60 
SIE J. F. W. HEESCHEL’S CATALOGUE 
No. 
of 
Cata- 
logue. 
References to 
Right 
Ascension 
for 
1860 , Jan. 0 . 
Annual 
Precession 
in 
Right 
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, Remarks, &c. 
Total 
No. of 
times 
of Obs. 
by h. 
and H. 
Sir J. H.’s 
Catalogues 
of Nebulae. 
Sir W. H.’s 
Classes 
and Nos. 
Other 
Authorities. 
h. 
H. 
h 
m 
8 
8 
760 
307 
11.456 
3 
35 
2-3 
+ 2-976 
3 
95 
9 
45-6 
— 11-78 
2 
vF; S; E; B* 135°, 1'; 3d of 3 
4 
76l 
2576 
3 
35 
29 ^) 
2-229 
2 
127 
58 
34-9 
11-77 
2 
pF; pS; E; psbM 
2 
762 
2577 
11.291 
3 
35 
56-9 
2-804 
2 
103 
56 
56-1 
11-73 
2 
F : cL: mE 0°+ ; r 
4 
763 
307, a 
3 
35 
58-6 
2-976 
95 
9 
45-6 
11-73 
No description 
0 
764 
II. 852 
3 
36 
30-1 
2-438 
1 
120 
21 
11-3 
11-69 
1 
F : pL : i It : p+M 
1 
2578 
III. 248 
3 
36 
42-1 
2-622 
2 
112 
33 
21-6 
11-68 
2 
pF; S; IE; bM 
3 
766 
2579 
3 
37 
0*0 
2-288 
1 
125 
50 
50-2 
11-66 
1 
pF: S: E: psmhM 
1 
767 
2580 
A. 426 
3 
37 
37‘8 
1-879 
2 
137 
40 
33-4 
11-62 
2 
vB; L; pmE; vsvmbM*10 ... 
2 
768 
Auw. N. 18 
O 
37 
52'3 
3-542 
66 
40 
12-9 
11-57 
Ill B; vL;iF; VAR.(Tempel) 
0* 
769 
2581 
A. 562 
3 
38 
7^ 
2-264 
1 ? 
126 
34 
12-6 
11-58 
1? 
+): vB: pmE: pgbM 
2 
770 
2582 
3 
38 
20-0 
1 
126 
18 
1-9 
1 1-57 
1 
F; vL; R; glbM 
1 
771 
2584 
III. 249 
3 
38 
43-4 
2-623 
3 
112 
21 
40-1 
11-53 
3 
F: pS : e+mbM 
5 
772 
II. 597 
3 
38 
44.4 
2-986 
2 
94 
31 
51-1 
11-53 
2 
vF ; S ; iE : *nr 
1 
7 73 
2583 
II. 458 
3 
38 
44.4 
2-703 
2 
108 
43 
32-1 
11-53 
2 
pB: pS: R: smbM*13 
3 
774 
11.594 
3 
38 
46-3 
2-682 
2 
109 
41 
52-1 
11-53 
2 
pB : vS ; bM 
1* 
775 
308 
VIII. 80 
3 
38 
52-0 
4-490 
2 
37 
46 
18-6 
11-48 
2 
Cl of ab 30st 12... 14 
3 
776 
2585 
3 
39 
4-9 
1-977 
1 
135 
5 
20-4 
11-52 
1 
pB: L: vmF, 221°-6 
1 
777 
11.459 
3 
39 
12*4 
2-696 
1 
109 
0 
25-3 
1 1-49 
1 
F; R; lbM 
1 
778 
309 
I. 155 
3 
39 
32-4 
2-989 
1 
94 
24 
37-9 
11-47 
1 
pB; S; R; *17M 
3* 
779 
2586 
3 
39 
56-6 
1-974 
3 
135 
5 
22-2 
11-46 
3 
pF ; pL; eE42°-3; vgpmbM 
3 
780 
2587 
3 
40 
59^ 
2-241 
1 
127 
7 
51-9 
11-37 
1 
F; S; R ; *att 
1 
781 
2588 
II. 460 
3 
42 
24-8 
2-739 
1 
106 
49 
22-2 
11-26 
1 
pB; S; IE; mbMNJ 
2 
782 
2589 
3 
43 
32-5 
+ 1-139 
2 
150 
14 
27-4 
11-22 
2 
cF; S; R ; glbM ; am 7Bst ... 
2 
783 
2590 
3 
45 
15-1 
— 0-360 
1 
162 
6 
36-1 
11-13 
1 
pF; pS; iR; glbM; *7f“ 
2 
784 
2592 
3 
46 
48-5 
+ 0-224 
2 
158 
38 
24-7 
11-01 
2 
cF; pL; R; gvlbM 
2 
785 
2591 
3 
47 
34-5 
1-955 
2 
134 
56 
47-0 
10-90 
2 
cF: S: E90°: p+M 
2 
786 
2593 
3 
48 
18*8 
2-644 
1 
110 
52 
29-8 
10-84 
1 
eF : S; R : 2Rst f ; p of 2 
787 
2594 
III. 962 
3 
48 
28-0 
2-643 
3 
110 
54 
59-4 
10-82 
2 
F; S; vlE; 2stl0nr; f of 2... 
