 


12 34.01 


1.8303 


5 


42 


44.8 


11.289 


' 20 


8 44 18.56 


1.9*58 


13 58 1.4 


9.546 


20 


10 


14 23.80 


X.8293 


5 


31 


26.8 


IX. 312 


; ai 


8 46 15.20 


1.9433 


13 48 27.1 


9.598 


21 


10 


16 13.52 


Z.8283 


5 


20 


7.4 


".333 


22 


8 48 11.62 


1.9386 


13 38 49.6 


9.65Z 


22 


10 


18 3.19 


X.8373 


5 


8 


46.8 


11.354 


23 


8 50 7.83 


X.9350 


13 29 9.0 


9.70a 


23 


10 


19 52.80 


X.8264 


4 


57 


24.9 


IX. 375 


«4 


8 52 3.82 


X.93X4 


N.13 19 25.4 


9.75a 


24 


10 


21 42.36 


X.8257 


N. 4 


46 


1.8 


XX.394 



192 



NOVEMBER, 1899. 



XL 









GREENWICH 


MEAN 


TIME. 










THE MOON'S RIGHT 


ASCENSION AND DECLINATION, 




Hour. 


Right 
Ascensioa 


DiflE. for 
X Minute. 


Declination. 


Dlff. for 
X Minate. 


Hoar. 


Right 
Aacenaion. 


Diff. for 
X Minute. 


OeclinatioiL 


DiS. for 
z Minate. 




S^ 


LTURDi 


\Y 25. 








MONDAY 27. 






h m a 


a 


» • 


• 






m ■ 


a 


• • » 


• 


O 


lO 21 42.36 


1.8257 


N. 4 46 1.8 


IX.394 





ZI 


49 36.22 


1.8615 


S. 4 32 30.8 


XZ.645 


Z 


10 23 31.88 


i.8a49 


4 34 37.6 


XX.4X3 


Z 


II 


51 27.98 


X.8638 


4 44 9.2 


XX. 635 


2 


10 25 21.35 


1.8243 


4 23 12.2 


ZZ.433 


2 


II 


53 X9.88 


1.8663 


4 55 47.0 


ZX.624 


3 


10 27 10.78 


1.8235 


4 " 45-7 


X1.450 


3 


II 


55 X1.93 


X.8687 


5 7 24.1 


XZ.6Z3 


4 


10 29 0.17 


Z.8229 


4 18.2 


ZZ.468 


4 


II 


57 4-12 


X.87X3 


5 19 0.5 


XX. 600 


5 


10 30 49.53 


Z.822S 


3 48 49.6 


ZI.484 


5 


II 


58 56.47 


X.8738 


5 30 36. z 


XX. 587 


6 


10 32 38.87 


I.823Z 


3 37 20.1 


ZZ.500 


6 


Z2 


48.98 


Z.8764 


5 42 10.9 


XX. 573 . 


7 


10 34 28.18 


X.82Z7 


3 25 49-6 


".5x7 


7 


12 


2 41.64 


Z.879Z 


5 53 44.9 


XX. 559 


8 


10 36 17-47 


Z.83I3 


3 14 i8-i 


zz.53a 


8 


Z2 


4 34.47 


Z.88Z9 


6 5 18.0 


11.543 , 


9 


10 38 6.74 


I.83IZ 


3 2 45.8 


11.546 


9 


Z2 


6 27.47 


Z.8848 


6 16 50.1 


XX.528 


10 


10 39 56.00 


Z.8209 


2 51 12.6 


ZX.560 


10 


12 


8 20.64 


X.8877 


6 28 21.3 


XX.5XX 


IZ 


10 41 45.25 


1.8208 


2 39 38.6 


XX. 573 


II 


12 


10 13.99 


Z.8906 


6 39 51.4 


11.493 


12 


10 43 34.50 


Z.830B 


2 28 3.8 


XX. 586 


12 


12 


12 7.51 


Z.8936 


6 51 20.5 


XX.475 


13 


10 45 23.74 


1.8208 


2 16 28.3 


XX. 598 


X3 


12 


14 1.22 


X.8967 


7 2 48.4 


X1.456 


14 


10 47 12.99 


X.8208 


2 4 52.0 


XI.6Z0 


X4 


12 


X5 55.XI 


1.8998 


7 X4 15.2 


XX. 437 


15 


10 49 2.24 


z.8ao9 


I 53 15. 1 


XX.62X 


15 


12 


17 49.20 


1.9031 


7 25 40.8 


".4x7 


z6 


10 50 51.50 


x.8ai2 


I 41 37.5 


XX. 633 


16 


12 


19 43.48 


1.9063 


7 37 5.2 


11-395 


17 


10 52 40.78 


Z.82Z4 


I 29 59.3 


ZZ.64X 


17 


12 


21 37.96 


i,yugy 


7 48 28.2 


11.373 


i8 


xo 54 30.07 


z.8ai7 


I 18 20.6 


XX. 650 


18 


12 


23 32.64 


1.9131 


7 59 49.9 


XX.350 


19 


10 56 19.38 


Z.822X 


z 6 41.3 


XI. 659 


19 


12 


25 27.53 


1.9x65 


8 II 10.2 


XZ.336 


20 


10 58 8.72 


1.8226 


55 1.5 


XX. 668 


20 


12 


27 22.62 


1.9300 


8 22 29.0 


XX. 30a 


21 


zo 59 58.09 


Z.8231 


43 21.2 


IX.675 


21 


Z2 


29 17.93 


X.9336 


8 33 46.4 


11.377 


22 


IZ z 47.49 


1.8237 


31 40.5 


ZZ.683 


22 


Z2 


3X X3.45 


x.9a73 


8 45 2.2 


XX. BSD 


23 


" 3 36.93 
S 


1.8343 

UN DA) 


N. Z9 59.4 
f 26. 


XX.688 


23 


Z2 


33 9.19 
Tl 


X.9308 

JESDA 


S. 8 56 16.4 

y 28. 


xz.sas 


O 


ZI 5 26.41 


1.8351 


N. 8 Z7.9 


XX.694 





Z3 


35 5.X5 


X.9346 


S. 9 7 29.0 


XI.Z96 


z 


II 7 15.94 


1.8258 


S. 3 23.9 


XX.699 


I 


Z2 


37 X.34 


X.938S 


9 x8 39.9 


XZ.Z67 


2 


" 9 5.51 


Z.82G7 


Z5 6.0 


X1.704 


2 


12 


38 57.77 


X.9424 


9 29 49.0 


11.137 


3 


II 10 55.14 


1.8370 


26 48.4 


XZ.708 


3 


12 


40 54.43 


1.9463 


9 40 56.3 


XZ.X07 


4 


II 12 44.82 


X.828S 


38 31.0 


XX.71X 


4 


Z2 


42 51.32 


X.9503 


9 52 1.8 


IZ.076 1 


5 


II 14 34.56 


1.8393 


50 13.7 


XI. 713 


5 


Z2 


44 48.46 


1.9543 


zo 3 5.4 


XX.043 ; 


6 


II 16 24.36 


Z.8306 


I z 56.6 


ZX.7X7 


6 


12 


46 45.84 


1.9584 


10 14 7.0 


xz.oxo 


7 


II 18 14.23 


1.83x8 


X 13 39.7 


XX. 718 


7 


Z2 


48 43.47 


X.9686 


10 25 6.6 


X0.977 


8 


II 20 4.18 


1.833X 


z 25 22.8 


XX.7Z8 


8 


Z2 


50 4X.35 


Z.9668 


10 36 4. a 


xo.94a 


9 


II 21 54.20 


1.8343 


X 37 5.9 


XZ.7Z8 


9 


Z2 


52 39.49 


x.gTxx 


10 46 59.6 




lO 


" 23 44.30 


x-8357 


z 48 49.0 


ZZ.7Z8 


zo 


12 


54 37.88 


X.97S4 


xo 57 52.9 


XO.870 


ZI 


XI 25 34.48 


X.8S7X 


2 32.1 


ZZ.7X8 


zz 


Z2 


56 36.54 


X.9798 


zz 8 44.0 


xo.83a 


12 


II 27 24.75 


Z.8386 


2 Z2 15. Z 


XX. 7x6 


Z2 


Z2 


58 35.46 


X.9843 


II 19 32.7 


»-7W 


13 


II 29 15.11 


1.8403 


2 23 58.0 


X1.713 


X3 


13 


34.65 


X.9888 


zz 30 19.Z 


xo-rss 


14 


" 31 5.57 


Z.8418 


2 35 40.7 


ZI.7XZ 


X4 


X3 


2 34.XI 


X.9933 


XI 41 3.x 


X0.71S 


X5 


II 32 56.13 


1.8*33 


2 47 23.3 


XX.708 


X5 


X3 


4 33.84 


X.9978 


XI 51 44-7 


xo 671 


i6 


II 34 46.79 


z.843» 


2 59 5.6 


XZ.703 


z6 


X3 


6 33.85 


S«003S 


Z2 a 23.7 


xo.6a9 


17 


" 36 37.55 


X.8470 


3 zo 47.6 


XZ.698 


X7 


X3 


8 34. X4 


•.0073 


Z2 Z3 aa 


10.386 


i8 


II 38 28.43 


Z.8489 


3 22 29.3 


XX. 693 


z8 


X3 


10 34.72 


8.0X90 


Z2 23 34.0 


I0.S4S 


19 


IZ 40 19.42 


Z.8S06 


3 34 10.7 


XX.687 


X9 


X3 


X2 35.58 


«.0Z68 


12 34 5.2 


so. 497 


20 


ZI 42 10.53 


Z.8538 


3 45 5x7 


XX.679 


20 


X3 


X4 36.73 


■•03X6 


xa 44 33.6 


10.450 


21 


zz 44 1.76 


x.854« 


3 57 32.2 


XX.67S 


21 


13 


16 38. Z7 


t.036s 


X2 54 59.2 


X0.40S 


22 


ZI 45 53." 


X.8570 


4 9 12.3 


11.66$ 


22 


X3 


z8 39.9Z 


S.QSXS 


X3 5 21.9 


X«.554 


23 


zz 47 44.60 


X.8S0S 


4 20 SZ.8 


XI.654 


23 


X3 


20 4Z.95 


t*09fl4 


X3 X5 41-7 


xo.yis 


24 


zz 49 36.22 


x.8exs 


S. 4 32 30.8 


11.645 


24 


X3 


aa 44.a8 


•.0414 


S.13 25 58.5 


W.1S5 



xn. 



NOVEMBER, 1899. 



193 







GREENWICH 


MEAN TIME. 




THE MOON'S RIGHT 


ASCENSION AND DECLINATION. 


Hour. 


Right 


Diff . for 


Declination. 


DiiLfor 


Hoar. 


Right DifE.for 


DAellnatlnn. 


Die for 




Aicengioa 


I Minute. 




X Minute. 




Ascensioa 


X Mixiute. 


X Minate. 




WEDNESDAY 29. 






FRIDAY, DECEMBER x. 




h m ■ 


t 


> • 


m 




h m 8 8 


Q t m m 


O 

I 


13 22 44.28 
13 24 46.92 


S.0414 
a.0465 


S.I3 25 58.5 
X3 36 12.3 


10.955 
10.303 





15 7 8.30 8.3143 


S.20 x8 49.8 6.493 






2 


13 26 49.86 


3.05x6 


13 46 22.9 


XO.XSZ 






3 


13 28 53«" 


3.0568 


13 56 30.4 


Xe.098 






4 


X3 30 56.68 


3.062Z 


14 6 34.6 


10.043 






5 


13 33 0-56 


a. 0673 


14 16 35.5 


9.987 






6 


13 35 4-75 


3.0726 


14 26 33.0 


9.930 






7 


X3 37 9-27 


3.0780 


14 36 27.1 


9.873 




• 


8 


13 39 X4-" 


3.0833 


14 46 17.7 


9.8x3 






9 


13 41 19.27 


S.0887 


14 56 4.7 


9.75s 






lO 


13 43 24.75 


3.094a 


15 5 48.0 


9.693 






Il- 


13 45 30.57 


«.0JW7 


15 15 27.7 


9.^ 






ia 


13 47 36.71 


3.Z0S2 


15 25 3.6 


9.367 






13 


13 49 43-19 


3.ZXO8 


15 34 35.7 


9.5P3 






M 


13 51 50-00 


■•Z163 


15 44 3.9 


9'437 






15 


13 53 57.14 


8.13X8 


15 53 28.1 


9.369 






i6 


13 56 4.62 


3.X375 


16 2 48.2 


9. 308 






17 

i8 


13 58 12.44 
X4 20.60 


3.IS33 

3.1389 


16 12 4.3 
16 21 16. 1 


9.333 
9.X63 




PHASES OF THE MOON. 


19 

20 


14 2 29.11 
14 4 37-96 


a.X447 


16 30 23.7 
16 39 27.0 


r 9.091 
9.0x8 










21 


14 6 47.15 


3.Z56X 


16 48 25.9 


8.944 




d h m 


22 


14 8 56.69 


3.z6x9 


16 57 20.3 


8.869 


• 


New Moon • • • . Nov. a 22 26.6 


23 


14 XX 6.58 


3.X677 S.17 6 10.2 


8.793 


5 


First Quarter •• ... xo i 34.9 




TH 


URSDAY 30. 







Fall Moon ...... x6 22 18.6 


O 


14 X3 x6.8i 


3. 1734 


S.17 14 55.4 


8.7x5 


C 


Last Quarter 24 18 34.6 


X 
2 


14 15 27.39 
14 17 38.33 


••17S» 
3.1853 


X7 23 36.0 
17 32 II. 8 


8.637 
8.557 










3 


14 19 49.62 


•.19XZ 


17 40 42.8 


8.476 




d h 


4 


14 22 1.26 


3.1^ 


17 49 8.9 


8.393 


C 


Perigee Nov. xa 0.3 


5 
6 


14 24 13.25 
14 26 25.60 


3.9D90 
3.3P88 


17 57 30.0 

18 5 46.x 


8.SZ0 
8ui3S 


c 


ApOGfee ••oao... ^A ron 


«A||rvrgvw ..«•«... W 


'^ "j'-y 1 


7 
8 


X4 28 38.30 
14 30 51.36 


a. 3147 
3.3006 


18 13 57.0 
18 22 2.8 


8.139 
8.053 










9 


14 33 4.77 


3.9064 


18 30 3.3 


7.965 






xo 


14 35 18.53 


3.391Q 


18 37 58.5 


7.875 






XX 


14 37 32.65 


3.338s 


x8 45 48.3 


7.784 






X2 


14 39 47.12 


3.3443 


x8 53 32.6 


7.693 






13 


X4 42 1.95 


3.3501 


19 I II. 4 


7*599 






14 


X4 44 17.13 


3.3560 


19 8 44.5 


7.504 






15 


14 46 32.67 


3.96x9 


19 16 II. 9 


7.408 




. 


x6 


X4 48 48.56 


8.3678 


19 23 33-5 


7.318 






17 


14 51 4.80 


3.3737 


19 30 49.3 


7.313 






x8 


14 53 21.40 


3.3796 


19 37 59' I 


7.114 






19 


14 55 38.35 


3.3854 


19 45 3.0 


7.0x4 






20 


14 57 55.65 


3.39x3 


19 52 0.8 


6.9x8 






2X 


15 13.29 


3.3969 


19 58 52.4 


6.809 






22 


X5 2 31.28 


3.3038 


20 5 37.9 


6.703 






23 


15 4 49.62 


3.3085 


20 12 X7.0 


6.599 






24 


X5 7 8.30 


t.3i4S 


S.20 18 49.8 


6.493 







13 



U^t 



NOVEMBER, 1899. 



XIII. 



!. 






GREENWICH MEAN TIME. 


















LUNAR DISTANCES. 










1 


3, 


i 






P.L. 




P.L. 




P.L. 




P.L. 


X S H«tM* »nd Directtcm 


Noon. 


of 


Illh. 


of 


Vlh. 


of 


IXh. 


of 


' 


^ 5 ■ - 


of Object 






Diff. 




DiflE. 




DiS. 




Dlft 










• f IV 




• • » 




e « H 




• t m 




t 


Pollux 


W. 


84 54 52 


4893 


86 27 20 


888z 


88 3 


2870 


89 33 


•839 






Regulus 


W. 


47 56 15 


3866 


49 29 17 


2855 


51 2 34 


2842 


52 36 8 


2830 






Sun 


£. 


23 9 31 


3248 


21 44 19 


3242 


20 19 


3239 


18 53 37 


3239 




4 


Sun 


W. 


13 3 21 


S0S3 


14 32 28 


3oai 


16 2 15 


2993 


17 32 36 


2970 






a Aqoilae 


E. 


70 7 3 


3"7 


68 39 14 


3120 


67 II 29 


3124 


65 43 49 


3130 






Fomalhattt 


E. 


96 22 23 


305a 


94 53 14 


3040 


93 23 51 


3030 


91 54 15 


3019 






o Pegasi 


£. 


116 30 40 


2750 


"4 55 6 


^737 


113 19 15 


2723 


III 43 6 


«7" 


■ 

1 


5 


Sun 


W. 


as 10 41 


1887 


26 43 17 


2874 


28 16 9 


286a 


29 49 16 


•851 






a Aquilae 


E. 


58 27 58 


3x88 


57 I 34 


3206 


55 35 32 


3227 


54 9 55 


3252 


1 




Fomalhaut 


E. 


84 23 32 


9984 


82 52 59 


2979 


81 22 20 


2976 


79 51 37 


2973 


1 




a Pegasi 


£. 


103 38 24 


2655 


102 44 


3643 


100 22 50 


2636 


98 44 44 


2627 




6 


Sun 


W. 


37 38 14 


3803 


39 12 38 


a795 


40 47 13 


2787 


42 21 58 


2779 






Venus 


W. 


24 25 21 


2887 


25 57 56 


2879 


27 30 42 


2869 


29 3 40 


2862 






M.\RS 


W. 


19 10 58 


2697 


20 47 42 


2689 


22 24 36 


2681 


24 1 41 


2674 






Fomalhaut 


E. 


72 17 42 


2977 


70 47 


2981 


69 16 24 


2987 


67 45 55 


9995 






a Pegasi 


E. 


90 31 22 


3588 


88 52 iz 


2582 


87 12 51 


2576 


85 33 23 


2570 




7 


Sun 


W. 


50 18 13 


«744 


51 53 55 


2737 


53 29 46 


•73X 


55 5 45 


2724 






Venus 


W. 


36 51 5 


2823 


38 25 3 


28x7 


39 59 9 


2810 


41 33 24 


•803 






Mars 


W. 


32 9 29 


2640 


33 47 29 


2633 


35 25 37 


2628 


37 3 54 


2623 






Antares 


W. 


27 25 23 


2439 


29 8 2 


*430 


30 50 54 


2422 


32 33 58 


2414 






Fomalhaut 


E. 


60 16 30 


3058 


58 47 29 


3076 


57 18 50 


3097 


55 50 37 


3122 






a Pegasi 


E. 


77 14 14 


2547 


75 34 6 


2S44 


73 53 54 


9541 


72 13 38 


9539 






a Arietis 


E. 


120 18 24 


2439 


"8 35 45 


t432 


116 52 56 


9426 


"5 9 58 


2420 




8 


Sun 


W. 


