62 
SIR J. E. W. HBRSCHEL’S CATALOGUE 
No. 
of 
Cata- 
logue 
Eeferences to 
Eight 
Ascension 
for 
I860, Jan. 0. 
Annual 
Precession 
in 
Eight 
Ascension 
for 1880. 
No. 
of 
Obs. 
used. 
North Polar 
Distance 
for 
1860, Jan. 0. 
Annual 
Precession 
in 
N.P.D. 
for 
1880. 
No. 
of 
Obs. 
used. 
Summary Description from a 
Comparison of all the 
Observations, Eemarks, &c. 
Total 
No. of 
times 
of Obs, 
by h. 
and H. 
Sir J. H.’s 
Catalogues 
of Nebulas. 
Isir W. H.’ 
Classes 
and Nos. 
Other 
Authorities. 
h. 
H. 
h 
m s 
g 
320 
II, 524 
4 
29 6-8 
+ 2-QQQ 
1 
03 96 37*Q 
7-67 
1 
F; S; iF; lbM; 2stsf 
2 
877 
321 
II. 514 
4 
29 26*0 
3*064 
2 
90 
25 
50-1 
7-63 
2 
vF; pL; mE0°...90°; B fnf„. 
3 
878 
320, a 
D’Arrest, 44 
4 
29 34 
3*00 
[2] 
93 
28 
48 
7-63 
[2] 
vF; S; *20, 270°, 5 s ; II. 524 
0 
p(R). 
879 
V. 49 
4 
2Q 47-5 
1 
30 
50 
13-9 
7*57 
1 
F; cL; iF; 6 or 7 st + neb ... 
1 
880 
322 
4 
30 7*9 
9*995 
1 
03 35 
45*6 
7*58 
1 
vF; E90°...180°; sbM; B*p 
1* 
881 
322, « 
4 
30 1 9"9 
4- 9*905 
90 
30 
45*6 
7*58 
40 s . 
MS 
0 
882 
2653 
4 
31 14-0 
0*7-56 
1 
162 
8 
7*3 
7-59 
1 
vF : pL : R ; glbM 
1 
883 
2652 
4 
32 20-0 
-f 9*508 
1 
110 
55 
34*4 
7-42 
1 
Neb, No description 
1 
884 
323 
III. 952 
4 
32 36*3 
3*227 
2 
82 
56 
7-6 
7*38 
2 
eF; S; R; *8 sp; p of D neb 
3 
885 
324 
III. 953 
4 
32 36-5 
3*226 
] 
89 57 
9*6 
7*38 
1 
eF; vS; f of D neb 
2 
886 
325 
II. 515 
4 
33 1-4 
3*055 
1 
90 
40 38*5 
7-35 
1 
F; S; R; bM; *9 nf 12 s *5 ... 
2 
f 326^| 
887 
< = > 
II. 522 
4 
33 57-4 
2-878 
2 
98 
52 
48*9 
7*27 
2 
vF; pS; R; vgbM; r; *nf l'. 
4 
l 2654 ] 
888 
327 
I. 122 
4 
34 26*6 
3*005 
2 
93 
8 
53-1 
7*23 
2 
cB; L: R: vgbM: er 
3f 
889 
2655 
4 
34 36-9 
2*686 
1 
107 
16 
3-1 
7-23 
1 
eF : vS : R : bet 2 st 
1 
890 
II. 525 
4 
35 29*3 
3*028 
1 
92 
2 
39*5 
7-15 
1 
F; pL; IE 
1 
891 
2656 
4 
35 300 
0*266 
1 
156 
4 
46-4 
7*22 
1 
Cl; pL; pRi; prnC; stll..,l6 
1 
892 
D’Arrest, 45 
4 
35 45 
3*08 
[1] 
89 
39 
1 
7-12 
[1] 
F; R; cometary; A with 2 st 
18 f. 
0 
893 
328 
III. 588 
4 
36 51*6 
. 2*950 
1 
95 
35 
42-8 
7*04 
1 
eF; vS; iR; bM 
2 
894 
2657 
4 
37 7*2 
0-206 
3 
156 
27 
51*3 
7*09 
3 
F; S; R: gbM 
3 
895 
329 
II. 523 
4 
37 41-4 
2-879 
1 
98 
47 
13-9 
6*97 
1 
F; vS; iR; bM ; *7 np 
2 
896 
VIII. 8 
4 
37 54-5 
+ 3-500 
2 
71 
11 
21-8 
6*94 
'2 
Cl; vL; stL,sc 
2 
897 
2660 
4 
38 37.3 
— 0-201 
1 
159 
5 
7*6 
6*98 
1 
F; pS; R; gbM 
1 
898 
2662 
4 
38 42*3 
— 0-531 
3 
i6n 
51 
39*6 
6*98 
3 
pF; L; vlE; vglbM 
3 
899 
2661 
4 
38 43-9 
— 0-177 
3 
158 56 96*0 
6*97 
3 
vF; S; R; glbM 
2 
900 
II. 526 
4 
38 49-7 
+ 3-015 
1 
92 
38 
59-9 
6*87 
1 
F; cS; R; lbM 
1 
901 
330 
4 
39 0*9 
2-954 
1 
95 
24 
18-2 
6-86 
1 
eF; iF; ? 
