P. Gwrunicr: Photometrische Beobachtungen der Jupitertrabanten. 353 
1905 nn. Objekt Abl. logJ Gr. Anom. 1905 . nn Objekt Abl. logJ Gr. Anom. 
Okt. ıo ı2Fıa® IV 20%o 9.1353 6017 312° Okt. ı8 136m I  32%0 9,4979 5W22 209° 
16 I 28.15 9.3895 5.52 207 40 I 30.30 9.4618 5.31 30 
20082. 1]0 7:26.1552.9:32872 5.68 38 22, IE 229.90. 29.43790.5-.38. 0127 
2ER E20 930470 527438 44 II 29.50 9.4265 5.41 127 
? 24 II 36.80 9.5940 5.00 45 46 MI 37.15 9.6029 4.92 _ 87 
49 II 3880 9.6341 4.84 37 
Okt. 16 Ons2s 22.60: 9.2944: 6.02: 277.8 5st IV 19.00 9.0646 6.40 125 
55 IV 1932: 91610: — 80 53 IV 18.60 9.0461 6.46 ı2 
59 Il 23.95 9.3340 5.92: 278.3 57 1 30.05 9.4366 5.38 32 
10, 05 117 24.20 9.3365 5.87 278-7 12. 102, 112522870, 29.3092. 5,48, 128 
TEIVE 519.40 2g:1517, 6:33,80 3 I 30.20 9.4385 5.38 33 
9 I 26.20 9.3968 5.72 330 7 I 29.02 9.4058 5.47 128 
105 II 38 9.6006: 5.21: 343 ı1o MI 38.25 9.6167 4.89 88 
22, 110 722.60 29.2637, 5.82: 279.9 127 1V7 2793590733, 16.38 12 
23 IV 16.65 9.0075 6.46: 80 20 675 40.40 9.6416 
25 II 22.80 9.2686 5.81: 280.1 23 675 44.55 9.7098 
27 ITEE32:05° 19153988 5.13:0.343 26 677 22.50 9.1829 
28 I 24.15 9.3128 5.70: 333 29 678 17.00 8.9488 
2901 23.30 9.2829 5.92: 280.4 36 I 30.85 9.4471 5.35 38 
31 IV 1805 9.1099 — 80 41 ]I7 30.25 79.4307 5.39 131 
SS lVEEE78:4029:08350 5, 330 45 1 32.45 9.4847 5.25 39 
a5 lt 23.80: 9.2953: 5.82: 280.8 13 35 I 31.35 9.4510 5.45 46 
54 TI 25.45 9.3366 5.84: 282.2 38 TI 30.70 9.4344 5.49 135 
58 IV 198 91294 — 81 40o IM aı125 9.6564 4.94 91 
59 JI 24.90 9.3157 5.89: 282.5 433 IV 19.85 9.0797 6.38 126 
ıı 2 IV 1925 9.1016 — 81 46 I (28.25) 48 
At 24:55 9.3013 5.83: 282.8 48 II 29.60 9.4049 5.57 136 
DT E50. 33100001340, 50 1 3135 94498 5.45 48 
208. 11 23.40 9.2532 5.91: 284.0 52 IV 19.85 9.0791 6.38 126 
44 II 23.70 9.2529 6.03: 285.7 58 I 32.65 9.4809 5.38 49 
46 IV 20.35 9.1265 6.33 8ı 14 ı 11 30.80 9.4354 5.49 137 
47 IV 19.60 9.0948 6.41 3ı aATTE36 
49 U 24.55 9.2800 5.91 286.0 
Dres UIEEE35210529:5613,5:20,346 Okt.23 10729 107 25.10, 9.3231. 5.712 °270.0 
53 I 23.10 9.2285 6.02 286.3 322, IV 38211.65%..9:20025 16.02, 232 
SS VE 20:20. om, 6.320 781 35 1022527:65:2.9:3974:0 5:53:32 318 
56 IV 20.90 9.1451 6.26 3ı 38 TI 34.20: 9.5621: 5.12: 336 
58 TI 23.60 9.2445 6.08 286.6 AT all 223:65079.26751 5.85 271144 
NOTE 37:75, 89:61182 15:091,346 43) IV 19.85 9.1215 6.22 232 
5 II 36.00 9.5757 5.18 347 46 1 30.60 9.4717 5.34 320 
TE: 23.05 9.2223 6.06 287.3 48 II 37.65 9.6289 4.95 337 
ıı IV 1910 9.0650 — 82 BOB IVE 221:00% 29.1647, 6.10..232 
14 IV 190: 9.597: — 82 53 I 30.30 9.4603 5.37 321 
16, 01 27.35 9515630 6.114 287.9 ST IS 372357 19:0,1875..4:95, 337 
20 IV 1870 9.0445 — 82 5o IE 2723:502.,9:2525, 5:80) 272.7 
za 22.70 9.2049 5.96: 288.4 ıı 6 675 42.15 9.6820 
a 22.30 9.1895 6.00: 288.5 9 677 19.05 9.0550 
34 IV 18.95 9.0522 — 82 ı1 678 16.45 8.9311 
5 17.3: 8.9717: 6.12: 290.6 17, IV 20.20, '9.12027 76.22., 233 
55 IV 15.5: 8.8789: — 82 Tor Sl] 24:25, 9.271005 5.85 274-1 
53 IV 139 87356: — 82 23 DI 37.45 9.6094 5.00 338 
58 I 16.1: 8.9103: 6.04: 290.9 25 I 26.65 9.3443 5.66 326 
1310 ll 17.3: 8.9707: 6.05: 291.0 32 AIVZEE19:30%.9:0761126.330 233 
o IV 150: 88501: — 82 33, IN 20:551 9.1287 6.20) 233 
2 IV 12.10: 8.6666 — 82 36 II 22.80 9.2136 5.99 275.3 
sa 14.85: 8.8411: 5.84: 291.2 49), 211E72223:00.9:23779% 5.937 276:2 
5 IV 1155: 8.6262: — 83 s2 IV 19.90 9.0962 6.28 233 
TE 15.40: 8.8712: 5.91: 291.5 DTL0715 46:25, .09:7361 
9 IV 13.60: 8.7652: — 83 ı2 I 677 20.40 9.1024 
- 4 678 15.90 8.8924 
Okt. 18 ı1 14 675 41.00 9.6658 TORI 223:550 9.2310, 6:00. 277.7 
ı8 677 22.85 9.2087 12 I 28.35 9.3806 5.57 332 
20 678 16.55 8.9391 ı5 DI 36.95 9.5849 5.06 340 
24 695 29.45 9.4141 18 IV 20.0 9.151 6.24 233 
27 699 19.35 9.0713 2ı II 22.70 9.1988 6.03 278.5 
32 675 44.50 9.7183 27 1 26.65 9.3284 5.69 334 