63 7 40 


2696 


64 44 25 


2691 


66 21 17 


2686 


67 58 16 


2681 






Venus 


W. 


49 26 40 


2775 


51 I 41 


2769 


52 36 50 


2764 


54 12 5 


2759 






Mars 


W. 


45 17 9 


2596 


46 56 10 


2591 


48 35 17 


2587 


50 14 30 


25^2 






Antares 


W. 


41 II 52 


2381 


42 55 54 


2375 


44 40 4 


2370 


46 24 22 


2364 






Saturn 


W. 


27 24 7 


2398 


29 7 44 


2394 


30 51 28 


2389 


32 35 »9 


•384 . 






a Pegasi 


E. 


63 51 43 


2535 


62 11 18 


•536 


60 30 55 


2538 


58 50 34 


«539 






a Arietis 


£. 


106 33 3 


239a 


104 49 17 


2387 


103 5 23 


2382 


loi 21 22 


2378 




9 


Sun 


W. 


76 4 47 


2658 


77 42 23 


2654 


79 20 5 


2649 


80 57 53 


2646 ' 






Vends 


W. 


62 9 59 


• 2735 


63 45 52 


2731 


65 21 51 


2726 


66 57 56 


2722 






Mars 


W. 


58 32 II 


2360 


60 12 I 


2556 


61 51 57 


2552 


63 31 58 


254S 






Antares 


W. 


55 7 42 


2341 


56 52 42 


2337 


58 37 4^^ 


2333 


60 23 


2328 






Saturn 


W. 


41 16 8 


2363 


43 36 


2359 


44 45 9 


2355 


46 29 48 


•352 






a Pegasi 


E. 


50 30 3 


■367 


48 50 23 


2576 


47 10 55 


2587 


45 31 42 


2601 ' 


1 




a Arietis 


E. 


92 39 42 


2356 


90 55 4 


2352 


89 10 20 


2348 


87 25 31 


n4s 






Aldebaran 


E. 


125 36 3 


2372 


123 51 48 


2^66 


122 7 25 


2362 


120 22 55 


2336 




lO 


Sun 


W. 


89 8 10 


2627 


90 46 28 


2A24 


92 24 50 


2621 


94 3 17 


t6i8 






Venus 


W. 


74 59 3« 


2r<H 


76 36 13 


2700 


78 12 53 


2697 


79 49 37 


2693 






Mars 


\V. 


71 53 19 


2530 


73 33 50 


25«r 


75 14 25 


2525 


76 55 4 


2522 






Antares 


W. 


69 10 24 


2311 


70 56 8 


23<»r 


72 41 57 


^304 


74 27 50 


2301 






Saturn 


W. 


55 14 20 


2335 


56 59 29 


2332 


58 44 42 


2^29 


60 29 59 


■326 






a Arietis 


E. 


78 40 12 


2329 


76 54 55 


23^6 


75 9 34 


2>24 


73 24 10 


2322 






Aldebaran 


E. 


zxi 38 40 


2335 


109 53 31 


8331 


108 8 16 


UV 


106 22 56 







XIV. 



NOVEMBER, 1899. 



195 



1 




GREENWICH MEAN TIME. 












LUNAR DISTANCEa 


h 








P.L. 




P.L. 






P.L. 






P.L. 


n 


Name and Direction | 


Midnight 


of 


xvi>. 


of 


XVIIIh. 


of 


XXIh- 


of 


^ 


of Object. 




%# 


Diff. 




Diff. 






Diff. 






DifE. 








• m 




• f m 




• 


m 




• 


m 




I 


Pollux 


W. 


91 6 iz 


9848 


92 39 36 


2838 


94 X3 


15 


2827 


95 47 


8 


28x7 




Regulus 


W. 


54 9 57 


2818 


55 44 2 


2806 


57 18 


22 


2795 


58 52 


57 


2782 




Sun 


E. 


17 28 14 


SHI 


16 2 53 


3246 


14 37 38 


3256 


13 12 


35 


3274 


4 


Sun 


W. 


19 3 26 


9950 


20 34 42 


•931 


22 6 


22 


2915 


23 38 


22 


2900 


9 


a Aquilae 


E. 


64 16 16 


3x38 


62 48 52 


3148 


61 2Z 


40 


3158 


59 54 


41 


3x72 




Fomalhaut 


E. 


90 24 26 


301 1 


88 54 27 


3002 


87 24 


17 


2995 


85 53 


58 


2989 




a Pegasi 


E. 


no 6 41. 


9698 


108 29 59 

• 


2687 


106 53 


2 


2676 


105 15 


50 


9666 


5 


Sun 


W. 


31 22 38 


2841 


32 56 13 


•83X 


34 30 


I 


2821 


36 4 


X 


28xz 




a Aquilae 


E. 


52 44 47 


3280 


51 20 12 


33XX 


49 56 


13 


3346 


48 32 


55 


3387 




Fomalhaut 


E. 


78 20 51 


2972 


76 50 3 


«97a 


75 19 


15 


9973 


73 48 


28 


2973 




a Pegasi 


E. 


97 6 26 


26x8 


95 27 56 


•610 


93 49 


15 


2603 


92 10 


24 


2595 


6 


Sun 


W. 


43 56 54 


2771 


45 32 


a7«4 


47 7 


15 


2756 


48 42 


40 


2750 




Venus , 


W. 


30 36 48 


«853 


32 10 7 


2845 


33 43 


37 


2838 


35 17 


16 


2830 




Mars 


W. 


25 38 56 


8666 


27 t6 21 


2660 


28 53 


55 


2653 


30 31 


38 


2647 




Fomalhaut 


E. 


66 15 36 


3003 


64 45 27 


30x4 


63 15 


32 


3026 


61 45 


52 


304X 




a Pegasi 


E. 


83 53 47 


S564 


82 14 3 


2560 


80 34 


13 


2555 


78 54 


16 


2SSX 


7 


Sun 


W. 


56 41 53 


«7X9 


58 18 8 


V^Z 


59 54 


31 


2707 


61 31 


2 


870Z 




Venus 


W. 


43 7 48 


«797 


44 42 20 


2792 


46 16 


59 


2785 


47 51 


46 


2780 




Mars 


W. 


38 4a ^8 


2617 


40 20 50 


26x2 


41 59 


29 


2607 


43 38 


15 


260Z 




Antares 


W. 


34 17 13 


2406 


36 39 


2400 


37 44 


14 


2393 


39 27 


59 


2387 




Fomalhaut 


E. 


54 22 54 


3x49 


52 55 44 


3x80 


51 29 


II 


32x5 


50 3 


20 


3237 




a Pegasi 


E. 


70 33 19 


8537 


68 52 57 


«535 


67 12 


33 


2535 


65 32 


8 


2535 




a Arietis 


E. 


113 26 52 


0414 


"I 43 37 


t4o8 


no 


13 


2403 


108 16 


42 


2S97 


8 


Sun 


W. 


69 35 22 


2676 


71 12 34 


2672 


72 49 


52 


2666 


74 27 


17 


2663 




Venus 


W. 


55 47 27 


8753 


57 22 56 


2749 


58 58 


31 


2744 


60 34 


12 


2740 




Mars 


W. 


51 53 50 


2577 


53 33 16 


2573 


55 12 


48 


2568 


56 52 


27 


2564 




Antares 


W. 


48 8 48 


a359 


49 53 21 


2355 


51 38 


I 


2350 


53 22 


48 


2345 




Saturn 


W. 


34 19 16 


2380 


36 3 20 


2375 


37 47 


30 


2371 


39 31 


46 


2367 




a Pegasi 


E. 


57 10 15 


2543 


55 30 I 


2548 


53 49 


54 


2553 


52 9 


54 


2559 




a Arietis 


E. 


99 37 15 


2373 


97 53 I 


2368 


96 8 


41 


2364 


94 24 


14 


2360 


9 


Sun 


W. 


82 35 46 


2642 


84 13 44 


•638 


85 51 


48 


2634 


87,29 


57 


2Q3I 




Venus 


W. 


68 34 6 


27x9 


70 10 21 


2714 


71 46 


42 


2710 


73 23 


8 


2707 




Mars 


W. 


65 12 4 


8544 


66 52 16 


2541 


68 32 


32 


2538 


70 12 


53 


2534 




Antares 


W. 


62 8 18 


3394 


63 53 42 


2321 


65 39 


II 


23x7 


67 24 45 


23x4 




Saturn 


W. 


48 14 32 


3348 


49 59 21 


2344 


51 44 


16 


234X 


53 29 


16 


2338 




a Pegasi 


E. 


43 52 48 


26x5 


42 14 14 


2633 


40 36 


4 


2653 


38 58 


21 


2678 




a Arietis 


E. 


85 40 37 


2343 


83 55 38 


2338 


82 10 


34 


2335 


80 25 


25 


2332 




Aldebaran 


E. 


118 38 17 


235X 


"6 53 32 


2347 


115 8 


41 


2343 


113 23 


44 


2338 


lO 


Sun 


W. 


95 4t 48 


26x5 


97 20 23 


2612 


98 59 


I 


26X0 


100 37 


43 


2607 




Venus 


W, 


81 26 26 


2690 


83 3 19 


2688 


84 40 


15 


2685 


86 17 


15 


2682 




Mars 


W. 


78 35 47 


25x9 


80 16 34 


2Si6 


81 57 


25 


25x4 


83 38 


19 


2511 




Antares 


W. 


76 13 48 


2299 


77 59 49 


2296 


79 45 


55 


2294 


81 32 


4 


229X 




Saturn 


W. 


62 15 21 


2323 


64 47 


23ax 


65 46 


16 


«3i8 


67 31 


49 


2316 




a Arietis 


E. 


71 38 43 


2320 


69 53 13 


2318 


68 7 


40 


23x6 


66 22 


4 


23x5 




Aldebaran 


E. 


104 37 31 


232X 


I02 52 2 


23x7 


loi 6 


28 


2315 


99 20 


50 


23x2 1 



196 



NOVEMBER, 1899. 



XV. 







GREENWICH MEAN TIME. 










t 






LUNAR DISTANCES. 














Name and Direction 


Noon. 


P.L. 
of 


Illb. 


P.L 

of 


VJh. 


P.L 

of 


IXh. 


P.L 

of 


r 


of Object 






Di£ 




Diff. 




Diff. 






Diff. 






• t m 




• r «p 




• '. • 




• 


9 m 




XX 


Sun 


W. 


X02 x6 29 


*)5 


103 55 17 


2602 


X05 34 9 


2600 


X07 


X3 4 


3999 




Venus 


W. 


87 54 X9 


a68o 


89 31 26 


2678 


91 8 36 


3675 


92 45 49 


2674 




Mars 


W. 


85 19 17 


3509 


87 18 


2507 


88 41 22 


85<H 


90 


22 29 


3503 




Saturn 


W. 


69 17 25 


2314 


71 3 4 


2311 


72 48 47 


2310 


74 


34 32 


2308 




a Aquilae 


W. 


38 I 43 


3741 


39 17 47 


3630 


40 35 49 


3SS3 


41 


55 37 


3446 




o Arietis 


E. 


64 36 26 


3313 


62 50 46 


23x3 


61 5 5 


23x2 


59 


19 23 


2311 




Aldebaran 


E. 


97 35 8 


«3xo 


95 49 23 


•307 


94 3 34 


2306 


92 


X7 43 


3304 


12 


Sun 


W. 


X15 28 9 


SS93 


117 7 15 


3593 


118 46 21 


3593 


120 


25 27 


359X 




Mars 


W. 


98 48 35 


•497 


100 29 53 


3497 


102 II XI 


3496 


103 


52 30 


349s 




Saturn 


W. 


83 23 51 


2303 


85 9 48 


9303 


86 55 45 


230X 


88 


41 43 


230X 




a Aquila 


W. 


48 55 56 


3x3s 


50 23 23 


3090 


51 51 45 


3050 


53 


20 56 


30x5 




a Arietis 


E. 


50 30 53 


33x5 


48 45 16 


«SX7 


46 59 41 


2320 


45 


14 10 


2322 




Aldebaran 


E. 


83 27 54 


S998 


81 41 52 


2298 


79 55 50 


2298 


78 


9 47 


2298 


13 


Saturn 


W. 


97 31 28 


2304 


99 17 22 


2306 


lox 3 13 


3307 


102 


49 2 


8309 




a Aquilae 


W. 


60 56 30 


2884 


62 29 9 


2866 


64 2 II 


8850 


65' 


35 34 


2836 




a Arietis 


E. 


36 28 I 


2350 


34 43 14 


2358 


32 58 39 


2366 


31 


14 19 


2382 




Aldebaran 


E. 


69 19 48 


23<H 


67 33 54 


2307 


65 48 4 


2309 


64 


2 17 


23x2 




Pollux 


E. 


XIX 9 47 


8337 


109 24 41 


3337 


X07 39 36 


8337 


X05 


54 31 


8339 


H 


a Aquilae 


W. 


73 26 17 


•791 


75 57 


2787 


76 35 42 


•784 


78 


10 31 


2782 




Fomalhaut 


W. 


48 17 57 


3189 


49 44 19 


3x47 


51 XI 32 


3XXO 


52 


39 30 


3076 




Aldebaran 


E. 


55 14 42 


3333 


53 29 31 


3339 


5x 44 28 


3346 


49 


59 35 


8353 




Pollux 


£. 


97 9 39 


2349 


95 24 51 


«S3 


93 40 8 


•357 


91 


55 31 


836X 


15 


a Aquilae 


W. 


86 4 42 


<79> 


87 39 21 


9796 


89 13 54 


•803 


90 


48 18 


86X0 




Fomalhaut 


W. 


60 7 59 


ages 


61 38 56 


•950 


63 10 12 


3938 


64 


41 43 


2928 




a Pegasi 


W. 


38 21 17 


2687 


39 58 15 


2666 


41 35 40 


8651 


43 


13 26 


2640 




Aldebaran 


£. 


41 18 


•398 


39 34 23 


24x0 


37 51 2 


8433 


36 


8 


3437 




Pollux 


E. 


83 14 12 


2389 


81 30 22 


3397 


79 46 43 


2404 


78 


3 14 


84" 


x6 


a Aquilae 


W. 


98 37 23 


2866 


100 10 26 


tSSo 


lOI 43 IX 


389s 


X03 


15 36 


29x2 




Fomalhaut 


W. 


72 21 33 


9907 


73 53 43 


«9«)B 


75 25 52 


2909 


76 


57 59 


2912 




a Pegasi 


W. 


51 25 14 


26x2 


53 3 53 


t6zx 


54 42 33 


26xt 


56 


21 12 


86x4 




Pollux 


E. 


69 28 56 


2460 


67 46 46 


•471 


66 4 52 


2482 


64 


23 14 


3494 




Regulus 


E. 


X06 X5 7 


24x2 


104 31 50 


34«3 


X02 48 46 


84SX 


lOI 


5 55 


■440 


17 


Fomalhaut 


W. 


84 37 7 


S94S 


86 8 29 


3955 


87 39 38 


8965 


89 


XO 34 


8977 




a Pegasi 


W. 


64 33 17 


2^8 


66 XI 20 


2646 


67 49 12 


8655 


69 


26 53 


3663 




PoUux 


E. 


55 59 28 


2562 


54 19 41 


3578 


52 40 16 


8S94 


51 


I 13 


9610 




Regulus 


£. 


92 35 13 


9494 


90 53 5X 


•505 


89 12 45 


3317 


87 


31 56 


8539 


x8 


Fomalhaut 


W. 


96 41 II 


3050 


98 XO 22 


3067 


99 39 12 


3085 


xox 


7 40 


3x04 




a Pegasi 


W. 


77 32 12 


8713 


79 8 34 


2725 


80 44 40 


8738 


82 


20 30 


8730 




a Arietis 


W. 


33 58 20 


2636 


35 35 59 


2663 


37 13 29 


2670 


38 


50 49 


2678 




Pollux 


E. 


42 51 58 


2707 


41 X5 27 


3739 


39 39 25 


8753 


38 


3 54 


2778 




Regulus 


E. 


79 12 7 


8S93 


77 33 3 


2607 


75 54 17 


2621 


74 


15 50 


•634 


19 


a Pegasi 


W. 


90 15 28 


28x6 


91 49 35 


2830 


93 23 24 


884s 


94 


56 54 


2859 




a Arietis 


W. 


46 54 20 


2730 


48 30 20 


3742 


50 6 4 


3753 


51 


41 33 


87«5 




Regulus 


£. 


66 8 IS 


t704 


64 31 41 


27x9 


62 55 27 


3734 


6x 


19 32 


i748 



XVI. 



NOVEMBER, 1899. 



197 



■• 




GREENWICH MEAN TIME. 














LUNAR DISTANCES. 








. 


ij 








P.L. 




P.L. 




P.L. 




P.L. 


M 

og 


Name and Direedoii 1 


Midnight 


of 


XVh. 


of 


' XVIIIh. 


of 


XXI»- 


of 




of Object 






Dift 




Diff. 




DHL 




Di£ 






• » « 




• » « 




• ff « 




• § m 




zx 


SUH 


W. 


108 52 z 


•596 


zzo 3Z z 


•596 


zza zo a 


3594 


"3 49 5 


3S9S 




Venus 


w. 


94 23 4 


3873 


96 22 


8070 


97 37 42 


8669 


99 15 4 


8668 




Mars 


w. 


92 3 38 


350X 


93 44 50 


3500 


95 26 3 


3499 


97 7 18 


3497 




Saturn 


w. 


76 20 20 


8307 


78 6 10 


3305 


79 52 2 


3304 


81 37 56 


2303 




a Aquilae 


w. 


43 17 I 


3370 


44 39 52 


3300 


46 4 4 


3238 


47 29 28 


3184 




a Arietis 


E. 


57 33 40 


S3XX 


55 47 57 


33x1 


54 2 Z4 


33x3 


52 z6 33 


33x3 




Aldebaran 


E. 


90 31 49 


•30S 


88 45 53 


330Z 


86 59 55 


3300 


85 13 55 


««9 


Z2 


Sun 


W. 


laa 4 34 


3593 


123 43 40 


•593 


125 22 46 


3593 


Z27 z 5z 


3595 




Mars 


W. 


105 33 50 


3496 


107 15 9 


3496 


108 56 28 


3497 


zio 37 46 


3497 




Saturn 


W. 


90 27 4Z 


«30z 


92 Z3 39 


3303 


93 59 36 


3308 


95 45 33 


3303 




a Aquilae 


W. 


54 50 50 


3983 


56 2Z 24 


3954 


57 52 35 


8988 


59 24 z8 


3905 




a Arietis 


E. 


43 a8 43 


3336 


4Z 43 22 


3331 


39 58 7 


3336 


38 13 


3343 




Aldebaran 


E. 


76 23 45 


3398 


74 37 43 


3300 


72 51 43 


33CO 


71 5 44 


33O8 


13 


Saturn 


W. 


104 34 48 


33" 


106 20 31 


•314 


Z08 6 zo 


33x7 


Z09 5z 45 


338O 




a Aquilae 


W. 


67 9 15 


2824 


68 43 12 


8813 


70 Z7 23 


8805 


71 51 45 


•797 




a Arietis 


E. 


29 30 z8 


3396 


27 46 38 


8413 


26 3 22 


3433 


24 20 35 


3457 




Aldebaran 


E. 


