This is the catalog of Markarian (First Byurakan Survey) galaxies compiled by Lipovetskii et al. (B.E. Markarian, V.A Lipovetskii, J.A. Stepanian, L.K. Erastova, A.I. Shapovalova, Soobscheniya Spetsialnoi Astrofizicheskoi Observatorii 62, 5 (1989) - the data were kindly provided on diskette by Dr. Lipovetskii; please cite the original source if any use is made of these data. The pagination of the original tables has been preserved. Table 7. Catalogue of Markarian galaxies. Table 7. (continued) ====================================================================== ======================================================================= MARK R. A. Dec. Z0 Magn. Magn. Spectr. Dim. Refr. Name Morph. Spectr. Photometry Ref. IRAS-fluxes (mk) NAME 1950.0 1950.0 (CORR.) OBS. Abs. Type (") TO Z type type D V B-V U-B ph v 12 25 60 100 ---------------------------------------------------------------------- ----------------------------------------------------------------------- 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 ---------------------------------------------------------------------- ----------------------------------------------------------------------- 334 0 0 35.5 +21 40 53 0.0230 14.4 -20.8 sd2e 18*12 14 334 [Scp] Sy1.8 36 14.15 0.52 0.20 89 v 1.06 4.19 4.33 936 0 1 35.7 -12 15 46 0.0306 14.5* -21.2 d3e: 27*13 44 936 e <0.34 0.51 1.43 544 0 2 15.0 - 1 46 35 0.0245 15.0 -20.2 ds2e: 19*12 29 544 e 335 0 3 45.1 +19 55 27 0.0250 14.0* -21.4 s1e 15* 14 335 S0/a Sy1 29 13.74 0.34 -0.71 91 0.34 0.48 0.45 <0.85 336 0 5 26.4 +32 47 30 0.0170 13.8 -20.8 d3e 25*18 14 336 E5 e 41 13.64 0.78 0.19 71 <0.24 1.30 2.92 545 0 7 18.6 +25 38 42 0.0160 13.0 -21.4 ds3e: 60*30 30 545 SBab SB 0.47 1.15 8.98 15.80 937 0 7 36.5 - 4 59 19 0.0301 16.0* -19.7 d3e: 20* 44 937 p Sy2 <0.39 0.61 1.39 1501 0 8 0.0 +10 42 0 0.0890 15.7 -22.5 s1e: 9* 5 1501 E/S0 Sy1 29 15.08 0.60 -0.76 91 938 0 8 33.5 -12 23 8 0.0195 14.0* -20.7 sd3e: 27*20 40 938 Sy2 55 13.37 0.66 0.23 91 0.42 2.39 16.80 17.30 337 0 9 7.9 +20 41 47 0.0473 15.0 -21.7 s3e: 20* 35 337 e 16 14.50 0.88 0.33 90 939 0 11 41.3 +47 51 54 0.0179 15.7 -19.5 sd2 20*15 52 939 a 940 0 11 46.0 +33 55 23 0.0648 16.0* -21.6 d2e 14*10 44 940 e,a 1138 0 12 2.2 + 8 0 6 0.0183 16.5* -18.1 ds3 6* 38 1138 e 546 0 12 1.6 - 1 49 43 0.0134 16.5* -17.4 d2e 9* 29 546 SBa e 941 0 12 25.4 +34 31 50 0.0486 16.5* -20.5 sd3e 10* 