1 
902 
2658 
4 
39 28*8 
1*952 
1 
131 
45 
5*5 
6-85 
1 
F ; pS; pmE; glbM 
1 
903 
331 
III. 589 
4 
39 36*7 
2-962 
1 
95 
9 37*7 
6-81 
1 
pF; pS; iE90° + ; bM 
2 
904 
2659 
4 
39 37 -6 
1-950 
1 
131 
46 
55*1 
6*83 
1 
vF; S; IE; glbM 
1 
905 
332 
VII. 1 
4 
40 44*9 
3-310 
1 
79 
19 
18-7 
6-71 
1 
Cl of L & S sc st 
3 
906 
VIII. 7 
4 
40 45-1 
3-361 
2 
77 
6 
7*7 
6*71 
2 
Cl; IRi; st L & S 
3 
907 
VIII. 59 
4 
41 2*4 
4*268 
1 
46 
33 
17-5 
6-65 
1 
Cl; IRi; 1C; pL 
1 
908 
333 
II.547 
4 
41 23*7 
2-947 
1 
95 
41 
12*2 
6-66 
1 
eF; pL; R; lbM 
3* 
909 
2663 
4 
41 59-7 
1-811 
1 
135 
2 
6-8 
6-64 
1 
eF; R; att to *14 
1 
910 
2664 
4 
42 20*4 
0-236 
1 
156 
4 
5-2 
6*66 
1 
eF; S; R 
1 
911 
III. 501 
4 
42 46*2 
3-007 
1 
93 
0 
18*8 
6-54 
1 
vF: vS 
1 
912 
2665 
A. 296 ? ? 
4 
43 32*0 
+ 0*930 
2 
149 
30 
3-8 
6*54 
2 
B; L; smbMN 
2 
913 
2667 
4 
43 34*7 
— 0*404 
1 
160 
4 
2*6 
6*58 
1 
vF: S: att to *10 
914 
2669 
4 
44 19-2 
— 0*228 
1 
159 
4 
32-7 
6*51 
1 
vF : pL: iR: r 
1 
915 
III. 502 
4 
44 35*4 
+ 3*010 
1 
92 
51 
28*0 
6-40 
1 
vF; S 
1 
916 
2666 
4 
44 39*1 
2-276 
2 
122 
12 
45*4 
6*42 
2 
vB: L: iR: 4st.inv 
2 
917 
2668 
4 
44 41-5 
1-665 
3 
138 
3 
31-4 
6-42 
3 
vF: S: R: rorstinv 
3 
918 
334, a 
R. nova 
4 
45 16*3 
2999 
93 
14 
46-4 
6*32 
R, MS 
0 
919 
D’Arrest, 46 
4 
45 22 
3-00 
[2] 
93 
21 
0 
6-33 
[2] 
vF; vS; 11.527, f 12 s + 
0 
920 
334 
11.527 
4 
45 32*3 
2-999 
2 
93 20 
46*4 
6*32 
2 
pF; S; R; bM; *7, 225° + ... 
4 
921 
334, b 
R. nova 
4 
45 44*3 
2-999 
93 
20 
46-4 
6-32 
S 1 VT 1* 
f 0 
922 
334, c 
R. nova 
4 
45 44-3 
2-999 
93 
8 
46*4 
6*32 
jyjg > JNo description 
|o 
923 
2670 
4 
46 9 1 
2*212 
2 
124 
10 
25*0 
6*30 
2 
vF; S; R; vglbM 
2 
924 
II. 528 
4 
46 12*6 
2-999 
1 
93 
18 
35-2 
6-26 
1 
F; S; lbM 
1 
925 
2671 
4 
46 18-6 
0-875 
3 
150 
2 
6*7 
6*31 
3 
pK; pT.; iR • pgmhlYT 
3 
926 
335 
4 47 6-7 
+ 3-104 
1 
88 
35 
49-3 
6-19 
1 
vF: vS; am vSst; T,*sp . . 
1* 
927 
2672 
4 
48 23*2 
— 0-339 
2 
150 
35 
14*9 
6*17 
2 
F; S; R . 
2 
928 
2673 
4 
48 30-2 
0*345 
2 
150 37 
5-2 
6-16 
2 
F; S; R 
2 
929 
2674 
4 
48 47*0 
0-146 
1 
158 
27 
26*8 
6*14 
1 
vF; E; vlbM 
1 
930 
2675 
4 
49 1*9 
0*203 
5 
158 
47 
31*4 
6-12 
5 
0;pB;L;R;rr 
5 
931 
2677 
4 
49 42*0 
-0*302 
1 
159 
20 
44*2 
-6*06 
1 
pB; pS; R; glbM 
1 1 