6a 16 35 


83x5 


60 30 58 


•3x9 


58 45 26 


3334 


57 z 


3338 




PoUux 


E. 


104 9 a8 


S339 


loa 24 26 


3343 


zoo 39 27 


3344 


98 54 31 


•346 


14 


a Aquilae 


W. 


79 45 «3 


3783 


81 20 Z5 


3763 


82 55 7 


3783 


84 29 57 


3787 




Fomalhaut 


W. 


54 8 9 


3047 


55 37 23 


3088 


57 7 9 


3000 


58 37 22 


8981 


• 


Aldebaran 


E. 


48 Z4 52 


3360 


46 30 ao 


3368 


44 46 


3378 


43 I 53 


2387 




Pollux 


E. 


90 zz 


8366 


88 26 36 


357X 


86 42 Z9 


3377 


84 58 zz 


3383 


15 


a Aquilae 


W. 


92 22 33 


3819 


93 56 36 


3839 


95 30 26 


8B40 


97 4 a 


3853 




Fomalhaut 


W. 


66 Z3 26 


3930 


67 45 19 


39x5 


69 Z7 Z9 


89X1 


70 49 24 


3908 




a Pegasi 


W. 


44 51 27 


3630 


46 29 41 


36S8 


48 8 6. 


36x7 


49 46 38 


86x4 




Aldebaran 


E, 


34 25 18 


3433 


32 42 58 


•470 


31 I 3 


3489 


29 19 35 


33x0 




PoUuz 


E. 


76 19 57 


S43X 


74 36 52 


•430 


72 54 


3439 


7z zz 2Z 


•A9 


16 


a Aquilae 


W. 


104 47 40 


3930 


106 Z9 2Z 


3950 


107 50 37 


3970 


109 21 27 


3993 




Fomalhaut 


W. 


78 30 3 


4pi6 


80 2 Z 


8988 


81 33 52 


3939 


83 5 34 


3936 




a Pegasi 


W. 


57 59 48 


3617 


59 38 20 


•6SX 


61 16 46 


3636 


62 55 5 


8633 




Polhix 


E. 


62 41 52 


3507 


6z 48 


8530 


59 20 2 


3533 


57 39 35 


3548 




Regulus 


E. 


99 23 17 


3450 


97 40 54 


S460 


95 58 45 


8471 


94 16 5z 


,348a 


17 


Fomalhaut 


W. 


90 4Z 15 


•990 


92 zi 40 


3003 


93 41 49 


3018 


95 " 40 


3034 




a Pegasi 


W. 


71 4 23 


3G73 


72 41 40 


868x 


74 18 45 


8693 


75 55 36 


3703 




Pollux 


E. 


49 22 32 


36a8 


47 44 15 


2647 


46 6 24 


8666 


44 28 58 


3683 




Regulus 


E. 


85 51 23 


•343 


84 ZI 8 


•554 


82 3z zo 


35^ 


80 51 30 


•580 


z8 


Fomalhaut 


W. 


102 35 45 


3X34 


Z04 3 26 


3x45 


105 30 4Z 


3x67 


Z06 57 30 


3x88 




a Pegasi 


W. 


83 56 4 


37^ 


85 31 21 


3775 


87 6 21 


3789 


88 41 3 


8803 




a Arietis 


W. 


40 27 58 


3G88 


42 4 54 


3698 


43 41 37 


8708 


45 18 6 


37x9 




Pollux 


E. 


36 28 57 


8B05 


34 54 35 


3833 


33 20 50 


8864 


31 47 45 


2898 




Regulus 


E. 


72 37 41 


3648 


70 59 51 


86G8 


69 22 20 


8676 


67 45 8 


3690 


<9 


a Pegasi 


W. 


96 30 6 


■873 


98 2 59 


8887 


99 35 34 


8908 


zoz 7 50 


3918 




a Arietis 


W. 


53 16 47 


3777 


54 51 45 


3789 


56 26 27 


380Z 


58 53 


8813 




Regulus 


E. 


59 43 56 


3763 


58 8 39 


3777 


56 33 41 


^93 


54 59 2 


•807 



198 



NOVEMBER, 1899. 



XVIL 



GREENWICH MEAN TIME. 


• 








« 


LUNAR DISTANCSa 










Day of Hhm 
Month. 


Name and Direction 
of Object 


Noon. 


.P.L. 

of 
Diff. 


Illk. 


P.L. 

of 
Dift 


Vlh. 


F.L 

of 
DHL 


IXIi. 


P.L 

of 

DHL 








• 


ff m 




• ff « 




• m 




• § m 




ao 


a Pegasi 
a Arietis 
Aldebaran 
Regulus 
Spica 


W. 
W. 
W. 
E. 
E. 


X02 

59 

26 

53 
X07 


39 46 
35 4 
55 20 

24 43 
19 X7 


9933 
a8a6 
0934 
aSaz 
8795 


104 IX 23 
61 8 58 
28 27 8 

51 50 42 

105 44 43 


•948 
3838 

3936 

3835 

aBo8 


X05 42 4X 
62 42 37 
29 58 54 
50 17 

104 xo 26 


tafiB 

0850 
3938 
8850 

983X 


107 13 40 
64 16 

31 30 37 

48 43 37 

102 36 26 


•979 

393X 
flSSs 

•894 


2X'. 


a Arietis 

Aldebaran 

Regulus 

Spica 

Sun 


W. 
W. 
E. 
E. 
E. 


71 
39 
41 
94 
131 


59 5 

7 43 
I 23 

50 30 
26 7 


agao 
0963 

■938 
8896 

30B7 


73 30 58 

40 38 44 

39 29 52 

93 18 6 

130 X 17 


3939 

•969 

3933 
3908 
3380 


75 2 36 
42 9 35 

37 58 39 

91 45 57 
X28 36 4a 


4943 
«977 
•967 
99x9 
3^ 


76 34 
43 40 17 
36 27 45 
90 14 2 
Z27 12 ax 


«S4 

1984 
•98X 

«90 

3909 


22 


a Arietis 
Aldebaran 
Spica 
Sun 


W. 
W. 
E. 
E. 


84 

51 

82 

120 


7 48 
II 23 

37 49 
13 54 


3003 

9W3 
fl98x 
S3S8 


85 37 57 

52 41 7 

81 7 12 

118 50 49 


90zt 
3030 

9989 

3968 


87 7 55 

54 xo 43 

79 36 46 
XI7 a7 56 


9030 

9037 
1998 

9377 


88 37 43 

55 40 xo 

78 6 3X 

X16 5 13 


9009 
3043 
9007 
3386 


23 


a Arietis 
Aldebaran 
Spica 
Sun 


W. 

W. 
E. 
E. 


96 4 15 

63 5 27 

70 37 43 
log 14 3 


3065 
3073 

30(8 

34^3 


97 33 8 

64 34 9 
69 8 22 

107 52 13 


3070 

3078 
304JB 

3431 


99 z 54 

66 2 45 

67 39 9 
io6 30 31 


3076 
3083 

9099 

9436 


100 30 33 
67 31 x6 
66 10 2 

X05 8 55 


9QBx 

90^ 
9099 
944X 


24 


Aldebaran 
Pollux 
Spica 
Sun 


W. 
W. 
E. 
E. 


74 
33 

58 
98 


52 46 
42 10 

45 49 
22 II 


3XOZ 
Sa6x 

3076 
S4S9 


76 20 55 

35 7 7 
57 17 10 
97 I X 


310a 
3348 
3078 
3463 


77 49 a 
36 32 19 

55 48 34 
95 39 54 


9ZQ4 
9«97 
3079 
34^ 


79 17 7 

37 57 44 

54 19 59 
94 x8 48 


9X0( 

9061 

9464 


25 

• 


Aldebaran 
Pollux 
Spica 
Sun 


W. 

W. 
E. 
E. 


86 

•45 
46 

87 


37 34 

7 24 

57 15 

33 24 


Szoo 
3x88 

3079 
34«o 


88 5 44 
46 33 48 
45 28 40 
86 12 15 


3098 
3x79 
3078 
3498 


89 33 56 

48 22 

44 3 
84 51 4 


9096 

9x73 
3075 
3433 


9Z a zx 

49 27 4 
42 31 23 
83 29 50 


9090 

9x64 
9079 
943a 


26 


Aldebaran 
Pollux 
Spica 
Sun 


W. 
W. 
E. 
E. 


98 
56 

35 

76 


24 34 

42 57 

7 6 

42 29 


3oyo 

3x«4 
3053 
3437 


99 53 20 
58 10 37 

33 37 59 
75 20 43 


9009 
3"3 

3048 
94>o 


XOZ 22 12 

59 38 28 
3a 8 46 
73 58 49 


9099 
3x07 
3049 

94x4 


X02 51 12 
61 6 29 
30 39 26 
72 36 48 


9053 

9097 
9098 

9406 


27 


Pollux 

Regulus 

Sun 


W. 
W. 
E. 


68 

31 
65 


29 30 
27 29 

44 21 


3048 
30*8 
3361 


69 58 43 
32 56 42 
64 21 20 


3098 
3094 
3331 


71 a8 9 
34 26 13 
62 58 7 


9036 

90x9 
9999 


72 57 49 
35 56 2 
61 34 4X 


9019 
9009 
9919 


28 


Pollux 

Regulus 

Sun 


W. 
W. 
E. 


80 

43 
54 


29 44 
29 32 

34 13 


99SS 
3955 
3368 


82 53 

45 I 7 
53 9 24 


«943 

3930 

3334 


83 32 17 
46 33 

51 44 19 


a990 
3906 
3343 


85 3 58 
48 5 XX 

50 x8 59« 


•917 
389X 

93«7 


29 


Pollux 

Regulus 

Sun 


W. 

W. 
E. 


92 
55 
43 


46 31 

50 45 

8 6 


3851 
S819 
3«35 


94 19 53 
57 24 48 
41 41 3 


•837 
3604 
3x40 


95 53 33 
58 59 IX 
40 13 42 


«B33 

3789 
9X«5 


97 27 3X 
60 33 53 

38 46 3 


38x0 

•774 
31 XO 


30 


Pollux 

Regulus 

Sun 


W. 
W. 


105 
68 

31 


21 46 

32 19 
23 6 


3748 
3699 

3033 


106 57 30 
70 9 

29 53 34 


1739 

368s 

30x7 


108 33 32 
71 46 
28 23 42 


«ri5 
3670 

3003 


xio 9 52 
73 23 20 
26 53 32 


•Toa 

0635 
0986 

1 



XVIII. 



NOVEMBER, 1899. 



199 



GREENWICH MEAN TIME. 


LUNAR DISTANCSa 


Day of th« 
Month. 


Name and Direction 
Of Object 


Midnight 


P.L. 

of 

DifC 


XVh. 


P.L. 

of 

Dift 


XVIIIix. 


P.L. 

of 
DHL 


XXIb. 


P.L. 

of 
Di& 








• i » 




• » « 




• » « 




• t m 




20 


a Pegasi 
a Arietis 
Aldebaran 
Regulus 
Spica 


W. 
W. 

w, 

E. 
£. 


108 44 19 
65 49 8 
33 2 16 
47 10 33 

loi 2 42 


9994 
a874 
9936 
8R80 

•B47 


no 14 39 
67 22 

34 33 49 
45 37 48 
99 29 15 


30x0 
9886 

^942 
•894 
«8S9 


'" 44 39 
68 54 37 
36 5 15 
44 5 21 

97 56 4 


3086 
3898 

3948 
2909 

3873 


ZZ3 Z4 20 

70 26 58 

37 36 33 
42 33 13 
96 23 9 


yH» 
3909 

0934 
3933 
3884 


21 


a Arietis 

Aldebaran 

Regulus 

Spica 

Sum 


W. 
W. 
E. 
£. 
E. 


78 5 " 
45 10 50 

34 57 9 
88 42 21 

125 48 13 


>9fi4 
9993 

3997 
994Z 
33X5 


79 36 9 
46 41 13 

33 26 53 

87 10 54 

124 24 19 


4974 
3000 

30XS 

AMI 

93>6 


8z 6 54 
48 II 26 

31 56 56 

85 39 40 
123 38 


984 
3006 
3099 
396Z 
3338 


82 37 27 

49 41 29 
30 27 19 

84 8 38 

Z2Z 37 ZO 


3013 
3043 

997X 
3348 


22 


a Arietis 
Aldebaran 
Spica 
Sum 


W. 
W. 
£• 
£. 


90 7 20 

57 9 29 
76 36 27 

114 42 41 


3Q37 
3050 

3014 

3SM 


91 36 47 

58 38 40 

75 6 32 
113 20 18 


3044 
3056 

3083 
34Q3 


93 6 5 

60 7 43 

73 36 47 

III 58 5 


3QS3 

3063 
308O 
34x0 


94 35 14 

6z 36 38 

72 7 " 
zzo 36 


3058 
3068 
3036 
34x7 


23 


a Arietis 

Aldebaran 

Spica 

Sun 


W. 

W, 
E. 
E. 


loi 59 <5 
68 59 42 

64 41 2 

103 47 25 


3085 
3090 

3063 

3446 


103 27 34 
70 28 4 

63 12 7 
102 26 


3090 
3094 

S4SO 


104 55 56 
71 56 21 

61 43 17 

zoi 4 40 


3093 

3096 
3070 

34S4 


zo6 24 Z4 
73 24 35 
60 14 31 
99 43 24 


3097 
3099 

3073 
3458 


24 


Aldebaran 
Pollux 
Spica 
Sun 


W, 
W. 
E. 
E. 


80 45 12 
39 23 20 
52 51 26 
92 57 44 


3x05 
3W> 

3081 
3464 


82 13 z6 

40 49 6 

51 22 53 

•91 36 40 


3x04 

3310 
3082 

34^4 


83 41 21 

42 15 3 
49 54 21 
90 Z5 36 


3x03 

32P3 
308Z 

3463 


85 9 27 

43 41 9 
48 25 48 

88 54 31 


3X08 

3x95 

So8x 
3483 


25 


Aldebaran 
Pollux 
Spica 
Sun 


W, 
W. 

E. 
E. 


92 30 30 

50 53 56 
41 2 40 
82 8 32 


3089 

3x57 
3070 

3448 


93 58 53 
52 20 57 

39 33 54 
80 47 10 


3085 

3x49 
3066 

3443 


95 27 2z 
53 48 7 
38 5 3 
79 25 42 


3080 

3x41 
3062 
3438 


96 55 55 
55 15 27 
36 36 7 
78 4 9 


3078 
3x33 
3058 
3433 


26 


Aldebaran 

Pollux 

Spica 

Sun 


W. 
W. 
E. 
E. 


104 20 21 
62 34 42 
29 10 

71 M 38 


3045 
30R8 

3032 

3398 


105 49 38 
64 3 6 
27 40 27 
69 52 19 


3P38 
3078 
3026 
3389 


Z07 19 4 

65 31 42 
26 10 46 

68 29 50 


3030 
3069 

3030 
3380 


Z08 48 40 
67 30 
24 40 58 
67 7 zz 


3089 
3059 

30X3 
3S7S 


27 


Pollux 
Regulus 

Sun 


W. 
W, 
E. 


74 27 43 
37 26 9 
60 I z 3 


3004 
299Z 
33x7 


75 57 51 
38 56 33 
58 47 " 


3993 

9977 
3306 


77 28 14 
40 27 X5 
57 23 6 


398Z 
2962 
3294 


78 58 51 
41 58 15 
55 58 47 


i988 

9949 
398X 


28 


Pollux 
Regulus 

Sun 


W, 
W. 
E. 


86 35 55 

49 37 41 
48 53 22 


•904 
8877 

32x4 


88 8 9 
51 10 29 
47 27 29 


3891 
38^ 
3x99 


89 40 39 
52 43 35 
46 z Z9 


2878 
3848 
3x84 


91 13 26 
54 17 I 
44 34 51 


9864 
3834 
3x70 


29 


Pollux 

Regulus 

Sun 


W. 
W. 
E, 


99 I 46 
62 8 55 

37 18 5 


2796 
3760 

3094 


100 36 19 
63 44 16 

35 49 48 


2782 
2744 
3079 


102 II 10 

65 19 57 
34 21 Z3 


2769 
3729 

3064 


103 46 19 
66 55 58 
32 52 19 


9735 
3714 

3048 


30 


Pollux 

Regulus 

Sun 


W, 

W. 
E, 


III 46 29 

75 I 
25 23 2 


8689 
9640 

a97X 


113 23 23 
76 39 
23 52 13 


2677 
2626 
3956 


115 34 
78 Z7 20 
22 2Z 5 


3665 

96X3 
«94X 


zz6 38 z 

79 55 59 
20 49 38 


9659 

•597 
«9l6 



200 



DECEMBER, 1899. 



m 



AT GREENWICH APPARENT NOON. 






Frid. 
Sat 

• 

Mon. 
Tues. 
Wed. 

Thur. 

Frid. 

Sat 

SC/N. 

Mon. 

Tues. 

Wed. 
Thur. 
Frid. 

Sat. 

SC/N. 

Mod. 

Tues. 
Wed. 
Thur. 

Frid. 

Sat. 

SCTN. 

Mon. 
Tues. 
Wed. 

Thur. 
Frid. 
Sat. 
SC/N. 

Mon. 



4 

a 

o 

I 

o 



I 

2 

3 

4 

5 
6 

7 
8 



lO 

II 

12 

13 

15 

i6 

17 
i8 

20 
21 

22 

23 
24 

25 
26 

27 

28 
29 

30 
31 

32 



THE SUN'S 



Apparent 
Right Ascension. 



h m a 

6 29 38.10 

6 33 57-73 
6 38 17.99 

6 42 38.85 
6 47 0.27 
6 51 22.22 

6 55 44-69 

7 o 7.64 
7 4 31-03 

7 8 54.84 

7 13 1904 
7 17 4360 

7 22 8.49 
7 26 33.69 

7 30 59-15 

7 35 24.86 

7 39 5078 
7 44 16.89 

7 48 43.16 

7 53 9.55 

7 57 36.04 

8 2 2.59 
8 6 29.18 
8 10 55.76 

8 15 22.32 
8 19 48.81 
8 24 15.20 

8 28 41.44 
8 33 7-51 

8 37 33-37 
8 41 58.98 



18 46 24.31 



Diff.for 
I Hoar. 



NoTKr-The mean time of semidiame 



a 
0.805 

0.832 

0.857 

0.88 X 
0.904 
0.925 

0.946 
0.965 
0.983 



.000 
.oz6 
.030 

•043 

•055 
.066 

-075 
.084 

.091 

.097 
.102 
.105 

.107 
.108 
.107 

.105 
.101 
.096 

.090 
.082 
.072 
.061 

.049 



-Apparent 
Declination. 



S. 21 49 38.6 

21 58 44.4 

22 7 24.8 

22 15 39.6 
22 23 28.3 
22 30 50.9 

22 37 47.1 
22 44 16.6 
22 50 19.4 

22 55 55.0 

23 I 3-5 

23 544.6 

23 9 58.2 
23 13 44.2 
23 17 2.3 

23 19 52.6 
23 22 14.8 
23 24 9.0 

23 25 35-0 
23 26 32.8 

23 27 2.2 

23 27 3-4 
23 26 36.2 

23 25 40.7 

23 24 16.9 
23 22 24.8 
23 20 4.5 

23 17 15-9 

23 13 59-3 
23 10 14.7 

23 6 2.2 
S. 23 1 22.2 



DULtor 
z Hoar. 