7 48 941 e 1139 0 13 39.6 +21 8 24 0.0202 16.5* -18.4 ds2 10* 39 1139 a 1140 0 13 41.3 +24 30 47 0.0679 17.0* -20.6 d2 16*12 38 1140 SB? e 942 0 13 47.5 + 0 30 39 0.0447 16.5* -20.0 ds2 11* 52 942 a 943 0 14 8.6 -10 49 49 0.0180 15.0* -19.5 d3 20*10 44 943 e <0.36 0.85 1.71 1141 0 15 31.8 +22 12 6 0.0191 16.0* -18.8 ds2 12* 38 1141 e 547 0 17 53.5 + 0 33 20 0.0178 14.5 -20.0 ds3 20*14 41 547 S0 <0.50 0.64 1.01 1142 0 18 7.2 +21 41 18 0.0209 16.0* -19.0 d3 13* 9 39 1142 a 548 0 18 28.2 + 6 9 7 0.0392 15.7 -20.6 d2e 18* 47 548 e 549 0 19 20.0 - 1 53 21 0.0395 15.5* -20.8 d3 10* 29 549 e 14 15.55 0.53 -0.14 101 <0.29 0.77 1.51 338 0 21 12.5 +14 24 37 0.0180 15.1 -19.5 d3 26*12 14 338 S? e 36 14.83 0.64 -0.15 89 944 0 21 54.9 - 4 7 59 0.0150 15.0* -19.1 sd3 27*13 44 944 e <0.32 0.85 1.25 339 0 22 7.4 +14 32 43 0.0180 14.5 -20.1 d3 20* 14 339 SBbc e 38 14.27 0.56 -0.07 71 <0.25 0.73 1.16 945 0 23 21.6 - 3 41 50 0.0150 15.0* -19.1 s2 13* 40 945 S0 Sy3 37 14.28 1.03 0.15 91 946 0 24 24.7 - 2 3 45 0.0142 15.0 -19.0 ds3 20*14 52 946 SB0 a 0.43 2.78 5.26 550 0 24 27.0 + 1 10 55 0.0435 16.5* -20.0 ds2 8* 29 550 e 947 0 24 42.7 - 2 3 24 0.0379 14.9 -21.3 ds3 12* 44 947 Sy3 948 0 25 39.7 + 6 51 11 0.0401 15.7 -20.6 d3 18*12 47 948 S Sy2 340 0 25 56.1 +30 52 40 0.0212 15.3 -19.8 sd2e: 14*10 26 340 e 36 15.14 0.53 -0.08 89 949 0 26 7.3 -11 55 2 0.0215 15.0* -19.9 sd3e: 27*20 52 949 a 551 0 26 46.7 +30 16 53 0.0506 14.8 -22.2 d3e: 10*14 41 551* dbl S+S e 0.26 0.80 4.56 5.89 950 0 27 18.5 +32 37 4 0.0171 15.7 -18.9 ds3 25*10 52 950 S0 a 951 0 27 36.8 -10 13 46 0.0173 16.0* -18.4 d3 13*10 44 951 e <0.34 0.70 <1.26 952 0 28 38.4 - 0 40 58 0.0198 15.6 -19.2 ds3e 18*12 44 952 e <0.67 1.72 2.64 552 0 28 43.9 + 8 11 59 0.0140 15.0 -19.0 d2e 20*12 19 552 SB e 0.44 3.69 5.45 553 0 33 50.6 + 2 54 34 0.0155 16.5* -17.7 d2e 13* 8 29 553 e 30 31 Table 7. (continued) Table 7. (continued) ====================================================================== ======================================================================= 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 ---------------------------------------------------------------------- ----------------------------------------------------------------------- 341 0 34 13.5 +23 42 34 0.0167 13.3 -21.2 sd2e: 20*12 31 341 E3 e 29 14.24 0.75 0.14 71 <0.42 0.85 3.44 953 0 34 31.9 +35 37 42 0.0156 15.5 -19.0 