4 
788 
2595 
A. 427? 428? 
3 
48 
31-1 
1-830 
2 
137 
53 
54-8 
10-84 
2 
cF; pL; R; vglbM 
2 
789 
2596 
3 
49 
9*1 
2-212 
1 
127 
24 
18-6 
10-78 
1 
vF; L; E; vgvlbM 
1 
790 
2597 
A. 480 
3 
51 
4-2 
2-029 
3 
132 
46 
40-8 
10-64 
3 
pb; pL; R; gbM; 2stA 
3 
791 
Auw. N. 19 
3 
52 
1-3 
3-444 
71 
49 
55-8 
10-54 
*12 inv in neb (Markree Cat. 
0 
Nov. 24, 1854). 
792 
2599 
3 
52 
22-9 
0-478 
2 
1 56 
25 
42-3 
10-59 
2 
pR ; S ; vlE • pmbM 
2 
793 
I. -258 
3 
52 
32-8 
4-482 
1 
39 
1 
19-4 
10-52 
1 
vR- S; iF; bM ; r; *inv 
794 
2598 
3 
52 
59*7 
2-251 
1 
125 
51 
46-3 
10-49 
1 
vF; vS; R 
] 
795 
2600 
A. 438 
3 
53 
5*8 
1-870 
2 
136 
36 
53-0 
10-50 
F; cL; R; vglbM 
2 
796 
2601 
3 
53 
36-3 
1-748 
2 
139 
18 
42-9 
10-47 
2 
F; L; R; vgvlbM; 3st n 
2 
797 
2602 
3 
53 
47'2 
1-721 
3 
134 
52 
57-5 
10-45 
3 
eF ; S; IF 90°; vpvlhM 
3 
798 
310 
3 
53 
47*4 
4-551 
1 
37 
45 
45-6 
10-38 
1 
Cl; segment of a ring 
] 
799 
VII. 3 
3 
53 
52*2 
2-821 
1 
102 
25 
27-4 
10-42 
1 
Cl; S; C 
1 
800 
2603 
A. 369? 
3 
54 
33-6 
1-573 
1 
142 
43 
35-3 
10-39 
1 
F; vS; R; pmbM; *8 np ... 
1 
801 
IV. 53 
3 
54 
57-0 
5-109 
2 
29 
27 
30-6 
10-28 
2 
O; pB; pS; vlE; Fdiam ... 
2 
802 
VII. 47 
3 
55 
9-9 
5-232 
2 
28 
3 
51*2 
10-26 
2 
Cl- pRi- cC; iF 
803 
2604 
3 
55 
25-3 
0-456 
1 
156 
25 
44-2 
10-36 
1 
eF; pS; R; *10np 
1 
804 
2605 
3 
56 
44 - 9 
1-552 
1 
142 
58 
5-1 
10-23 
2 
eeeF ; S ; R ; bet 2st 1 2 & 13.. 
2 
805 
II. 279 
3 
57 
19-5 
3-021 
2 
92 
35 
1-5 
10-15 
2 
vF ; pT-- nnF; vlbM ; er 
2 
806 
2606 
3 
59 
0-1 
1-965 
2 
133 
47 
35-5 
1005 
2 
F; pL; R; vprnbM 
2 
807 
2608 
3 
59 
3-1 
0-218 
3 
158 
1 
23-7 
10-09 
3 
pB; pS; mE 12l°*5; gbM ... 
3 
808 
2607 
A. 466 
0 
59 
20-3 
1-966 
3 
133 
44 
23-1 
10-03 
3 
®; B; cL; R; bM; rr 
3 
809 
VII. 60 
3 
59 
35*9 
4-416 
1 
40 
“51 
49-5 
9-95 
1 
Cl; T,: vRi; pC; stvL 
1 
810 
311 
IV. 69 
4 
0 
28*6 
3*755 
2 
KQ 
as 
29-2 
9-96 
2 
* 8 m in neh 3 * rlia.m 
3*t 
811 
2609 
A. 348 
4 
0 
39’4 
1-448 
2 
144 9 Q 
25-8 
9*94 
2 
B; L; vmE 10°; bM 
2 
812 
2610 
III. 499 
4 
1 
24*0 
2-884 
2 
99 
12 
21-5 
9-85 
eeF; S; E; psmbM; er 
3 
813 
2611 
4 
1 
44*0 
+ 2-613 
1 
111 
33 
0-1 
9*83 
1 
B; L; pmE; gbM; *8 sp ... 
1 
814 
2615 
4 
2 
8*1 
—2-026 
1 
167 
13 
0-4 
9-92 
1 
Cl; pL; IRi ; st9...10 
1 
815 
2612 
4 
2 
10-3 
+ 2-616 
1 
ill 
25 
36-0 
9-80 
1 
pB; R; bM... 
1 
816 
2613 
4 
2 
35*2 
1-525 
143 
2 
40-3 
9*79 
2 
eF; vS; R; vlbM 
2 
817 
2614 
4 
2 
48-1 
1-440 
1 
144 
28 
35-9 
9*77 
1 
vF; R 
1 
818 
2617 
4 
4 
8*8 
0-425 
2 
156 
12 
37-0 
9-70 
2 
eF; vS; R; glbM 
2 
819 
2616 
4 
4 
17*7 
+ 1-761 
2 
138 
15 
52-5 
- 9-65 
2 
pB; pS; E77°; vsmbMRN... 
3 