-23.26 
22.2Z 
2Z.Z5 

—20.07 
18.98 
17.88 

-16.78 
15.67 
14-55 

-13.42 
12.28 

ZZ.Z4 

~ 9-99 
8.84 

7.68 

- 6.52 

5.34 
4.17 

- a.99 
z.8z 

- 0.64 

+ 0-54 
Z.72 

2.90 

4- 4.08 
5-26 
6.43 

4- 7-6o 

8.77 

9.94 

XX. zo 



Semi- 
diameter. 



6 

6 
6 

6 
6 
6 

6 
6 
6 

6 
6 
6 

6 
6 
6 

6 
6 
6 

6 
6 
6 

6 
6 
6 

6 
6 
6 

6 
6 
6 
6 



5-91 
6.06 

6.21 

6.35 
6.49 

6.63 

6.76 
6.89 
7.01 

7-13 

7-25 
7.36 

7.46 

7.56 
7.66 

7.75 
7.83 
7.90 

7-97 
8.03 
8.09 

8.14 
8.18 
8.22 

8.26 
8.29 
8.31 

8.33 

8.35 
8.36 

8.37 



+Z2.25 16 18.38 



Sidereal 
Time of 

Semi- 
diameter 
Passing 
Meridiaa 



a 
70.27 

70.36 

70.44 

70.52 
70.60 
70.67 

70.74 
70.81 
70.87 

70.93 
70.98 

71,03 

71.07 
71. II 
71.14 

71.17 
71.20 

71.23 

71.25 
71.26 

71.27 

71.27 
71.27 
71.26 

71.25 
71.24 
71.22 

71.20 

71.17 
71.14 

71.10 
71.06 



BqnatioiiQf 
Time, 
to be 

Sabtracted 
from 



Added to 

Apparent 

Time. 



m a 
10 50.27 

10 27.26 

10 3.63 

9 3940 
9 14.60 

8 49.27 

8 23.43 
7 57.12 
7 30.36 

7 3-17 
6 35.61 

6 7.68 

5 39.43 
5 10.87 

4 42.04 

4 "97 

3 43-69 
3 14.22 

2 44-59 
2 14.84 

I 44.99 

I 15.07 

o 45-13 
o 15.18 



o 14.74 

o 44.58 

I 14.33 

X 43.94 

2 13.37 

2 42.59 

3 "-56 



Diftfor 
z Hoar. 



0.945 
0.97 z 
0.997 



•02Z 
.044 
.065 

.086 
.105 
.Z22 

.Z39 
.Z56 
.17Z 

.Z84 
.Z96 
•206 

.az5 

.224 
.231 

.237 
.242 

•245 

.247 
.248 
.247 

.245 
•242 

.237 

.230 
.222 

.2Z2 

.20Z 



3 40.26 Z.189 



ir passing may be found by aubtraeting o*.z9 firom the aidereal tim\ 
The siRn -^ prefixed to the hourly chanKe of declination indicatea that south declinationa are inoreaaiBgt 
The sign -f indicates that south declinationa are decreaaiug- 



II. 



DECEMBER, 1899. 



201 







AT GREENWICH MEAN NOON. 






1 

i 

1 


1 

1 

1 


THE SUN'S 


Bqnation of 

Time, 

to be 

Added to 


DUttot 
z Hour. 


Sidereal 

Time, 

or 

RiRht Ascension ' 

of 

MeanSnn. 


ApparoDt 
Right AaceniioD. 


DUE. for 
X Hour. 


Apparent 
Declination. 


Di&for 
z Hoar. 


Subtracted 

tronk 
MeanTlma 


Frid. 

Sat. 

SUN. 


I 

2 

3 


h m • 
16 29 40.05 

16 33 59.62 

16 38 19.81 


a 
ZO.802 

ZO.828 

ZO.854 


S.2X 49 42.7 

21 58 48.3 

22 7 28.3 


m 
-23.25 
22.20 
2Z.Z4 


m a 
10 50.11 

10 27.10 

10 3.46 


• 
0.945 

O.97Z 
0.997 


h m a 
16 40 30.16 

16 44 26.72 

16 48 23.27 


Mon. 
Tues. 
Wed 


4 

5 
6 


16 42 40.60 
16 47 1.95 
16 51 23.83 


10.878 
XO.90Z 
ia923 


22 15 42.8 
22 23 31.2 
22 30 53.5 


-ao.o6 

18-97 
17.87 


9 39-23 

9 14-44 
8 49.1 X 


Z.02Z 

1.044 
Z.065 


16 52 19.83 

16 56 16.39 

17 12.94 


Thur. 

Frid. 

Sat 


7 
8 

9 


16 55 46.22 

17 9.09 
17 4 32.41 


10.943 
Z0.962 
ZO.980 


22 37 49.4 
22 44 18.7 
22 50 21.2 


-Z6.77 
Z5.66 

^4-54 


8 23.28 

7 56.97 
7 30.22 


Z.086 
Z.Z06 
Z.Z24 


17 4 9.50 

17 8 6.06 

17 12 2.62 


SUN. 

Mon. 

Tues. 


lO 

II 

13 


17 8 56.13 
17 13 20.25 

17 17 44-73 


Z0.996 

'ZI.OZ2 

ZZ.027 


22 55 56.6 

23 I 4-9 
23 5 45-8 


-Z3.4Z 
Z2.27 
ZZ.Z3 


7 3.04 
6 35-48 
6 7.56 


Z.Z4Z 
Z.Z56 
Z.Z70 


17 15 59.18 

17 19 55-73 
17 23 52.29 


Wed. 
Thur. 
Frid. 


13 
H 
15 


17 22 9.53 
17 26 34.64 
17 31 0.02 


ZZ.040 
ZZ.052 
zz.o6a 


23 9 59.2 

23 13 44-9 
23 17 3.0 


-9.98 
8.83 
7.67 


5 39.32 
5 10.76 

4 41-95 


Z.Z83 

Z.Z95 
Z.206 


17 27 48.85 

17 31 45-41 
17 35 41.96 


Sat 

SUN. 

Mon. 


x6 

17 
i8 


17 35 25-64 

17 39 51-47 
17 44 17.49 


ZZ.07Z 
ZZ.080 
ZZ.087 


23 19 53.0 
23 22 15.2 
23 24 9.2 


- 6.5Z 
5-34 
4- 17 


4 12.89 
3 43-6i 
3 14-15 


Z.2Z6 

Z.224 
Z.23Z 


17 39 38.52 
17 43 35.08 
17 47 31-64 


Tues- 
Wed. 
Thur. 


19 

21 


17 48 43.66 

17 53 9.96 
17 57 36.36 


ZX.093 
zi 098 
zz.zoz 


23 25 35- 1 
23 26 32.8 

23 27 2.2 


- 2.99 
z.8z 

— a64 


2 44-53 
2 14.79 

I 44.95 


X.237 
Z.242 

1.245 


17 51 28.20 
17 55 24.76 
17 59 21.31 


Frid. 

Sat 

SUN. 

Mon. 
Tues. 
Wed, 


32 

33 

25 
26 

37 


18 2 2.82 
18 6 29.31 
18 10 55.81 

18 15 22.27 
18 19 48.67 
18 24 14.96 


ZZ.Z03 
ZZ.Z04 
ZZ.X03 

zz.zoz 
ZZ.098 

ZZ.093 


23 27 3-4 
23 26 36.2 

23 25 40.7 

23 24 16.9 
23 22 24.9 
23 20 4.6 


+ 0.54 
Z.72 
2.90 

+ 4.08 
5.26 
6.43 


I 15.05 
45.11 

15.18 


1.247 
Z.247 

Z.246 
1.245 

Z.24Z 

Z.236 


18 3 17.87 
18 7 14.43 
18 II 10.99 

18 15 7.54 
18 19 4.10 
18 23 0.66 


14.73 

44-57 

1 14.30 


Thur. 
Frid. 

Sat 
SUN. 


38 
29 
30 

31 


18 28 41.12 
18 33 7.10 
18 37 32.87 

18 41 58.39 


ZZ.086 

z 1.078 
ZZ.069 
XZ.058 


23 17 16.2 

23 13 59-7 
23 10 15.2 

23 6 2.8 


+ 7-6o 

8.77 

9-93 
ZZ.09 


1 43-90 

2 13.32 

2 42.53 

3 "-50 


Z.230 

Z.222 
Z.2I2 
Z.20Z 


18 26 57.22 

18 30 5378 

18 34 50.33 
18 38 46.89 


Mon. 


32 


18 46 23.63 


ZZ.045 


S. 23 I 22.8 


+Z2.24 


3 40.18 


z.z88 


18 42 43.45 


The tig] 
iacre 


nidiameter for meat] 
11 — prefixed to the 
asioK ; the sign -f i 


1 noon maj 1 
hourly chaa 
adicatea tha 


be assumed the same 
tge of decliaation inc 
Lt south declinations 


) as that for 
[icates that 
are decreas 


apparent noon, 
south decliaati( 
ing. 


ons are 


Diff. for X Hour, 
+ 9-.8565. 
(Table IIL) 



202 



DECEMBER, 1899. 



ni. 



AT GREENWICH MEAN NOON. 



a 

o 

a 

« 



I 

2 

3 

4 

5 
6 

7 

8 



lO 

II 

12 

13 
14 
15 

i6 

17 
i8 

20 
21 

22 

23 
34 

25 
26 

27 

28 
29 

30 
31 

32 



s 



335 
336 

337 

338 
339 
340 

341 
342 

343 

344 
345 
346 

347 

348 

349 

350 
351 
352 

353 
354 
355 

356 
357 
358 

359 
360 

361 

362 

363 
364 
365 

366 



THE SUN'S 



TRUB LONGITUDE. 



249 
250 

251 

252 

253 
254 

255 
256 

257 

258 

259 
260 

261 
262 



157 
9.1 

9 3-6 



7 
8 



9 59-1 

55-7 

1 52.9 

2 51.0 

3 49-8 

4 49-1 



5 49-1 

6 49.6 

7 506 



8 52.2 

9 54-3 

263 20 56.8 

264 21 59.9 

265 23 3.5 

266 24 7.7 

267 25 12.6 

268 26 18.0 

269 27 24.1 

270 28 30.9 

271 29 38.4 

272 30 46.4 

273 31 55-1 

274 33 4-5 

275 34 14-3 

276 35 24.6 

277 36 35-2 

278 37 46.1 

279 38 57.4 

280 40 8.8 



6 13.3 

7 6.5 

8 0.8 

8 56.2 

9 52.6 

10 49.6 

11 47.6 

12 46.2 

13 45-3 

14 45.2 

15 45-5 

16 46.3 

17 47.7 

18 49.6 

19 52.0 

20 54.9 

21 58.3 

23 2.3 

24 7.0 

25 12.3 

26 18.2 

27 24.8 

28 32.1 

29 39-9 

30 48.5 

31 57-7 

33 7-3 

34 17-4 

35 27.8 

36 38.6 

37 49-7 
39 0.9 



DiiE. for 
I Hour. 



52.20 

52-25 
52.29 

52.33 

52.37 
52.40 

52.43 
52.46 

52.49 

52.51 
52.53 
52.56 

52.58 
52.60 
52.62 

52.64 
52.66 
52.69 

52.72 

52.75 
52.77 

52.80 
52.82 
52.85 

52.88 
52.90 
52.92 

52.94 

52.95 
52.96 

52.97 



152.97 



LATTTUDB. 



— 0.25 

— 0.12 
+ 0.01 

+ 0.15 
0.28 

0.39 
+ 0.48 

0-55 
0.58 

+ 0.60 

0.57 
0.51 

+ 0.44 
0.34 
0.22 

+ 0.09 

— 0.04 
0.16 

— 0.28 
0.38 
0.45 

— 0.50 

0.53 
0.52 

-0.47 
0.40 
0.31 

— 0.20 

— 0.07 
-f- 0.06 

0.19 

+ 0.32 



Logarithm 

of the 

Radios Vector 

of the 

Earth. 



9-9937633 
9.9936972 

9.9936323 

9.9935688 
9.9935067 

99934461 

9-9933872 
9-9933299 
9-9932744 

9.9932208 
9.9931696 
9.9931204 

9.9930737 
9.9930296 
9.9929880 

9-9929492 
9.9929132 

9.9928798 

9.9928494 
9.9928216 
9.9927966 

9.9927741 

9-9927542 
9.9927367 

9.9927213 
9.9927082 
9.9926973 

9.9926883 
9.9926810 
9.9926754 
9.9926718 

9.9926696 



Dill for 
X Hoar. 



-27.8 
27.3 
26.8 

-26.2 
25.6 
24.9 

—34.2 

23-5 
22.7 

-2Z.8 

20.9 

19.9 

-X8.9 
X7.8 
16.7 

— X5.6 

M-5 
X3»3 

— Z2.Z 
XX.O 

9-9 

- 8.8 
7.8 
6.8 

- 5-9 
5.0 

- 3-3 
2.6 

X.9 

— X.2 

- 0.6 



NoRw— Tlio nunbert in column A c orr— pond to th« tme eqvinoi of tha date; la eolamn X' to the mean 
eqoinoi of January o'x). 



Mean Time 

of 

Sidereal Noon. 



m 



7 18 17.84 
7 14 21,93 
7 10 26.02 

7 6 30.11 
7 2 34.20 
6 58 38.28 

6 54 4237 
6 50 46.46 

6 46 5055 

6 42 54.64 

6 38 58.72 
6 35 2.81 

6 31 6.90 
6 27 10.99 
6 23 15.08 



6 


19 


19.17 


6 


»5 


23.25 


6 


II 


27.34 


6 


7 31-43 


6 


3 


35-5a 


5 


59 


39.60 


5 


55 4369 


5 


51 


47.78 


5 47 51-87 


5 


43 


5596 


5 


40 


0.04 


5 


36 


4-13 


5 


3a 


8.22 


5 


38 


12.31 


5 


24 


16.40 


5 


30 


20.49 


5 


16 


a4 57 


us. tor 


E Hoor, 




-y-Siga 


(Table IL) 1 



IV. 



DSOfiMB££, 1899. 



203 



GREENWICH MEAN TIME. 


^ 








THE MOON'S 








• 


1 

1 


SBUIOIAMBTBH. 


HORIZONTAL PARALLAX 


UPPER TRANSIT. 


AGB. 


Noea. 


Uidnlcht 


Nooo. 


DULIbr 
I Hoar. 


Midniffht 


Diff.for 
z Hour. 


Mwrldian of 
Greenwich. 


DilZLfor 
X Hoar. 


Nooo. 


I 

2 

3 


IS 368 

15 47-8 
15 57-6 


15 42-4 

15 52.9 

16 1.8 


$ m 

57 "-3 
57.52.0 

58 27.9 


m 

x.6z 
Z.36 


m 

57 32.1 

58 10.7 

58 43.3 


m 
+X.70 
1.50 
X.20 


h m 
23 18.2 

6 

16.X 


m 
2.36 

2.45 


d 
28.1 

29.1 

o-S 


4 

5 
6 


16 5.4 
16 10.8 
16 13.7 


16 8.5 
16 12.6 
16 14.3 


58 56-6 

59 16.5 
59 27.1 


-I-Z.02 

0.63 

-H>.26 


59 7-7 
59 22.9 
59 29.1 


+0.83 

0.44 

+0.09 


I 15-2 

2 13-7 

3 10.3 


2.46 
2.4X 
2-3X 


1.5 
2.5 

3-5 


7 
8 

9 


16 14.3 
16 12.9 
16 9.9 


16 13.8 
16 11.6 
16 8.0 


59 29.2 
59 24.0 

59 I3-I 


-0.08 
0.34 

0.55 


59 27.4 
59 19-2 
59 6.0 


-0.22 
0.45 
0.63 


4 4.4 

4 56.1 

5 46.2 


a.2o 

2.ZX 

2.07 


4-5 
5-5 
6.5 


lO 

II 

12 


16 5.8 
16 0.8 

15 54-9 


16 3.4 

X5 57-9 
15 51.8 


58 57-9 

58 39-5 
S8 18.1 


-0.70 
a83 

0-94 


58 49.1 
58 29.1 
58 6.5 

• 


-0.77 
0.89 

x.oo 


6 35.7 

7 25.5 

8 16.6 


2.06 
2.10 
2.x6 


7-5 
8.5 
9.5 


»3 

15 


15 48.4 
15 41.2 

15 33-4 


15 44-9 
15 37-4 
15 29.2 


57 54-2 
57 27.7 
56 588 


— X.05 
X.X5 
X.24 


57 41-2 
57 13-5 
56 43.7 


-I.XI 

1.20 
X.28 


9 9-2 
10 3.3 

10 58.2 


2.23 
2.28 
2.29 


10.5 

"•5 
".5 


i6 

17 
i8 


15 35-0 

15 16.5 
15 8.3 


IS 20.8 
15 12.2 
15 4-3 


56 28.2 

55 570 
55 26.6 


-X.30 
X.29 
X.22 


56 12.6 

55 41-6 
55 12.2 


—1.30 
Z.27 
i.x6 


11 52.6 

12 45-3 

13 35-5 


2.24 

2.X5 

2.03 


13-5 
14-5 
1 5-5 


»9 

20 
21 


IS 0.7 

14 54-4 
14 49.8 


14 57-3 
14 51-8 
14 48.3 


54 58.8 
54 35-6 
54 18.7 


-X.07 
0.85 
0.54 


54 46.5 
54 26.2 

54 13-2 


-0.97 
0.70 

-0.37 


14 22.8 

15 7.4 
15 49.8 


X.9I 
X.8I 

x-74 


16.5 

17.5 
18.5 


22 
23 

84 


14 47.4 

1 4 47-5 
14 50.4 


14 47.1 
14 48.6 

H 52.9 


54 9-9 
54 IO-4 
54 21.1 


-0.18 

+0.23 

0.67 


54 8.9 
54 14-5 
54 304 


+0.02 
0.45 
0.88 


i6 31.0 

17 11.7 
17 52.9 


X.70 
X.70 

1-75 


195 
20.5 

21.5 


25 
26 

27 


14 56.2 

15 4-7 
15 157 


15 0.1 

15 9-9 
15 22.0 


54 423 

55 137 
55 54-0 


+X.XO 

X.50 
X.84 


54 56.8 

55 32.8 

56 17.0 


+1.31 
X.68 

1.97 


18 35.8 

19 21.2 

20 10.0 


X.83 
X.96 
2.X1 


22.5 

235 
24.5 


28 
29 

31 


15 28.6 
15 426 

15 56.5 
i6 9.3 


15 35-5 

15 49.6 

16 3.1 
16 14.8 


56 41.4 

57 32.6 

58 23.9 

59 10.7 


+2.07 

2.x6 
2.07 
Z.78 


57 6.7 

57 58.5 

58 48.2 

59 31-0 


+2.14 

2.X4 

1.95 
1.58 


21 2.7 
21 59-1 

22 58.3 

23 58.5 


2.28 
2.42 
2.50 
2.51 


25-5 
26.5 

275 
28.5 


32 


16 19.6 


16 23.5 


59 48.5 


+X.33 


60 2.8 


+X.05 


6 




29-5 





204 



DECEMBER, 1899. 