d3e: 27*11 48 953 e <0.24 0.58 0.98 954 0 34 38.5 - 9 43 54 0.0176 15.5* -19.0 d3e: 13*10 44 954 e <0.32 0.63 1.08 955 0 35 2.1 + 0 0 21 0.0352 15.4 -20.6 sd3e: 12* 37 955 (R)SBab Sy2 55 14.01 0.96 0.04 91 <0.41 0.94 2.05 342 0 35 42.5 +13 15 30 0.0370 16.5* -19.7 ds3 10* 8 14 342 e 343 0 35 46.8 +14 45 53 0.0188 15.2 -19.5 d3e 12* 26 343 S0/a e 41 14.36 0.84 0.22 71 <0.30 0.73 1.48 344 0 35 53.5 +23 20 13 0.0254 15.5 -19.9 d2e 10*12 35 344 E? e,a 554 0 36 44.3 + 3 41 1 0.0261 14.8 -20.6 d3 15* 35 554 S0 a <0.37 0.69 1.18 956 0 37 47.6 - 7 43 43 0.0122 15.5* -18.2 s3e 15*10 44 956 e 345 0 37 50.5 +24 45 7 0.0150 15.1 -19.2 sd3e: 12* 14 345 e 41 14.62 0.75 0.10 71 957 0 39 9.7 +40 4 51 0.0740 15.7 -22.3 ds2 13* 44 957 E/S0 Sy1.5 29 15.14 0.80 0.14 91 0.28 2.14 3.33 1143 0 39 59.5 + 2 58 59 0.0375 16.5* -19.6 ds3 18*12 39 1143 HII 1144 0 40 2.8 + 2 57 55 0.0379 17.0* -19.2 d2 7* 5 39 1144 e <0.35 0.49 1.08 958 0 40 12.0 +33 15 1 0.0200 15.5 -19.5 d3 30* 9 47 958 Sbc a <0.24 0.73 1.34 1145 0 41 4.9 + 2 5 32 0.0507 15.7 -21.1 s3 18*13 52 1145 a 346 0 42 16.5 +27 10 33 0.0180 16.5* -18.2 d2 18*12 14 346 e 555 0 43 32.2 - 1 59 43 0.0145 12.9 -21.2 sd3e: 10* 19 555 Sd e 1.04 3.89 8.85 1146 0 44 42.2 +14 25 50 0.0403 15.2 -21.1 sd2e: 20*12 38 1146 SBb Sy1 55 14.58 0.81 -0.26 91 347 0 45 17.0 +22 6 7 0.0200 14.9 -20.0 d2e 20*14 14 347 e,a 24 14.63 0.44 -0.30 71 <0.64 0.94 1.80 1147 0 45 58.1 +10 3 58 0.0368 15.6 -20.5 d3 8* 38 1147 S0/ap Sy1 24 15.20 0.55 0.03 91 348 0 46 4.4 +31 41 0 0.0140 15.0 -19.2 d2e 24* 14 348 SAa Sy2 75 13.40 0.90 0.22 91 0.34 0.78 1.43 1.75 960 0 46 4.8 -12 59 22 0.0215 13.5* -21.4 d3 20*13 44 960 SB0?p e 13.8 0.28 -0.37 61 <0.35 1.36 1.98 556 0 46 17.2 + 4 3 37 0.0408 16.5* -19.8 ds2 11*18 47 556 HII 557 0 46 20.6 - 2 39 5 0.0125 15.5* -18.2 ds3e: 15* 29 557 S0/a e 25 14.44 0.69 0.05 93 0.35 1.12 1.21 961 0 48 42.2 +33 39 48 0.0171 16.5* -18.2 s2e 10* 7 44 961 e 1148 0 49 16.6 +17 9 40 0.0650 16.0* -21.4 s1e: 6* 45 1148 QS0 24 15.96 0.48 -0.84 91 558 0 49 36.0 - 2 29 21 0.0135 14.0 -19.9 ds3 10* 19 558 S0 e <0.35 1.47 2.72 349 0 50 54.0 +21 14 27 0.0237 15.5* -19.7 sd2e 14* 8 26 349 e 0.35 1.86 2.61 1502 0 51 0.0 +12 25 0 0.0609 14.3 -22.9 s1e 14* 54 1502 S0 Sy1 37 13.84 0.42 -0.67 91 962 0 52 6.5 + 5 30 12 0.0150 15.0 -19.2 s3 30*14 47 962 Sa e,a 963 0 53 4.6 -10 21 40 0.0195 16.0* -18.7 d3 18*12 48 963 e 964 0 53 35.4 - 3 57 13 0.0505 15.0* -21.8 s3e 9* 7 52 964 Sab a 1149 0 53 42.9 -14 32 46 0.0213 16.0* -18.9 sd3 20*13 38 1149 SB Sy3 29 15.08 0.81 0.20 91 350 0 54 38.9 +23 37 7 0.0170 15.2 -19.3 d2 20*14 14 350 [Sp] e 41 14.88 0.53 -0.06 71 965 0 54 56.2 - 4 25 48 0.0089 15.0* -18.0 d3e 20*13 44 965 e 966 0 55 10.1 - 5 13 8 0.0176 15.0* -19.5 s3e: 27*13 47 966 e,a <0.45 1.57 3.02 967 0 56 38.7 +35 15 39 0.0604 16.0* -21.4 ds3 13*11 52 967 a 559 0 56 42.2 + 6 39 5 0.0440 15.7 -20.8 sd2e: 12* 20 559 e <0.36 0.52 1.29 352 0 57 8.6 +31 33 27 0.0150 14.8 -19.5 s1e 15*12 14 352 (R)SA0 Sy1 55 14.46 0.54 -0.59 91 v 968 0 58 14.8 - 9 27 17 0.0149 15.5* -18.6 sd3e: 33*20 47 968 SBc e 0.98 0.78 1.63 1150 0 59 40.7 +34 50 45 0.0820 16.5* -21.6 sd3e: 13*10 38 1150 e 969 1 0 10.6 -13 7 2 0.0206 15.0* -19.8 sd2e: 13* 44 969 e 0.32 1.06 1.19 353 1 0 35.0 +22 4 26 0.0169 14.2 -20.3 s3e 40*20 26 353 SBp SB 0.31 0.59 3.89 5.96 970 1 0 38.0 - 3 52 39 0.0083 15.5* -17.4 ds3e 27*20 47 970 e <0.28 0.60 1.27 354 1 1 25.9 +20 9 53 0.0470 16.5* -20.2 ds3e: 14*10 14 354 e <0.29 0.66 1.00 971 1 1 32.8 +35 18 9 0.0825 16.5* -21.6 sd3 7* 47 971 e,a 972 1 3 36.2 - 6 45 10 0.0411 16.0* -20.3 d2 9* 47 972 e 560 1 3 50.4 - 0 24 41 0.0350 15.7 -20.3 ds3 9* 20 560 e 561 1 5 23.0 +20 51 16 0.0184 15.0 -19.7 sd2 13* 52 561 E/S0 a 973 1 5 44.6 - 4 50 26 0.0251 16.5* -18.8 ds2 10* 7 47 973 e 32 33 Table 7. (continued) Table 7. (continued) ====================================================================== ======================================================================= 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 ---------------------------------------------------------------------- ----------------------------------------------------------------------- 1151 1 5 59.7 -13 14 48 0.0545 16.0* -20.9 ds3 10* 38 1151 e 974 1 7 1.0 - 6 20 17 0.0310 16.5* -19.2 d3e: 12* 8 47 974 e,a 562 1 9 13.1 - 0 55 43 0.0183 14.2 -20.4 ds3e 20* 54 562 563 1 9 16.9 - 1 55 15 0.0169 15.5* -18.9 d2e 18*10 20 563 e 0.33 0.70 1.42 564 1 11 12.3 + 7 31 14 0.0190 16.0* -18.7 d2 11* 7 20 564 e 975 1 11 12.7 +13 0 27 0.0498 15.0 -21.8 s1e 12* 9 37 975 (R)S0 Sy1 55 14.19 0.86 -0.20 91 v 0.37 0.42 0.78 <1.42 1152 1 11 21.9 -15 6 39 0.0521 15.0* -21.8 sd2 15*13 38 1152 S0/a Sy1.5 55 14.58 0.88 0.06 91 v 1 1 13 19.5 +32 49 33 0.0167 15.2 -19.4 sd2e 27*16 9 1 (R)SB0a Sy2 55 14.44 0.90 0.01 91 1.80 0.81 