GREENWICH MEAN TTMK 



THE MOON'S RIGHT ASCENSION AND DECLINATION, 



Hoar. 



Right 
Ascension. 



DifLflor 
1 If innte. 



Daelination. 



DiflLfor 
X Mfarate. 



Hoor. 



Right 
Ascension. 



DCfELfor 
X Minnte. 



DecIlnstioiL 



Diff.for 
X Minnte. 



O 

z 

2 

3 

4 

5 
6 

7 

8 

9 

lO 

II 

12 

X3 

14 

15 
i6 

X7 
i8 

19 

20 
21 
22 
23 



O 

I 
8 

3 

4 

5 

6 

7 

8 

9 
zo 

iz 

Z2 

13 

14 

15 
i6 

17 
i8 

19 

20 
2Z 
22 

23 
24 



h 
15 

15 
15 
15 
15 
15 
15 
15 
15 
15 
15 
15 
15 
15 
15 
15 
15 
15 
15 
15 
15 
15 
15 
i6 



i6 
i6 
i6 
i6 
z6 
z6 
z6 
i6 
z6 
i6 
i6 
i6 
i6 
i6 
i6 
i6 
i6 
z6 
i6 
i6 
z6 
z6 
i6 

X7 
17 



m 

7 

9 
II 

14 
i6 

i8 

21 
23 

25 
28 

30 
32 

35 

37 
40 

42 

44 
47 
49 
52 

54 
56 

59 

z 



4 
6 

9 

zi 

14 
z6 

16 

21 

23 
26 

28 

31 
33 

36 
38 

41 

43 

46 

48 

51 
53 
56 
58 
I 

3 



• 


s 


8.30 


a.sx4S 


27.33 


8.3S00 


46.70 


s.3a57 


6.41 


8-S3X3 


26.45 


a. 3368 


46.83 


a. 34*5 


7-55 


a. 3480 


28.59 


S.3534 


49.96 


a. 3389 


11.66 


a- 3643 


33.68 


a. 3697 


56.02 


a. 3750 


18.68 


a. 380a 


41-65 


a. 3854 


4.93 


a. 3906 


28.52 


a. 3957 


52.41 


a.4007 


16.60 


a. 4056 


41.08 


8.4x04 


5.85 


a.4«53 


30.91 


a.4aox 


56.26 


8.4848 


21.88 


a. 4393 


47.78 


8.4338 



FRIDAY z. 

• 

S.20 
20 
20 
20 
20 
20 
20 
2Z 
21 
2Z 
2Z 
21 
21 
21 
21 
21 
21 
21 
21 
22 
22 
22 
22 

S.22 

SATURDAY 2. 

s.22 
22 
22 
22 
22 
22 
22 
22 
22 
22 
22 
22 
22 
22 
22 
22 

23 
23 
23 
23 
23 
23 
23 

23 

S.23 



SUNDAY 3. 



18 

25 

31 

37 

43 

49 

55 
I 

7 

Z2 

18 

23 

28 

33 



49.8 

16.2 

36.0 

49.2 

55.8 

55-7 
48.8 

35.0 

14.3 
46.7 

II. 9 

30.0 

40.9 

44-5 
38 40.8 

43 29.7 
ii.i 

45.0 
".3 
29.9 
40.8 

43.9 
39-2 
26.6 



48 
52 

57 

I 

5 

9 

13 

17 



13-94 


a.4383 


40.37 


8.44a7 


7.06 


«.4470 


34.01 


a.4Sxa 


Z.20 


a.4553 


28.64 


a.4593 


5632 


a. 4633 


24.23 


8.4671 


52.37 


a.4709 


20.74 


8.4746 


49.32 


a.4781 


z8.ii 


8.48x5 


47.10 


8.4848 


16.29 


8.4888 


45.68 


8.49x4 


15.26 


a.4944 


45.01 


a.4973 


14.94 


8.5008 


45.03 


8.5029 


15.29 


8.5056 


45.70 


8.508X 


16.26 


8.5105 


46.96 


8.5za8 


17.80 


a.3151 


48.77 


8.5X7X 



21 6.0 



24 
28 

31 

34 
37 
40 

42 
45 
47 
50 
52 

54 
56 

57 

59 
o 

2 

3 

4 
5 

5 

6 

6 
6 



37-4 
0.8 

16.0 

23.0 

21.8 

12.4 

54.6 
28.4 

53.8 
10.8 
19.2 
19. 1 
Z0.3 
53.0 
26.9 
52.1 
8.6 
16.3 

15.2 

5.2 

46.4 

18.6 

41.9 
56.3 



m 

6.493 
6.385 

6.375 
0.165 

6.054 

5.942 
5.828 

5.713 

5.598 

5.480 

5.36X 

5.24a 
S.xai 

4-999 
4.877 
4.753 
4.628 
4.503 

4.374 
4.846 

4.X17 

S.987 
3.856 

3.733 



S-590 

3.457 
3.33a 
3.X85 
5.048 
a.9xa 
a. 773 
8.633 
8.493 

a. 353 

8.3X3 
8.069 

X.987 
X.783 
X.638 

1-493 
1.348 
x.aoa 
X.055 
0.908 
0.760 

0.6X3 

0.463 
0.3x4 

0.X65 



O 

I 
2 

3 

4 

5 

6 

7 

8 

9 
10 

II 

12 

13 

14 

15 
16 

17 

18 

19 
20 

21 

22 
23 



O 

Z 
2 

3 

4 

5 

6 

7 
8 

9 
zo 

ZI 
12 

13 

14 

15 
16 

17 
18 

19 
20 

2Z 

22 
23 
24 



h 
17 
17 
17 
17 
17 
17 
17 
17 
17 
17 
17 
17 
17 
17 
17 
17 
17 
17 

X7 

17 
17 
17 

X7 
z8 



8 
8 
8 



m 

3 

6 

8 

IZ 

13 

16 

18 
21 

24 
26 

29 

31 
34 
36 

39 
41 

44 

46 

49 
51 
54 
56 

59 

2 



4 
7 
9 



8 

48.77 
19.85 

51-05 
22.. 36 

53.76 
25.26 
56.85 
28.51 
0.24 
32.04 

3.90 
35-80 

7-75 

39-74 

".75 

43.79 

15-85 
47.91 

19.97 

52.03 

24.07 

56.10 

28.10 

0.07 



s 

8.5x71 

3.5190 

8.5809 

3*5836 
8.5343 

8.5358 
8. 5871 

a. 5383 

a.5394 
a. 5305 
3.53x3 
3.53ax 
3.5338 

a. 5333 
a. 5338 
a. 534a 

a. 5343 

a. 5343 
a.5343 
8.534a 

3.5339 
8.5336 

a. 5331 
8.53a4 



>.23 

23 
23 
23 
23 
23 
23 
23 
23 
23 
23 

22 
22 
22 
22 
22 
22 
22 
22 
22 
22 
22 
22 
S.22 



MONDAY 4. 



8 12 

8 14 
8 17 
8 19 
8 22 
8 24 
8 27 
8 29 
8 32 
8 34 
8 37 
8 39 
8 42 

8 44 
8 47 
8 49 
8 52 

8 54 
8 57 

8 59 

9 2 
9 4 



31.99 


8.53x7 


3.87 


a. 5308 


35.69 


a.5a98 


7.45 


8.5388 


39.15 


a.5a77 


10.78 


a.5a65 


42.33 


8.5851 


13.79 


3.5336 


45.16 


8.5880 


16.43 


8*5803 


47.60 


8.5x87 


18.67 


8.5x68 


49.62 


8.5x48 


20.45 


8.5x38 


51.15 


8.5x06 


2Z.72 


8.5085 


52.15 


8.5060 


22.44 


8.5037 


52.59 


8.50X8 


22.58 


a. 4986 


52.42 


a. 4959 


22.09 


8.493a 


51.60 


8.4904 


20.94 


3.4875 


50.10 


8.484s 



6 

7 
6 

6 

6 

5 

5 

4 

3 

2 

I 

59 
58 
56 

54 
52 
50 
47 
45 
42 
39 
37 
33 
30 



S.22 27 
22 23 
22 20 
22 Z6 
22 12 
22 
22 



8 
3 



2Z 59 

21 54 
21 50 

21 45 

21 40 

2Z 35 

2Z 29 
21 24 



z8 

13 

7 

z 



2Z 
21 
21 
21 

20 54 
20 48 
20 42 
20 35 

20 28 
S.20 22 



56.3 

1.7 
58.0 

45.4 
23.7 
53-0 
13.2 
24.3 
26.3 
19.2 

3.0 
37.6 

3.2 
19.7 
27.0 
25.2 
Z4.3 

54.3 
25.2 

47.0 

59.7 

3.4 
58.0 

43.6 



20.2 
47.8 
6.4 
16.0 
Z6.7 

8.5 
51.4 
25.5 
50.8 

7.3 

I5.I 
Z4.I 

4.4 
46. Z 

19.3 

43.9 
0.0 

7-7 
7.0 

57.9 

40.5 
14.8 

4Z.0 

59.0 
8.9 



o.x6s 
-0.0x4 
-*■ 0.XS6 

o.a86 

0-437 
0.388 
0.739 
0.89X 

X.043 
X.194 

X.S47 
X.498 
X.649 

X.808 

X.9S4 

a.xo6 
8.858 
8.409 
8.56Z 
8.7x3 
8.863 
3.0x4 
S.X65 
3*3x3 



S.463 
3*6X5 

S*7«S 

3.9x4 
4-e(^ 

4.8XX 

4.958 
4-505 
4*651 

4.798 
4.943 
5-089 

S.a33 
5.376 
5.5x8 
9*66x 
5.808 
9.94a 
6.06a 

6.381 

6.359 
6.496 
e.638 
6.768 
6.90a 



J 



VL 



DECEMBER, 1899. 



205 



GREENWICH MEAN TIME, 



THE MOON'S RIGHT ASCENSION AND DECLINATION. 



Hoax'. 



Right 
Ascensioa 



Diff. for 
z Minute. 



DecUnatioa 



DifELfor 
X Minute. 



O 

z 
s 
3 

4 

5 
6 

7 
8 

9 

10 

II 

12 

13 

14 

15 
i6 

17 

i8 

19 

20 
21 
22 

23 



o 

I 

2 

3 

4 

5 
6 

7 
8 

9 

lO 

II 

12 

13 

14 

15 
i6 

17 

i8 

19 

20 
21 
22 

23 
24 



TUESDAY 5. 



h 
9 
9 
9 
9 
9 
9 
9 
9 
9 
9 
9 
9 
9 
9 
9 
9 
9 
9 
9 
9 
9 
9 
9 

20 



20 
20 
20 



4 
7 
9 

12 

14 
17 
19 

22 

24 
27 
29 

31 

34 

36 

39 

41 

44 
46 

49 
51 

53 
56 
58 

I 



3 

5 

8 



a 


a 


• 


ff 


» 


» 


50.10 


8.48*5 


S.20 


23 


8.9 


6.90a 


19.08 


a. 4815 


20 


15 


10.8 


7.035 


47.88 


a. 4784 


20 


8 


4.7 


7.X68 


16.49 


«.4753 


20 





50.7 


7.398 


44.91 


a.47» 


19 


53 


28.9 


7.4* 


13.13 


a. 4688 


19 45 


59.3 


7.558 


41.16 


a. 4654 


19 


38 


21.9 


7.687 


8.98 


1.46x9 


19 


30 


36.9 


7.8x4 


36.59 


a. 4585 


t9 


22 


44.2 


7.94X 


4.00 


a.455x 


19 


14 44.0 


8.065 


31.20 


a. 45x5 


19 


6 


36.4 


8.X88 


58.18 


a.4478 


18 


58 


21.4 


8.3XZ 


24.94 


a. 4443 


18 


49 


59.1 


8.433 


51.48 


a.4405 


18 


41 


29.5 


8.553 


17.80 


a. 4368 


18 


32 


52.7 


8.673 


43.89 


8.4339 


18 


24 


8.8 


8,791 


9.75 


8.4393 


18 


15 


17.8 


8.908 


35.39 


3.4354 


z8 


6 


19.9 


9.033 


0.80 


3.43x5 


17 


57 


15. 1 


9.X37 


25.97 


a.4176 


17 


48 


3.5 


9.350 


50.91 


8.4x37 


17 


38 


45.1 


9.36B 


15.61 


3.4097 


17 


29 


20.1 


9.47a 


40.07 


a. 4057 


17 


19 


48.5 


9.58a 


4.29 


8.40x8 


S.17 


10 


10.3 


9.690 



WEDNESDAY 6. 



20 10 
20 13 
20 15 
20 17 
20 20 

20 22 
20 24 
20 27 
20 29 
20 31 

20 34 
20 36 
20 38 
20 41 
20 43 
20 45 
20 48 
20 50 
20 52 

20 55 
20 57 
20 59 



28.28 


3.3978 


S.I 


52.02 


3.3937 




15.52 


3.3897 




38.78 


8.3856 


T 


1.79 


3.3815 


T 


24.56 


a. 3775 


T 


47.09 


8.3734 




9-37 


3.3693 




31.41 


8.3653 




53.20 


3.36x3 




14.75 


8.3571 




36.05 


8.3530 




57.11 


a. 3489 




17.92 


8.3448 




38.49 


a. 3408 




58.82 


a. 3368 




18.91 


8.3338 




38.75 


3.3388 




58.36 


8.3248 




17-73 


a. 3308 




36.86 


3.316S 




55.75 


3.3138 




14.40 


8.3089 




32.82 


8.3051 




51.01 


3.3013 


S.I 



7 
6 

6 

6 

6 

6 

5 

5 

5 

5 

5 

5 

4 

4 

4 

4 

4 

3 

3 

3 

3 

3 

3 
2 

2 



O 

50 
40 

30 
20 
10 

59 

49 
38 
28 

17 
6 

55 
44 

33 

22 

II 

59 
48 
36 
25 

13 

I 

49 
37 



25.7 
34.8 
37.6 
34.2 
24.7 

9.1 
47.6 
20.2 
47.1 

8.2 

23.7 
33.6 
38.1 
37-2 

31. 1 
19.8 

3.3 
41.8 

15.3 

43.9 

7.8 

27.0 

41.5 
51.5 
57.1 



9.796 
9.90X 

X0.0Q5 

IC.X08 

10.809 

XO.309 
X0.408 

10.504 

XO.60O 
X0.695 
X0.788 
X0.880 
X0.970 
XX.058 

XX. X45 

XI. 833 

11.317 

XX.4Q0 
XI. 483 

".563 

XX. 641 
XX. 7x9 

XX.796 

XX. 870 

11.943 



Hour. 



Right 
AacenaioiL 



DiiLfor 
X Minute. 



Declinatioa 



DiiLfor 

X Minute. 



O 

I 
2 
3 

4 

5 
6 

7 

8 

9 
10 

II 

12 

13 

14 

15 
16 

17 
18 

19 
20 

21 
22 

23 



O 

I 
2 

3 

4 

5 
6 

7 
8 

9 
10 

II 

12 

13 

14 

15 
16 

17 

18 

19 
20 

21 

22 

23 
24 



THURSDAY 7, 



h m 

20 59 



2 

2 
2 
2 
2 
2 
2 
2 
2 
2 
2 
2 
2 
2 
2 
2 
2 
2 
2 
2 
2 
2 
2 



21 
22 
22 
22 
22 
22 



2 

4 
6 

9 
II 

13 

15 

18 

20 
22 

24 
27 

29 

31 
33 
36 
38 
40 

42 
45 
47 
49 
51 



a 


a 


• 


t 


• 


m 


51.01 


«.30xs 


S.I2 


37 


57.x 


xx.9fS 


8.97 


8.8974 


12 


25 58.3 


X3.0X6 


26.70 


8*3936 


12 


13 


55.2 


X8.086 


44.20 


8.8898 


12 


Z 


48.0 


X8.X55 


1.48 


8.886X 


ZI 


49 


36.6 


18.883 


18.53 


8.3834 


ZI 


37 


2i.a 


X8.389 


35.37 


8.3788 


ZZ 


25 


1.9 


13.354 


5i»99 


8.8758 


ZI 


12 


38.7 


18.4x8 


8.39 


8.37x5 


IZ 





11.8 


It. 479 


24.57 


8.3679 


ZO 


47 41-2 


xa.540 


40.54 


8.8645 


10 


35 


7.0 


X8.600 


56.31 


8.a6xo 


ZO 


22 


29.2 


X8.6s8 


11.86 


8.3575 


ZO 


9 


48.1 


X8.7XS 


27.21 


8.3543 


9 


57 


3.6 


X8.768 


42.37 


8.3509 


9 


44 


15.9 


X8.888 


57.32 


a. 3476 


9 


31 


25.0 


18. 873 


12.08 


a. 3443 


9 


z8 


31.1 


18.934 


26.64 


8.84XX 


9 


5 


34.1 


X8.974 


41.01 


8.8380 


8 


52 


34-2 


X3.O88 


55.20 


8.3350 


8 


39 


31.5 


13.068 


9.21 


8.83X9 


8 


26 


26.0 


X3.XX4 


23.03 


8.8888 


8 


13 


Z7.8 


13.158 


36.67 


8.8359 


8 





7-1 


IS.I99 


50.14 


8. 8830 


S. 7 


46 


53.9 


XS.84X 



ai 54 

21 56 



58 
o 
2 

5 
7 
9 



22 II 
22 13 
22 16 
22 18 
22 20 
22 22 
22 24 
22 27 

22 29 
22 31 
22 33 

22 35 
22 37 
22 40 
22 42 
22 44 
22 46 



FRIDAY 8. 

S. 7 
7 

7 
6 

6 

6 

6 

5 
5 
5 
5 

5 

4 
4 
4 
4 
3 
3 
3 
3 
3 

2 

2 

2 

S. 2 



3.43 


8.3803 


16.56 


8.3x74 


29.52 


8.8147 


42.32 


a. 3190 


54.96 


8.3094 


7.45 


3.8069 


19.79 


t.3044 


31.98 


8.80I9 


44.02 


8.1995 


55.92 


9.1973 


7.68 


a. 1949 


19.31 


8. 1938 


30.81 


8.X9Q7 


42.19 


8.X886 


53.44 


8.1865 


4.57 


8.X846 


15.59 


8.X838 


26.50 


8.X809 


37.30 


a.i79z 


47.99 


8.X773 


58.58 


a. 1757 


9.08 


8.1743 


19.49 


a. 1787 


29.80 


8.17x8 


40.03 


8.X698 



38.2 

20. 2 

0.0 

37-6 

13. 1 
46.6 

18.2 

47.9 
Z5.9 

42.1 

6.8 

30.0 

5Z.8 

12.2 

31.3 

49.2 

6.0 
21.8 
36.6 

50.5 

3.6 

16.0 

34 27.7 
20 38.8 

6 49-5 



33 

20 

7 

53 
40 

26 

13 
59 
46 
32 
19 
5 

51 
38 

24 
10 

57 
43 

29 

15 
2 

48 



xs«a8i 

13.3x8 
XS.355 

X3.39X 
xs.4a5 
XS.458 
X3.489 
13.519 

X3.548 

13.576 
X3.60X 
X3.685 
X3.648 
13.671 
13.693 
X3.7XX 
X3.7a8 

X3.745 
X3.761 

X3.775 

X3.788 

X3.799 
13.8x0 
X3.8x8 
X3.885 



206 



DECEMBER, 1899. 



VII. 



GREENWICH MEAN TIME. 



THE MOON»S RIGHT ASCENSION AND DECLINATION, 



Hour. 



RiRht 
Ascensioa 



Diff.for 
X Minute. 



Declination. 



Diff. for 
z Minute. 



Hour. 



RiRht 
Ascension. 



Diff. for 
z Minute. 



Declination. 



DiCfbr 
z Minute. 



O 

Z 
2 

3 

4 

5 
6 

7 

8 

9 

10 

II 

12 

13 

14 

15 
i6 

17 
i8 

19 

20 
21 
22 

23 



O 

I 
2 

3 

4 

5 
6 

7 

8 

9 

lO 

II 

12 

13 

14 

15 
i6 

17 

i8 

19 

20 
21 
22 
23 
24 



SATURDAY 9, 



MONDAY II. 



h m 
22 46 
22 48 
22 51 

a2 53 
2« 55 
22 57 
22 59 



23 
23 
23 
23 



I 

3 
6 

8 



23 10 
23 12 

23 14 
23 16 

23 19 
23 21 
23 23 
23 25 
23 27 
23 29 
23 32 

23 34 
23 36 



23 38 

23 40 
23 42 

23 44 

23 47 

23 49 

23 51 

23 53 

23 55 

23 57 
o o 



s 


s 


40.03 


2.1698 


50.18 


3.z68s 


0.25 


2.1673 


10.25 


a.z66z 


20.18 


3.x6so 


30.05 


2. Z639 


39.85 


3.Z629 


49.60 


2.Z620 


59.29 


2.X6Z2 


8.94 


3.z6o4 


18.54 


a.x597 


28.10 


2.X590 


37.62 


2.Z584 


47.11 


a.X579 


56.57 


2.Z574 


6.00 


2.1570 


15.41 


a. 1567 


24.80 


2. 1563 


34.17 


2.XS63 


43.54 


2. 156Z 


52.90 


2.Z559 


2.25 


a.x559 


II. 61 


a. Z56Z 


20.98 


2.Z562 



s. 



s. 

N. 



N. 



2 

I 
z 
z 
z 
o 
o 
o 
o 
o 
o 
o 
o 
o 
I 
z 
z 
z 

2 
2 
2 

2 

2 

3 



6 
52 
39 

25 
zi 

57 

43 

29 
16 

2 

II 

25 

39 

53 
6 

20 

34 

48 

I 

15 
29 
43 
56 
10 



49.5 

59.8 

9.7 

19.3 

28.8 

38.2 

47.5 

56.9 
6.4 

16. 1 

33.9 
23.6 

12.8 

1.5 
49.7 
37.2 
24.0 

lO.O 

55.1 

39.3 
22.4 

4.4 

45.3 
25.0 



o 
o 
o 
o 
o 
o 
o 
o 
o 
o 
o 
o 
o 
o 



2 

4 
6 

8 

10 

13 

15 

17 

19 
21 

23 
26 

28 
30 



SUNDAY zo. 

N. 3 

3 

3 

4 

4 

4 

4 

4 

5 

5 

5 

5 
6 

6 

6 

6 

6 

7 
7 
7 

7 

8 

8 

8 

N. 8 



30.35 


2.X563 


39.73 


2.Z565 


49.13 


2.ZS68 


58.55 


3.157a 


7.99 


2.1576 


17.46 


2. Z58Z 


26.96 


2.1586 


36.49 


2.X592 


46.06 


a.x598 


55.67 


a.z6o6 


5.33 


2.z6z3 


15.03 


3.X632 


24.79 


8.Z633 


34.61 


2.X64Z 


44.48 


2.Z650 


54-41 


2.x66z 


4.41 


a. 1673 


14.48 


2.1684 


24.62 


2.X637 


34-84 


2.1709 


45.13 


2.1723 


55.51 


a.x737 


5.97 


2.1750 


16.51 


3.1765 


27.15 


2. 1781 



24 

37 

51 

4 
18 

31 
45 



3.3 

40.2 

15.7 
49.6 
21.9 
52.6 
21.5 
58 48.5 

Z2 13.7 

36.9 
58.0 

17.0 

33.9 

48.5 
0.8 

10.6 

18.0 

22.9 

25.1 

24.7 

21.5 

15.5 

6.6 

54.7 
39.8 



25 
38 
52 

5 

18 

32 

45 
58 
II 

24 
37 
50 

3 
16 

28 
41 



(f 




h m 


«3.825 





30 


X3.832 


I 


32 


X3.838 


2 


34 


13.841 


3 


36 


13.843 


4 


39 


13.844 


5 


41 


13.844 


6 


43 


13.843 


7 


45 


Z3.840 


8 


47 


Z3.836 


9 


50 


X3.831 


10 


52 


13.834 


II 


54 


Z3.8z6 


12 


56 


X3.808 


13 


58 


13.798 


14 


I I 


Z3.786 


15 


I 3 


X3.773 


16 


I 5 


13.759 


17 


I 7 


13.744 


18 


I 9 


X3.7a8 


19 


I Z2 


13.709 


20 


I 14 


X3.69X 


21 


I 16 


13.673 


22 


z 18 


Z3.650 


23 


Z 2Z 



ZS.627 
13.603 
X3.578 

xs.55a 

13.585 

X3.497 
13.466 

X3.433 
13.403 

X3.369 

X3.334 
13.399 
15.363 

13. 834 
I3.X84 

X3.I43 
13.102 

X3.059 
13.0x5 
12.970 
13.933 
X3.876 
13.828 

13.777 
18. 736 



o 
I 

2 

3 

4 

5 

6 

7 
8 

9 
o 

I 

2 

3 

4 

5 
6 

7 

8 

9 
20 

21 
22 

23 
24 



2 
2 

2 
2 
2 
2 
2 



8 


S 


m 


r 


m 


m 


27.15 


8.1781 


N. 8 


41 


39.8 


X3.786 


37.88 


3.1797 


8 


54 


21.8 


X8.673 


48.71 


8.1818 


9 


7 


0.6 


x2.6ao 


59.63 


8. 1828 


9 


19 


36.2 


X2.566 


10.65 


8. 1846 


9 


32 


8.5 


- 12.510 


21.78 


8.1864 


9 


44 37.4 


X8.453 


33.02 


8.1883 


9 


57 


2.8 


18. 394 


44.37 


3.19OX 


10 


9 


24.7 


xa.335 


55.83 


3.1980 


10 


21 


43.0 


X8.875 


7.41 


3.1939 


10 


33 


57.7 


X8.8I4 


19.10 


3.1958 


10 


46 


8.7 


18. 158 


30.91 


3.1978 


ID 


58 


15.9 


18. 088 


42.84 


8.X999 


II 


10 


19.2 


18.083 


54.90 


3.3030 


IZ 


22 


18.6 


11.956 


7.08 


8.304X 


II 


34 


13.9 


11.888 


19.39 


8.3063 


IZ 


46 


5.2 


11.881 


31.84 


8.3086 


II 


57 


52.4 


XX.75X 


44.42 


8.8X06 


12 


9 


35.3 


11.680 


57.13 


3.3139 


12 


21 


14.0 


Z1.609 


9.97 


a. 8x53 


12 


32 


48.4 


XI. 536 


22.96 


8.3x76 


12 


44 


18.3 


11.463 


36.08 


8.8199 


12 


55 


43.8 


11.387 


49.35 


8.3833 


13 


7 


4.7 


11.3x1 


2.76 


3.3847 


N.13 


18 


21. Z 


XX.834 



TUESDAY 



23 

25 

27 
29 

32 

34 
36 
38 
41 
43 
45 
47 
50 
52 

54 
56 

59 
I 

3 

6 

8 
10 
12 

15 
17 



16.31 


8.3371 


30.01 


3.3396 


43.86 


3.8330 


57.85 


8.3345 


12.00 


8.2370 


26.29 


8.3395 


40.74 


3.343X 


55-34 


8.3447 


10.10 


a. "473 


25.01 


3.3498 


40.07 


•.3533 


55-29 


8.2550 


10.67 


8.3576 


26.20 


8.3603 


41.89 


8.8638 


57.74 


3.8654 


13.74 


3.2680 


29.90 


3.3707 


46.22 


a. 3733 


2.70 


a. 3759 


19-33 


S.37»J 


36.12 


8.28XX 


53.06 


3.2837 


10.16 


3. 2863 


27.42 


8.2889 



N. 



N. 



2. 

3 
3 
3 

4 

4 

4 

4 

4 

4 

5 

5 

5 

5 

5 

5 
6 

6 

6 

6 

6 

6 

7 
7 
7 
7 



29 

40 

51 
2 

13 
24 
35 
45 
56 
6 
16 
27 

37 

47 

57 

7 

17 
26 

36 

46 

55 

4 

14 

23 

32 



32.8 

39.8 
42.0 

39.3 

31.7 
19. 1 

1.4 

38.6 

10.7 

37.5 
59.0 
15.2 

25.9 
31.1 
30.8 

24.8 
13-2 
55.8 
32.7 

3.7 

28.8 

47.9 
i.o 

8.0 

8.8 



ti.156 

11.077 
10.996 
Z0.914 
10.838 
to. 748 
10.663 
10.576 
10.491 
10.403 

10.514 

X0.884 

X0.XS3 
10.041 

9.948 
9.853 
9.758 
9.663 
9.566 
9.4^ 
9.3^8 
9* 868 
9.168 
9.065 
8.963 



VIII. 



DECEMBER, 1899. 



207 











GRRRNWICH 


MEAN TIME. 








THE MOON'S RIGHT ASCENSION AND DECLINATION. 


Hour. 




Right 


DlfELfor 


Declination. 


DifELfor 


Hour. 


Right 


DillLfor 


Declination. 


DUE. tor 




Atcension. 


z MinutA. 




X Minnto. 






X Minute. 




I Minute. 






WE 


DNESE 


►AY 13. 






FRIDAY 


15. 






h 


m a 


a 


• » 


m 




h m a 


a 


a » » 


» 





3 


17 27.42 


a. 9889 


N.17 32 8.8 


8.963 





4 9 41.77 


3.3685 


N.22 29 7.4 


3.178 


I 


2 


19 44.83 


8.29x4 


17 41 3.5 


8.859 


I 


4 12 3.89 


3.3687 


22 32 14. 1 


3.046 


a 


2 


22 2.39 


a.«94o 


17 49 51-9 


8.754 


2 


4 14 26.02 


8.3688 


22 35 12.9 


3.9x4 


3 


2 


24 20.11 


a. 9966 


17 58 34-0 


8.649 


3 


4 16 48.15 


8.36S8 


22 38 3.8 


2.782 


4 


2 


26 37.98 


a.a99x 


z8 7 9.8 


8.543 


4 


4 19 10.28 


8.3688 


22 40 46.7 


2.649 


5 


2 


28 56.00 


a.aoz6 


18 15 39.2 


8.436 


5 


4 21 32.40 


2.36B6 


22 43 21.7 


8.5x7 


6 


2 


31 14.17 


8.3040 


18 24 2.1 


8.396 


6 


4 23 54-51 


8.3684 


22 45 48.7 


8.384 


7 


a 


33 32-48 


8.so6« 


18 32 18.5 


8.2X9 


7 


4 26 16.61 


8.3661 


22 48 7.8 


8.a5a 


8 


2 


35 50.94 


8.3069 


18 40 28.4 


8.X09 


8 


4 28 38.68 


8.3677 


22 50 18.9 


8.xz8 


9 


2 


38 9.55 


8.3x13 


18 48 31.6 


7.99B 


9 


4 31 0.73 


8.3673 


22 52 22.0 


X.986 


lO 


2 


40 28.30 


8.3x37 


18 56 28.2 


7.887 


10 


4 33 22.75 


8.3667 


22 54 17.2 


X.853 


II 


2 


42 47.19 


8.3x60 


19 4 18.0 


7.773 


II 


4 35 44-73 


8.3660 


22 56 4.4 


1.720 


12 


2 


45 6.22 


8.3183 


19 12 I.O 


7.660 


12 


4 38 6.67 


8.3653 


22 57 43.6 


1.588 


13 


2 


47 25.39 


8.3807 


19 19 37.2 


7.547 


13 


4 40 28.57 


8.3645 


22 59 14.9 


1.455 


14 


2 


49 44.70 


8.3«9 


19 27 6.6 


7.433 


14 


4 42 50.41 


8.3636 


23 38.2 


1.323 


15 


2 


52 4. 14 


8.3851 


19 34 29.1 


7.317 


15 


4 45 12.20 


a. 3627 


23 X 53.6 


X.X9X 


i6 


2 


54 23.71 


8.3873 


19 41 44.6 


7.801 


16 


4 47 33.93 


2.36x6 


23 3 I.I 


1.038 


17 


2 


56 43.41 


8.3894 


19 48 53.2 


7.084 


17 


4 49 55.59 


8.3604 


23 4 0.6 


0.986 


i8 


2 


59 3.24 


8.33x5 


19 55 54.7 


6.9G6 


18 


4 52 17.18 


2.3592 


23 4 52.2 


0.793 


19 


3 


I 23.19 


a«3335 


20 2 49.1 


6.848 


19 


4 54 38.69 


8.3579 


23 5 35.8 


0.662 


20 


3 


3 43.26 


a. 3356 


20 9 36.4 


6.729 


20 


4 57 0.13 


a. 3566 


23 6 II. 6 


0.53X 


21 


3 


6 3.46 


■.3376 


20 16 16.6 


6.6x0 


21 


4 59 21.48 


8.3551 


23 6 39.5 


0.399 


22 


3 


8 23.77 


8.3394 


20 22 49.6 


6.4% 


22 


5 I 42.74 


3.3536 


23 6 59.5 


0.868 


23 


3 


zo 44.19 
TK 


8.341s 

lURSDi 


N.20 29 15.3 
\Y 14. 


6.36B 


23 


5 4 3-91 
SA 


3.3519 
TURDi! 


N.23 7 1 1.6 
lY 16. 


O.X36 





3 


13 4.73 


8.3438 


N.20 35 33.7 


6.846 





5 6 24.97 


8.3508 


N.23 7 15.8 


+ 0.005 


I 


3 


15 25.37 


8.3449 


20 41 44.8 


6.183 


I 


5 8 45.93 


8.3484 


23 7 12.2 


— 0.X25 


2 


3 


17 46,12 


8.3467 


20 47 48.5 


6.00X 


2 


5 II 6.78 


a. 3466 


23 7 0.8 


0.354 


3 


3 


20 6.97 


8.3483 


20 53 44.9 


5.878 


3 


5 13 27.52 


8.3446 


23 6 41.7 


0.384 


4 


3 


22 27.92 


8.3499 


20 59 33.8 


5.753 


4 


5 15 48^13 


8.3435 


23 6 14.7 


0.5x4 


5 


3 


24 48.96 


8.35x5 


21 5 15.2 


5.6B8 


5 


5 18 8.62 


8.3405 


23 5 40.0 


0.643 


6 


3 


27 10.10 


8.3530 


21 10 49.2 


5.503 


6 


5 20 28.99 


8.3383 


23 4 57.6 


0.77X 


7 


3 


29 31.32 


8.3543 


21 16 15.6 


5.378 


7 


5 22 49.22 


8.3360 


23 4 7-5 


0.899 


8 


3 


31 52.62 


3.3558 


21 21 34.5 


5.358 


8 


5 25 9.31 


3.3337 


23 3 9.7 


X.028 


9 


3 


34 14.01 


8.3578 


21 26 45.8 


5.125 


9 


5 27 29,26 


3.3313 


23 2 4.2 


1.155 


lO 


3 


36 35.48 


8.3583 


ai 31 49.5 


4.99B 


10 


5 29 49.06 


3.3388 


23 51.1 


1.282 


II 


3 


38 57.01 


8.3595 


21 36 45.5 


4.869 


II 


5 32 8.71 


2.326s 


22 59 30.4 


1.408 


12 


3 


41 18.62 


2.3607 


21 41 33.8 


4.743 


12 


5 34 28.21 


2.3236 


22 58 2.2 


1.533 


13 


3 


43 40.29 


2.36x8 


ai 46 14.5 


4.613 


13 


5 36 47.54 


2.3208 


22 56 26.4 


1.659 


14 


3 


46 2.03 


2.3628 


21 50 47.4 


4.484 


14 


5 39 6.71 


8.3x8x 


22 54 43.x 


1.784 


15 


3 


48 23.82 


3.3636 


21 55 12.6 


4.355 


15 


5 41 25.71 


8.3x53 


22 52 52.3 


1.909 


i6 


3 


50 45.66 


a.3644 


21 59 30.0 


4.325 


16 


5 43 44.54 


8.3x33 


22 50 54.0 


3.033 


17 


3 


53 7.55 


8.365a 


22 3 39.6 


4.095 


17 


5 46 3.19 


8.3093 


22 48 48.3 


2.Z56 


i8 


3 


55 29.48 


3.3659 


22 7 41.4 


3.965 


18 


5 48 21.66 


8.3063 


22 46 35.3 


2.278 


19 


3 


57 51.46 


8.3^66 


22 II 35.4 


3.835 


19 


5 50 39.94 


8.3033 


22 44 14.9 


2.401 


20 


4 


13.47 


a.367x 


22 15 21.6 


3.704 


20 


5 52 58.04 


3.3000 


22 41 47.2 


2.522 


21 


4 


2 35.51 


2.3676 


22 18 59.9 


3.573 


21 


5 55 15.94 


8.2968 


22 39 12.3 


3.643 


22 


4 


4 57.58 


8.3680 


22 22 30.3 


3.44X 


2a 


5 57 33.65 


2.2935 


22 36 30.1 


3.763 


23 


4 


7 19.67 


8.3683 


22 25 52.8 


3.309 


23 


5 59 51.16 


2.2gox 


22 33 40.7 


2.883 


24 


4 


9 41-77 


■.3685 


N.22 29 7.4 


3. 178 


24 


6 a 8.46 


2.8867 


N.22 30 44.1 


3.00s 



208 



DECEMBER, 1899. 



— 








GREENWICH 


MEAN 


TIME. 








1 




THE MOON'S 


RIGHT 


ASCENSION AND DECLINATION. 




Hour. 




RlRht 


Diff. for 


Declination. 


Di&tor 


Hour. 




Right 


Diff. for 


l>ecUnstion. 


Diff. for 




Ascension. 


z Minute. 






1 Minute. 




Ascension. 


I Minute. 




zMinnts.! 






S 


.UNDA1 


I ^^. 










TUESDAY 19. 






h 


m t 


t 


• 


# • 


m 




h 


m s 1 


s 


• » » 


m 





6 


2 8.46 


3.3867 


N.22 


30 44-1 


3.003 





7 47 9.83 


8.o8q3 


N.18 4 26.4 


7.7^ 


z 


6 


4 25.56 


2«3833 


22 


27 40.4 


3.I3Z 


I 


7 


49 14-51 


8.0758 


17 56 38.3 


7.840 


2 


6 


6 42.44 


2.2796 


22 


24 29.6 


3.838 


2 


7 


51 18.92 


3.0713 


17 48 45.6 


7.917 


3 


6 


8 59.11 


3.3760 


22 


21 II. 8 


3.355 


3 


7 


53 23.06 


8.0668 


Z7 40 48.3 


7.993 


4 


6 


II 15.56 


8.3734 


22 


17 47.0 


3.47X 


4 


7 


55 26.93 


8.0688 


17 32 46.5 


8.067 


5 


6 


13 3i'8o 


3.3688 


22 


14 15.3 


3.586 


5 


7 


57 30.52 


a. 0577 


17 24 40.3 


8.Z40 


6 


6 


15 47.81 


3.2649 


22 


zo 36.7 


3.70X 


6 


7 


59 33.85 


8.0538 


17 16 29.7 


8.8X3 


7 


6 


18 3-59 


8. 361 I 


22 


6 51.2 


3.8x6 


7 


8 


I 36.90 


8.0486 


17 8 Z4.7 


8.886 


8 


6 


20 19.14 


a.a57S 


22 


2 58.8 


3.939 


8 


8 


3 39.68 


8.0448 


16 59 55-4 


8.357 


9 


6 


22 34.46 


S.3533 


21 


58 59.7 


4.04X 


9 


8 


5 42.20 


8.0398 


16 5z 31.9 


8.487 


10 


6 


24 49-54 


8.3493 


21 


54 53.9 


4.153 


10 


8 


7 44.45 


3.0353 


16 43 4.2 


8.495 


11 


6 


27 4-38 


3.2454 


21 


50 41.4 


4-364 


II 


8 


9 46.44 


8.0309 


16 34 32.5 


8.569 


Z2 


6 


29 18.99 


8.3414 


21 


46 22.2 


4.374 


12 


8 


zz 48. z6 


3.0265 


16 25 56.6 


8.63a 


13 


6 


31 33.35 


3.8373 


21 


41 56.5 


4.483 


13 


8 


Z3 49.62 


3.0223 


16 17 16.7 


8.698 


14 


6 


33 47.46 


8.3333 


21 


37 24.2 


4.593 


14 


8 


15 50.82 


3.0x78 


16 8 32.9 


8.763 


15 


6 


36 1.33 


3.3291 


21 


32 45.4 


4.700 


15 


8 


17 51.76 


8.0x35 


15 59 45-1 


B. BaB 


i6 


6 


38 14.95 


3.2249 


21 


28 0.2 


4.807 


16 


8 


19 52.44 


2.0098 


15 50 53.5 


8.893 


17 


6 


40 28.32 


3.2207 


21 


23 8.6 


4.913 


17 


8 


21 52.86 


8.0049 


Z5 4Z 58.0 


8.956 


i8 


6 


42 41.43 


3.2163 


21 


18 10.7 


5.018 


18 


8 


23 53.03 


8.0008 


15 32 58.8 


9.0x8 


19 


6 


44 54.28 


3.3I3Z 


21 


13 6.5 


5.X33 


19 


8 


25 52.95 


Z.9966 


15 23 55.9 


9.079 


20 


6 


47 6.88 


3.3078 


21 


7 56.0 


5.886 


20 


8 


27 52.62 


X.9934 


15 14 49.3 


9.140 


21 


6 


49 19.21 


3.3034 


21 


2 39.4 


5.338 


21 


8 


29 52.04 


X.9883 


15 5 39.1 


9.199 


22 


6 


51 31.29 


3.1991 


20 


57 16.6 


S.431 


22 


8 


31 51.21 


X.9843 


14 56 25.4 


9.358 


83 


6 


53 43.10 
M 


8.X946 

0NDA1 


N.20 

{ x8. 


51 47.7 


5.331 


23 


8 


33 50.14 
WE] 


X.9801 

DNESD 


N.14 47 8.Z 
AY 20. 


9.917 





6 


55 54.64 


8.1908 


N.20 


46 12.9 


5.^1 





8 


35 48.82 


X.9760 


N.14 37 47.4 


9.373 


z 


6 


58 5.92 


8.Z858 


20 


40 32.0 


5-731 


z 


8 


37 47.26 


1.9731 


Z4 28 23.3 


9.430 


2 




16.93 


3.Z813 


20 


34 45.2 


5.888 


2 


8 


39 45.47 


1.9688 


Z4 18 55.8 


9.485 


3 




2 27.67 


8. 1768 


20 


28 52.6 


5.936 


3 


8 


41 43.44 


1.9643 


14 9 25.1 


9-539 


4 




4 38.14 


8.17*3 


20 


22 54.1 


6.083 


4 


8 


43 41.18 


1.960s 


13 59 5I-I 


9.393 


5 




6 48.34 


8.1678 


20 


16 49.9 


6.1x8 


5 


8 


45 38.68 


1.9564 


X3 50 13.9 


9.647 


6 




8 58.27 


8.163s 


20 


10 39.9 


6.3X3 


6 


8 


47 35.95 


1.9537 


13 40 33.5 


9-690 


7 




II 7.92 


8.1586 


20 


4 24.3 


6.307 


7 


8 


49 33.00 


1.9490 


Z3 30 50.0 


9.750 


8 




13 17.30 


8.I54X 


19 


58 3.1 


6.400 


8 


8 


51 29.83 


1-9453 


13 2Z 3.5 


9-8of 


9 




15 26.41 


2.1495 


19 


51 36.3 


6.493 


9 


8 


53 26.43 


1.9415 


13 " 13.9 


9-851 


lO 




17 35.24 


8.1448 


19 


45 4.0 


6.583 


zo 


8 


55 22.81 


1.9378 


Z3 z 21.4 


9.899 


II 




19 43.79 


8.1403 


19 


38 26.3 


6.673 


IZ 


8 


57 18.97 


1.9343 


Z2 5z 26.0 


9.94t 


12 




21 52.07 


1.1357 


19 


31 43.3 


6.763 


12 


8 


59 1492 


x.93ca 


Z2 4Z 27.7 


9-995 


13 




24 0.07 


S.131X 


19 


24 54.9 


6.85X 


X3 


9 


z 10.66 


1-9373 


Z2 31 26.6 


XO.048 


14 




26 7.80 


8.X365 


19 


18 Z.2 


6.938 


14 


9 


3 6.18 


1.9337 


12 21 22.7 


MbOBB 


15 




28 15.25 


a.iti8 


19 


II 2.3 


7.034 


15 


9 


5 1.50 


1-9303 


Z2 ZZ 16.0 


10. 133 


i6 




30 22.42 


8.xt73 


19 


3 58.3 


7.XX0 


16 


9 


6 56.61 


1.9x68 


Z2 Z 6*7 


W.I77 


17 




32 29.31 


8.X136 


18 


56 49.x 


7.»95 


17 


9 


8 51.5a 


1.9136 


ZZ SO 54.8 


10.880 


i8 




34 35-93 


8.1080 


18 


49 34-9 


7.379 


18 


9 


10 46.24 


1.9x03 


zz 40 40.3 


10.863 


19 




36 42.27 


3.1034 


18 


42 15.6 


7.363 


19 


9 


12 40.76 


X.9070 


IZ 30 23.2 


10.306 j 


20 




38 48.34 


8.0988 


18 


34 51.4 


7.443 


20 


9 


14 35.08 


1.9038 


zi 20 3.6 


10-347 


i 2^ 




40 54.13 


8. 0943 


18 


27 22.4 


7.534 


21 


9 


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1.9008 


ZZ 9 4Z.6 


IOW388 


1 ** 




42 59.64 


a. 0895 


18 


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7.605 


22 


9 


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1.8976 


zo 59 Z7.Z 


10.488 


23 




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18 


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23 


9 


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10 48 50.3 


M.4« 


> 24 

1 




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N,i8 


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24 


9 


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N.ZO 58 2Z.8 


n.f0| 

i 



X. 



DECEMBER, 1899. 



209 









GREENWICH 


MEAN TIME. 






1 




THE MOON'S RIGHT 


ASCENSION AND DECLINATION. 




Honr. 


Right 


Diff.for 


DocUnatioOi 


Diff.for 


Hour. 


Right 


Dlff.for 


Declinatioa 


Diftfor 


A Jk\#VA*# 


Asceniioa 


X Minute. 




xMiaate. 




Ascemion. 


X Minnto. 




xMinate. 




TH 


[URSD/ 


LY 2z. 






SATURDAY 23. 






h m s 


8 


• » « 


•» 




h m a 


8 


• 0m 


• 





9 22 IO.5Z 


1.89x5 


N.zo 38 2z.a 


10, yn 





ZO 50 32.53 


x«8x87 


N. z 42 50.9 


ii.3«4 


I 


9 24 3-91 


Z.8886 


zo 27 49.8 


10.548 


I 


ZO 52 2Z.28 


x.8xas 


z 3z z6.8 


XX. 57a 


3 


9 25 57.14 


Z.8858 


zo Z7 z6.2 


XO.578 


2 


ZO 54 Z0.03 


1.8x84 


z Z9 42.3 


XX. 578 


3 


9 27 50.20 


x.88a8 


zo 6 40.4 


xo.6t5 

• 


3 


10 55 58.77 


X.8183 


z 8 7.4 


XX.584 ! 


4 


9 29 43.08 


Z.8800 


9 56 2.4 


10.65X 


4 


10 57 47.51 


X.8X83 


56 32.2 


11.590 


5 


9 31 35.80 


1.8773 


9 45 22.3 


XO.685 


5 


zo 59 36.25 


1.8x84 


44 56.6 


XX. 595 


6 


9 33 28.36 


1.8747 


9 34 40.2 


XO.719 


6 


zi z 25.00 


x.8xa6 


33 20.8 


XX.598 


7 


9 35 20.76 


1.8790 


9 23 56.0 


10.753 


7 


zz 3 Z3.76 


x.8xa8 


2Z 44.8 


XX.608 


8 


9 37 13.00 


x-8693 


9 13 9.9 


XO.784 


8 


zz 5 2.53 


1.8x30 


N. zo 8.6 


XX.605 


9 


9 39 5.08 




9 2 2Z.9 


X0.8X7 


9 


zz 6 51.32 


1.8x33 


S. z 27.8 


XX.608 


lO 


9 40 57.OZ 


X.8643 


8 5Z 31.9 


XO.848 


zo 


zz 8 40. Z3 


X.8X38 


Z3 4.4 


XX. 6X0 


IZ 


9 42 48.80 


Z.S6Z9 


8 40 40. z 


XO.879 


zz 


zz 10 28.97 


X.8X43 


24 4Z.0 


XX.6XX 


12 


9 44 40.44 


X.8595 


8 29 46.4 


XO.909 


Z2 


zz Z2 Z7.84 


X.8X48 


36 Z7.7 


XX.6X8 


13 


9 46 31.94 


x.837a 


8 z8 5Z.O 


XO.938 


13 


zz Z4 6.74 


1.8153 


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XX. 6X8 


14 


9 48 23.30 


X.8S49 


8 7 53.8 


10.968 


14 


zz Z5 55.68 


x.8x6o 


59 3Z.Z 


XX.6X8 


15 


9 50 14.53 


z.85fl8 


7 56 54.9 


xo.9f5 


15 


zz Z7 44.66 


X.8167 


Z IZ 7.8 


xx.6xi , 


z6 


9 52 5.63 


Z.8506 


7 45 54.4 


XX.0S8 


16 


zz Z9 33.68 


1.8x74 


z 22 44.4 


XX.609 


17 


9 53 56-60 


1.8485 


7 34 52.3 


SI. 048 


17 


zz 2z 22.75 


X.8183 


z 34 20.9 


XX.6D7 


i8 


9 55 47.45 


X.8465 


7 25 48.6 


1X.075 


z8 


zz 23 ZZ.88 


X.8X93 


I 45 57.2 


XX.6CQ 


19 


9 57 38.18 


X.8445 


7 12 43.3 


ZS. lOZ 


19 


zz 25 z.o6 


X.8808 


I 57 33.3 


XX. 600 


zo 


9 59 28.79 


x.84a5 


7 I 36.5 


XS.Z85 


20 


zz 26 50,30 


X.88X8 


2 9 9.2 


1X.597 


21 


zo z 19.28 


X.8406 


6 50 28.3 


XZ.I48 


2Z 


zz 28 39.60 


X.8883 


2 20 44.9 


X1.593 


22 


zo 3 9.66 


X.8388 


6 39 Z8.7 


ZZ.178 


22 


zz 30 28.97 


X.8834 


2 32 20.3 


XX.587 


23 


10 4 59-94 


X.8371 

'RIDAY 


N. 6 28 7.7 

22. 


11. 19s 


23 


zz 32 Z8.4Z 

S 


X.8847 

UNDA^ 


S. 2 43 55.3 
'24. 


11.580 


o 


zo 6 50. Z2 


X.8354 


N. 6 z6 55.3 


IU8X8 





IZ 34 7.93 


x.8a6o 


S. 2 55 29.9 


11.574 


X 


zo 8 40. Z9 


X.8338 


6 5 41.6 


XX.838 


Z 


" 35 57.53 


1.8874 


3 7 4.2 


XX. 568 


2 


zo zo 30. z 7 


1.8383 


5 54 26.7 


XX. 859 


2 


zz 37 47.22 


X.8888 


3 i8 38.0 


XX. 560 


3 


zo 12 20.06 


X.8307 


5 43 10.5 


xx.i79 


3 


zz 39 36.99 


1.8303 


3 30 ZI.4 


XX.558 


4 


zo Z4 9.85 


x.8a9a 


5 31 53.2 


XX.998 


4 


zz 4Z 26.85 


X.83X8 


3 41 44.2 


XI. 543 


5 


10 Z5 59.56 


X.8878 


5 20 34.7 


XX.3Z8 


5 


zz 43 z6.8i 


1.8335 


3 53 16.5 


XX. 533 


6 


zo Z7 49.19 


1.8265 


5 9 15.1 


XX. 336 


6 


zz 45 6.87 


l.835t 


4 4 48.2 


XX.583 


7 


zo Z9 38.74 


x.8a53 


4 57 54.4 


XX. 354 


7 


zz 46 57.03 


X.8369 


4 16 Z9.3 


XX.513 


8 


zo 2Z 28.22 


x.8a40 


4 46 32.6 


xx.37a 


8 


zz 48 47.30 


x.8388 


4 27 49.8 


XX.508 


9 


10 23 Z7.62 


x.8sa8 


4 35 9.8 


XX. 388 


9 


zz 50 37.68 


x.8406 


4 39 19.5 


XX.489 


zo 


zo 25 6.95 


x.8ax7 


4 23 46.0 


XX. 404 


zo 


zz 52 28. Z7 


X.8485 


4 50 48.5 


XX.477 


IZ 


10 26 56.22 


z.8«7 


4 Z2 2Z.3 


XX.4X9 


zz 


zz 54 Z8.78 


X.8446 


5 2 Z6.7 


XX. 463 


1 za 


zo 28 45.43 


x,8i97 


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XX.434 


Z2 


zz 56 9.52 


X.84e7 


5 13 44.1 


1X.449 


' 13 


zo 30 34.58 


z.8z88 


3 49 29.2 


XX.448 


13 


zz 58 0.38 


X.8488 


5 25 Z0.6 


XX.435 


14 


zo 32 23.68 


1.8x79 


3 38 X.9 


XX. 468 


14 


" 59 51.37 


X.85X0 


5 36 36.3 


xx.4ao 


15 


zo 34 Z2.73 


X.8X7X 


3 26 33.8 


11. 475 


15 


Z2 Z 42.50 


1.8533 


5 48 z.o 


XX.404 


. z6 

1 


zo 36 Z.73 


x»8x63 


3 15 4.9 


XX.487 


16 


12 3 33.77 


1.8557 


5 59 24.8 


XX. 388 


I Z7 


zo 37 50.69 


1.8x57 


3 3 35.4 


XX. 498 


17 


Z2 5 25. z8 


Z.8580 


6 zo 47.6 


XX.37X 


1 i8 


zo 39 39.6Z 


X.8XSX 


2 52 5.Z 


XX.5XX 


z8 


Z2 7 Z6.73 


1.860s 


6 22 9.3 


XX.353 


1 19 


10 41 28.50 


X.8145 


2 40 34. z 


XX.53X 


19 


Z2 9 8.44 


X.863X 


6 33 29.9 


XX. 334 


20 


10 43 17.35 


X.8Z40 


2 29 2.6 


XX.53X 


20 


Z2 zz 0.30 


X.8656 


6 44 49.4 


XX.316 1 


21 


10 45 6.18 


X.8136 


2 17 30.4 


XX. 541 


21 


12 Z2 52.31 


X.8683 


6 56 7.8 


XX.897 


22 


zo 46 54.98 


x.8x3a 


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XX. 549 


' 22 


12 14 44.49 


X.87XX 


7 7 25.0 


XI. 876 


«3 


zo 48 43.76 


X.8Z99 


I 54 24.5 


XX.557 


23 


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X.8738 


7 18 40.9 


XX.854 


24 


10 50 32.53 


X.8Z87 


N. z 42 50.9 


XX.564 


24 


Z2 18 29.35 


X.8767 


S. 7 29 55.5 


11.833 



u 



210 



DECEMBER, 1899. 



XL 









GREENWICH 


MEAN TIME. 










THE MOON'S RIGHT ASCENSION AND DECLINATION. 


Hour. 


Kight 


Diff.for 


DecliaadoiL 


Diff-for 


Hoar. 


Right 


DifE.for 


DecIixiAtioii. 


DilLfor 




Atcention. 


X Minote. 




X Mixiote. 




Ascexuioa. 


X Minute. 






x Minute. 




u 


[ONDA^ 


V 25. 






WEDNESDAY 27. 






h m a 


a 


a • 


• 




h m a 


a 


• 


m 


• 


O 


12 i8 29.35 


1.8707 


S. 7 «9 55.5 


xx.a33 





13 53 2.65 


a. 069a 


S.15 49 Z5.0 


9.840 


I 


12 20 22.04 


1-8797 


7 41 8.8 


zx.axo 


I 


13 55 7.93 


3.0906 


15 


58 27.5 


9.176 


2 


12 22 14.91 


x«o8a7 


7 52 20.7 


XZ.X87 


2 


13 57 13.54 


a.0964 


16 


7 36.1 


9. XXX 


3 


12 24 7.96 


X.8857 


8 3 31.2 


XX.X63 


3 


13 59 19-50 


a.ioaa 


16 


16 40.8 


9.044 


4 


12 26 I. 19 


X.8888 


8 14 40.2 


XX.X38 


4 


14 I 25.80 


a.xo79 


16 


25 41.4 


8.977 


5 


12 27 54.61 


1.8930 


8 25 47.8 


XX. 1x3 


5 


14 3 32.45 


a.xx38 


16 


34 38.0 


8.908 


6 


12 29 48.23 


X.895S 


8 36 53.8 


XX.087 


6 


14 5 39.45 


8.XX96 


16 


43 30.4 


8.838 


7 


12 31 42.04 


X.8985 


8 47 58.2 


XX. 060 


7 


14 7 46.80 


a.M54 


16 


52 18.6 


8.768 


8 


12 33 36.05 


1.9019 


8 59 i.o 


11.033 


8 


14 9 54-50 


a. 13x3 


17 


I 2.5 


8.6g6 


9 


12 35 30.27 


1.905s 


9 10 2.1 


XX.004 


9 


14 12 2.56 


a.x373 


17 


9 42.1 


8.623 


xo 


12 37 24.69 


1.90R8 


9 ai 1.5 


10.975 


10 


14 14 10.97 


«.i43a 


17 


18 17.2 


8.948 


II 


la 39 X9-33 


1*9134 


9 31 59.1 


10.945 


II 


14 16 19.74 


a.x498 


17 


26 47.9 


8.473 


X2 


12 41 14.18 


1.9x60 


9 42 54.9 


X0.9X5 


12 


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a.x53« 


17 


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8.397 


X3 


la 43 9-»5 


X.9198 


9 53 48.9 


XO.883 


13 


14 20 38.36 


a. 16x3 


17 


43 35.5 


8.319 


X4 


la 45 4-55 


1.913S 


10 4 40.9 . 


XO.85X 


14 


14 22 48.22 


a.x673 


17 


5X 52.3 


8.34X < 


15 


12 47 0.07 


X.9373 


10 15 31.0 


xo.8x8 


15 


14 24 58.44 


■.1734 


18 


4.4 


8.X61 


i6 


12 48 55 82 


x.93it 


10 26 19. 1 


10.784 


16 


14 27 9.03 


a.X796 


18 


8 II. 6 


8.079 


17 


12 50 51.81 


Z.93SX 


10 37 5.1 


XO.750 


17 


14 29 19.99 


a.x898 


18 


16 13.9 


7.997 


i8 


12 52 48.03 


1.9391 


10 47 49.1 


10.715 


18 


14 31 31-32 


a.x9x8 


18 


24 ".3 


7.914 


19 


12 54 44-50 


1.943a 


10 58 30.9 


X0.678 


19 


14 33 43.01 


a.x979 


18 


32 3.6 


7.839 


20 


12 56 41.21 


1.9473 


II 9 10.5 


XO.642 


20 


14 35 55.07 


a. 3043 


18 


39 50.8 


7.743 


ax 


12 58 38.17 


1.9514 


II 19 47.9 


XO.604 


21 


14 38 7.51 


a.axo4 


18 


47 32.8 


7.697 


22 


13 35.38 


1.9556 


II 30 23.0 


10.56S 


22 


14 40 20.32 


a.ax66 


18 


55 9.6 


7.568 


23 


13 2 32.84 
Tl 


1.9599 

JESDA 


S.I I 40 55.7 
Y 26. 


10.5*5 


23 


14 42 33.50 
TH 


a.a2a8 
URSD^ 


S.19 
lY 28 


2 41.0 

• 


7.478 





13 4 30.57 


1.9*43 


S.ii 51 26.0 


XO.485 





14 44 47.06 


a.ia9x 


S. 19 


10 7.0 


7.388 


I 


13 6 28.56 


X.9688 


12 I 53.9 


10.444 


I 


14 47 0.99 


a. 2353 


19 


17 27.6 


7.a97 


2 


13 8 26.82 


1.9733 


12 12 19.3 


xo.4oa 


2 


14 49 15.29 


8.34x9 


19 


24 42.6 


7.«H 


3 


13 10 25.35 


i.977« 


12 22 42.1 


10,358 


3 


14 51 29.97 


3.3476 


19 


31 52.1 


7* XXI 


4 


13 12 24.15 


x.gSas 


12 33 2.3 


10.315 


4 


14 53 45.03 


a. 3941 


19 


38 55.9 


7.0x5 


5 


13 14 23a3 


1.9870 


12 43 19.9 


xo.a7i 


5 


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3.3603 


19 


45 53-9 


6.918 • 


6 


13 16 22.59 


1.9918 


12 53 34-8 


xo.3a5 


6 


14 58 16.27 


8.3666 


19 


52 46.1 


6.8ao . 


7 


13 18 22.24 


1.9963 


13 3 46.9 


xo. X78 


7 


15 32.45 


3.3738 


19 


59 32.3 


6.73X 


8 


13 20 22.17 


t.ooxs 


13 13 56-2 


xo. X3X 


8 


15 2 49.00 


3.3790 


20 


6 12.6 


6.621 


9 


13 22 22.39 


a.0Q6i 


13 24 2.6 


X0.083 


9 


15 5 5.93 


a. 8853 


20 


12 46.8 


6.519 


lO 


13 24 22.90 


a«oxxo 


13 34 6-1 


XO.033 


10 


15 7 23.23 


3.39x3 


20 


19 X4.9 


6.4x7 


II 


13 26 23.71 


a. 0x60 


13 44 6.6 


9.983 


II 


15 9 40.91 


a. 3978 


20 


25 36.9 


6.313 


12 


13 28 24.82 


8.oaxo 


13 54 4.1 


9.933 


12 


15 11 58.96 


a.3099 


20 


31 52.5 


6.S08 


13 


13 30 26.23 


a.oa6i 


14 3 58.5 


9.880 


13 


15 14 17.38 


8.3x08 


20 


38 1.8 


6.10a 


14 


13 3a a7.95 


t.Q3i3 


14 13 49-7 


9.8a7 


14 


15 16 36.18 


3.3169 


20 


44 4-7 


S.994 


15 


13 34 a9.98 


a. 0969 


14 23 37.7 


9.773 


15 


15 18 55.34 


8.3834 


20 


SO I.I 


5.889 


x6 


13 36 32.33 


a.0417 


14 33 22.4 


9.718 


16 


15 21 14.87 


8.3886 


20 


55 50.9 


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17 


13 38 34-99 


a. 0469 


14 43 3-8 


9.66a 


17 


15 23 34-77 


a. 3347 


21 


I 34.1 


S.664 


i8 


13 40 37-96 


a.05<3 


14 52 41.8 


9.601 


18 


15 25 55-03 


8.3408 


21 


7 10.6 


5.55a 


19 


13 42 41.26 


a.0577 


15 2 16.3 


9.546 


19 


15 28 15.66 


8.3468 


21 


12 40.3 


5.438 


20 


13 44 44.88 


a. 0631 


15 " 47-3 


9.488 


20 


15 30 36.64 


a. 35*8 


21 


18 3.2 


5.389 


21 


13 46 48.83 


a. 0689 


15 21 14.8 


9.4i8 


21 


15 32 57-99 


3.3588 


21 


23 19. 1 


^3a6 


22 


13 48 53.10 


a. 0740 


15 30 38.6 


9.366 


22 


15 35 1969 


3.3647 


21 


28 28.1 


S.09K 


23 


13 50 57-71 


a. 0796 


15 39 58.7 


9.303 


23 


15 37 41-75 


8.3706 


21 


33 30.0 


4.97a 


M 


13 53 2.65 


a.o8sa 


S.X5 49 15.0 


9.a40 


24 


15 40 4.16 


a.37«4 


S.2I 


38 24.7 


4*898 



XII. 



DECEMBER, 1899. 



211 



GREENWICH MEAN TIME. 



THE MOON'S RIGHT ASCENSION AND DECLINATION. 



Hour. 



Right 
AsceuBion. 



Diftfor 
z Minute. 



Declinatioii. 



Diftfor 
zMinnta. 



Hour. 



Right 
Ascension. 



Diff.for 
z Minnte. 



Deelinstion. 



DlAfdr 
z Minute. 



O 

z 

2 

3 

4 

5 
6 

7 

8 

9 

lO 

iz 

12 

13 

14 

15 
z6 

17 
z8 

19 

20 
21 
22 
23 



O 

z 

2 

3 

4 

5 
6 

7 

8 

9 
zo 

zz 

Z2 

13 
14 

15 

i6 

17 
i8 

19 

20 
2Z 
22 

a3 

24 



FRIDAY 29. 



SUNDAY 3z. 



h 

15 

15 

15 

15 

15 

15 

15 

15 

15 
z6 

z6 

z6 

i6 

z6 

z6 

z6 

z6 

z6 

z6 

z6 

i6 

i6 

z6 

i6 



z6 
z6 
z6 
i6 
i6 
i6 
i6 
i6 
z6 

17 
17 
17 
17 
17 
17 
17 
17 
17 
17 
17 
17 
17 
17 
17 
17 



m 
40 

4a 

44 
47 
49 
5« 
54 
56 

59 

z 

4 
6 

8 

zz 

13 
z6 

z8 

2Z 

23 
26 

28 
31 

33 
36 



38 
41 

43 
46 

48 

51 
53 

56 

58 

I 

3 
6 

8 

zz 

13 
z6 

19 

2Z 
24 
26 
29 

31 

34 

37 
39 



s 


s 


4.16 


a. 3764 


26.92 


••sSas 


50.03 


s.3880 


13-48 


1.3938 


37.28 


••3995 


Z.42 


2.4051 


25.89 


t.4Z06 


50.69 


S.416Z 


15.82 


a.4316 


4Z.28 


a.4a69 


7.05 


a. 43^ 


33.15 


a.437« 


59.56 


2.4438 


26.28 


a.4478 


53.30 


2.4399 


20.63 


a.4579 


48.25 


3.4628 


16.16 


8.4676 


44.36 


2.473a 


12.83 


a.4768 


41.58 


2.4815 


ZO.61 


2.4860 


39.90 


2.4Q05 


9.45 


2.4946 : 



S.2Z 
2Z 
2Z 
2Z 
2Z 
22 
22 
22 
22 
22 
22 
22 
22 
22 
22 
22 
22 
22 
22 
22 
22 
22 
22 

IS. 22 



38 

43 
47 
52 

56 

z 

5 

9 

13 

17 
20 

24 

27 

30 

34 

37 

39 
42 

45 
47 
49 
52 
54 
56 



SATURDAY 30. 



39.25 


2.4988 


9.30 


2.5039 


39.60 


2.5069 


Z0.Z3 


2.5X0B 


40.89 


a.5146 


ZZ.88 


2. 5183 


43.08 


2.53x8 


14.50 


2.5353 


46.12 


2.5388 


17.95 


2.53ax 


49.97 


2.535« 


22. Z7 


2.5382 


54.55 


a.54« 


27. 1 z 


2.5440 


59.83 


2.5467 


32.71 


a* 5493 


5.74 


••5517 


38.91 


2.5540 


Z2.22 


«.5563 


45.67 


«.5584 


19.23 


a. 5603 


52.91 


2.5622 


26.70 


1.5640 


0.59 


•.5656 


34.57 


t.5^ 



S.22 
22 

23 

23 

23 

23 
23 

23 

23 

23 

23 

23 

23 

23 

23 

23 

23 

23 

23 

23 

23 
22 

22 

22 

S.22 



57 
59 

o 

2 

3 

4 

5 

5 
6 

6 

6 

7 

7 
6 

6 

5 

5 

4 

3 
2 

z 

59 
58 
56 
54 



24.7 

Z2.2 

52.5 

25.4 

50.9 
8.9 

19.3 
22.2 

17.3 
4.7 

44-3 

16. z 

39.9 

55.7 

3.5 

3.1 
54^6 

37.8 
Z2.7 

39.2 

57.3 
7.0 
8.Z 
0.6 



44.5 
19.8 

46.3 
4.0 

Z2.9 

Z3.0 

4.2 

46.4 

Z9.6 

43.8 

59.0 
5.0 

2.0 

49.8 
28.4 

57.8 

17.9 

28.8 

30.4 
22.7 

5.7 
39.3 

3.5 

Z8.4 

23.9 



4.852 
4.732 
4.610 

4.487 
4.363 

4.137 
4.1XZ 

3.983 
3.854 
3.725 
3*595 
S.463 
3.330 

5.197 
3.063 
2.926 

3.789 
2.651 

2.512 

3.37a 
2.333 

2.090 

X.947 
z.803 



X.660 

1.5x5 

Z.368 
z.333 

1.075 
0.938 

0.778 
0.628 

0.478 
0.338 

O.X77 
— 0.035 

■I- O.Z37 

0.280 

0.433 
0.588 

0.74a 

0.896 
1.05X 
1.206 
1.362 
X.518 

X.674 
1.830 

1.987 



O 

z 

2 

3 

4 

5 
6 

7 

8 

9 
o 

z 

2 

3 

4 

5 
6 

7 
8 

9 

20 
2Z 
22 

23 



h 

7 

7 

7 

7 

7 

7 

7 

7 
8 

8 

8 

8 



m 
39 
42 
44 
47 
49 
52 

55 

57 
o 

2 

5 

7 



8 10 

8 Z3 

8 15 
8 18 

8 20 

8 23 
8 25 
8 28 

8 31 
8 33 
8 36 
8 38 



2 

34.57 
8.64 

42.78 

17.00 

5Z.28 

25.62 

0.00 

34.43 

8.89 

43.38 
Z7.88 
52.40 
26.92 
1.44 

35.95 
ZO.44 

44.91 

19.34 

53.74 
28.09 

2.39 
36.63 

ZO.8O 

44.91 



2.5671 S.22 



9.5684 
2.5697 
2.5708 
a. 5718 

2.57«7 
a. 5734 
a. 5741 
3.5746 
a. 5749 
2.575a 
a. 5753 
a. 5753 
a. 575a 
2.5750 
a. 5747 
2.574a 
3.5736 
2.5729 
a.57ax 
2.57x2 
2.5701 
8.5690 
2.5678 



22 
22 
22 
22 
22 
22 
22 
22 
22 
22 
22 
22 
22 
22 
22 
22 
2Z 
2Z 
21 
2Z 
21 
2Z 
S.2I 



.54 
52 
50 
47 

45 

42 

39 
36. 

33 

30 
26 

23 

19 

15 
zi 

6 

2 
58 

53 

48 

43 
38 
32 
27 



23.9 
20.0 
6.7 
44.0 
II. 9 

30.4 
39.5 
39.2 
29.4 
10.3 
41.8 

3'9 
16.7 

20.1 

14.2 

58.9 

34.4 
0.6 

17.5 
25.2 

23.7 
13.1 

53.3 
24.5 



MONDAY, JANUARY i, 1900. 
o I z8 41 18.93 I 2.56^3 JS.21 2Z 46.6 



1.987 

2.X43 
2.300 

a. 457 
2.6x3 
2.770 
2.937 
3.084 
S.341 

3.397 
3-553 

3.709 
5.865 

4. 081 

4.X77 
4.33a 
4.486 
4.641 

4*795 
4.948 
5.ZOX 

S*a53 
5-405 
5.556 



5.707 



PHASES OF THE MOON. 



d h m 
New Moon • • • • Dec. 2 Z2 47.7 

3) First Quarter 9 9 2.6 

O Full Moon z6 13 31.Z 

(C Last Quarter 24 15 57,3 



..... d h 
C Perigee .••••• Dec 6 z8.2 

(^ Apogee ••.••••• 22 Z0.9 



212 



DECEMBER, 1899. 



XIII. 



GREENWICH MEAN TIME. 


LUNAR DISTANCES. 


Day of th« 
Month. 








P.L. 




P.L. 




P.L 




P.L. 


Name and Direction 


Noon. 


of 


Illh. 


of 


Vlh. 


of 


IXb. 


of 


of Object 






Diit 

• 




Diif. 




Diff. 




DiflE. ; 

1 






9 > m 




• f m 




r » 




• M 


1 


4 


Sun 


W. 


i8 54 43 


2631 


20 32 55 


3634 


22 li 18 


86x7 


23 49 50 


36tO 




Fomalhaut 


£. 


63 53 18 


99x8 


62 21 IS 


3986 


60 49 29 


8948 


59 18 3 


3960 




a Pegasi 


£. 


8z 13 48 


«44« 


79 31 13 


«437 


77 48 31 


8433 


76 5 43 


8489 ' 

1 


5 


Sun 


W. 


3a 4 30 


3S8S 


33 43 45 


3381 


35 23 6 


8578 


37 2 31 


8574 




Mars 


W. 


2Z 40 20 


•50a 


23 21 31 


3497 


25 2 48 


8494 


26 44 10 


8490 




Fomalhaut 


E. 


51 48 2 


3x05 


50 19 58 


3146 


48 52 44 


3X93 


47 26 26 


3346 




a Pegasi 


£. 


67 30 47 


Mn 


65 47 45 


8434 


64 4 45 


t486 


62 21 47 


8489 




aArietis 


£. 


ixo 19 44 


MB3 


108 33 34 


«89 


106 47 19 


«85 


105 58 


3383 ; 


6 


Sun 


W. 


45 20 27 


3S« 


47 9 


3366 


48 39 51 


•565 


50 19 34 


8566 




Mars 


W. 


35 " 52 


348s 


36 53 31 


84B8 


38 35 10 


848X 


40 16 50 


848X 




Vbnus 


W. 


25 X4 28 


8657 


26 S2 5 


8656 


28 29 44 


8655 


30 7 25 


8633 




a Pegasi 


£• 


53 48 33 


3460 


52 6 24 


3470 


50 24 29 


8488 


48 42 50 


8493 




a Arietis 


£. 


96 8 20 


*m 


94 21 41 


8373 


92 35 X 


«78 


90 48 21 


8378 


7 


Sum 


W, 


58 37 57 


•570 


60 17 33 


8578 


61 57 6 


t574 


63 36 37 


•577 




Mars 


W. 


48 45 


2486 


50 26 33 


8487 


52 8 4 


S489 


53 49 32 


8498 




Venus 


W. 


38 16 X 


«655 


39 53 42 


8656 


41 31 21 


8658 


43 8 57 


a66o 




a Pegasi 


£. 


40 20 16 


8597 


38 41 17 


8086 


37 2 58 


a66o 


35 25 25 


3699 




a Arietis 


E. 


81 55 12 


2378 


80 8 40 


8379 


78 22 10 


t88a 


76 35 44 


838s 




Aldebaran 


£. 


"4 54 38 


3383 


X13 8 16 


8886 


XIX 21 56 


t887 


109 35 37 


8369 


8 


Sun 


W. 


71 53 16 


«59l 


73 32 23 


8S94 


75 II 26 


tS99 


76 50 23 


8608 




Mars 


W. 


62 15 57 


3507 


63 57 I 


33x0 


65 38 I 


t5X4 


67 18 55 


85x7 




Venus 


W. 


51 16 13 


■^4 


52 53 28 


a«77 


54 30 39 


fl68x 


56 7 45 


^iMF^ 1 




a Aquilae 


W. 


35 47 25 


S9S4 


36 59 50 


S8sx 


38 14 30 


S7C* 


39 31 II 


9«H 




a Arietis 


E. 


67 44 38 


330X 


65 58 40 


8306 


64 12 49 


83X0 


62 27 4 


3315 




Aldebaran 


£. 


xoo 44 45 


9300 


98 58 45 


8303 


97 12 50 


•306 


95 26 59 


8309 


9 


Sun 


W. 


85 3 46 


•fa4 


86 42 9 


8639 


88 20 25 


•693 


89 58 35 


9^ 




Mars 


W. 


75 4a 2 


3538 


77 22 22 


8343 


79 2 35 


■948 


80 42 41 


3553 




Venus 


W. 


64 " 54 


8706 


65 48 26 


87x0 


67 24 52 


87x6 


69 I II 


873X| 




a Aquilas 


W. 


46 x8 22 


9>S3 


47 43 29 


3804 


49 9 33 


9x68 


50 36 28 


3X84 




a Arietis 


£. 


53 40 9 


8348 


51 55 " 


8348 


50 10 22 


•sss 


48 25 42 


3988 




Aldebaran 


E. 


86 39 5 


8389 


84 53 48 


«334 


83 8 38 


8338 


81 2