2.28 2.73 976 1 13 24.8 +32 48 1 0.0168 14.8 -19.8 d3 33*20 44 976 Sc e 565 1 13 28.4 + 4 1 51 0.0180 13.8 -20.8 ds3 30*22 47 565 S0p Sy? <0.32 1.76 3.72 977 1 13 35.1 +38 47 22 0.0333 15.1 -21.1 ds3e: 15*10 52 977 SBa a 978 1 14 51.0 + 3 54 22 0.0233 15.7 -19.4 sd2e: 7* 44 978 e 979 1 15 22.7 +11 56 37 0.0194 15.5* -19.3 sd2e: 9* 7 44 979 e 980 1 16 27.1 +34 35 46 0.0162 16.0* -18.6 sd3e: 12* 8 47 980 e <0.25 0.54 1.77 566 1 16 28.4 + 4 3 49 0.0326 15.4 -20.4 ds2 10* 20 566 e <0.36 0.64 <1.09 981 1 16 33.7 - 1 31 39 0.0460 16.5* -20.1 ds2e: 12* 9 52 981 Sab a 982 1 16 40.2 +12 32 7 0.0190 16.5* -18.2 d3 11* 8 44 982 e 567 1 16 42.6 + 4 18 55 0.0335 14.9 -21.0 ds3 13* 19 567 HII 0.25 0.46 3.03 4.42 983 1 16 44.3 +12 8 30 0.0480 16.0* -20.7 d2 13*10 47 983 p e 984 1 16 45.3 +12 11 3 0.0481 15.1 -21.6 ds2e: 15* 44 984 SBcp Sy3 75 14.81 0.70 0.28 91 <0.31 0.72 1.58 985 1 17 36.8 +37 53 36 0.0305 14.9 -21.1 sd3 20*12 47 985 e <0.61 0.60 1.41 1503 1 19 24.0 - 1 18 0 0.0543 14.4 -22.5 s2e 14* 88 1503 SBa Sy1 29 13.88 0.48 -0.62 91 v 986 1 19 39.5 -10 8 59 0.0427 15.5 -20.9 sd3e: 13* 52 986 a 568 1 19 49.1 + 8 47 33 0.0185 15.3 -19.3 d3 17*10 29 568 e 987 1 19 49.3 +34 10 37 0.0166 14.2 -20.4 ds3e 25*18 44 987 S e 0.33 1.95 3.95 355 1 19 55.0 +26 36 23 0.0309 16.5* -19.4 s3 12* 26 355 a 16 15.75 0.95 0.43 90 <0.24 1.20 1.89 357 1 19 56.6 +22 54 30 0.0540 16.0* -21.0 s2e 10* 8 14 357 Sy1 15 15.40 0.36 -0.68 71 <0.26 0.96 0.85 356 1 19 57.2 +26 36 20 0.0300 16.0* -19.8 ds2e 12* 8 14 356 e 569 1 20 1.7 + 1 37 46 0.0335 14.9 -21.0 d3 14*11 19 569 e <0.32 0.68 1.38 988 1 20 40.0 +34 18 30 0.0237 14.7 -20.7 d3 14* 46 988 e 15.2 0.52 -0.10 59 0.25 1.63 2.87 1153 1 20 41.2 - 0 57 41 0.0065 15.7 -16.6 d3 7* 38 1153 S e 989 1 20 50.2 - 7 4 4 0.0180 14.5* -20.0 sd3e 20*12 44 989 e 990 1 21 10.5 +34 30 30 0.0159 15.7 -18.8 d3 18*12 47 990 e <0.25 0.67 1.34 991 1 21 56.5 +31 54 20 0.0353 14.2 -22.0 sd3e: 12*13 44 991 Sa Sy3 75 14.05 0.82 0.14 91 <0.25 1.42 2.72 992 1 21 59.2 +31 51 50 0.6544 17.5* -25.1 s2 5* 79 992 QS0 1154 1 22 12.3 - 1 49 38 0.0193 16.5* -18.2 ds3 6* 38 1154 Sa e 993 1 22 42.7 +31 52 35 0.0169 14.0 -20.6 sd3e: 18*48 37 993 Sa Sy1.9 75 13.39 0.98 0.26 91 <0.74 <0.40 1.23 1155 1 23 22.9 +33 8 44 0.0178 15.0 -19.7 ds3 30*13 38 1155 S0 a 358 1 23 45.1 +31 21 13 0.0459 15.0 -21.8 ds2e 12* 26 358 Sbc Sy1 75 14.08 0.82 -0.16 91 v 570 1 24 16.3 - 1 14 1 0.0170 15.2 -19.2 s2e: 16* 96 570 e 994 1 24 19.8 - 8 44 59 0.0497 16.0* -20.7 s3e: 12*10 52 994 a 359 1 24 50.1 +18 55 7 0.0170 13.8 -20.7 sd2e 20*16 14 359 SB0/a Sy1 55 13.59 0.69 -0.09 91 0.55 1.24 1.76 995 1 24 59.2 - 8 48 48 0.0489 15.5* -21.2 d3e: 8* 44 995 e,a 0.25 0.71 3.40 6.35 996 1 25 4.5 - 6 35 8 0.0056 15.5* -16.5 ds2e 15*13 44 996 e 997 1 26 28.7 +10 52 22 0.0192 14.7 -20.0 ds3 18*13 47 997 e <0.49 1.18 2.94 1156 1 29 13.8 +32 55 19 0.0355 15.1 -21.1 d3e: 15* 9 38 1156 e <0.25 <0.40 1.84 998 1 30 2.1 - 2 20 12 0.0759 16.0* -21.7 ds3 10* 7 47 998 e,a 999 1 30 11.7 -12 17 58 0.0172 15.0* -19.4 ds3 27*17 47 999 a 1000 1 30 38.6 -12 27 53 0.0187 16.0* -18.6 d3 13* 52 1000 a 1157 1 30 38.9 +35 24 45 0.0157 14.0 -20.5 sd2e 40*20 38 1157 (R)SB0/a Sy2 75 13.20 0.79 0.22 91 0.46 1.97 3.19 34 35 Table 7. (continued) Table 7. (continued) ====================================================================== ======================================================================= 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 ---------------------------------------------------------------------- ----------------------------------------------------------------------- 1001 1 31 3.0 +11 26 23 0.0545 16.0* -21.0 ds3 12* 8 47 1001 S e 1158 1 32 7.2 +34 47 3 0.0158 14.9 -19.6 sd1e 15* 8 38 1158 SB 29 14.90 0.59 -0.19 91 0.36 0.97 1.13 1159 1 32 26.5 +32 47 42 0.0695 15.2 -22.5 d3e: 18* 52 1159 a 571 1 33 25.9 + 0 24 32 0.0180 14.1 -20.5 ds3e: 13* 19 571 SBb e <0.33 1.48 2.75 1002 1 34 41.1 + 5 37 23 0.0109 13.5 -20.0 ds2e: 40* 44 1002 E1 SB 0.86 4.85 6.33 1160 1 35 37.8 +34 57 32 0.0174 16.5* -18.2 d2e: 10* 8 38 1160 e 1162 1 35 56.7 +29 23 1 0.0444 16.0* -20.7 s3 14* 7 39 1162 S0 a 1161 1 35 58.5 - 9 24 58 0.0405 16.0* -20.3 sd3e: 15*10 39 1161 a 1003 1 37 0.6 + 6 59 5 0.0101 14.4 -18.9 s3e: 34*20 47 1003 p e 55 13.85 0.69 -0.15 82 <0.32 0.59 1.26 1163 1 37 9.2 +30 58 47 0.0283 16.0* -19.7 sd3 8* 39 1163 e 1004 1 37 25.4 - 5 19 37 0.0375 15.0* -21.1 sd2e 12* 9 52 1004 a 1164 1 38 10.8 +32 38 25 0.0407 15.8 -20.7 sd3 11* 39 1164 a 1005 1 38 12.0 - 4 54 17 0.0422 16.0* -20.4 ds3 13* 44 1005 e 1165 1 40 5.4 +27 58 10 0.0370 16.5* -19.8 sd3 12* 38 1165 e 572 1 41 5.3 +11 54 46 0.0175 15.0 -19.5 sd3e: 45*20 19 572 Sdmp e 0.90 2.22 3.90 360 1 41 13.9 +16 48 47 0.0270 14.7 -20.8 sd2e 12* 14 360 [Scd] e,a 38 14.56 0.42 -0.20 71 <0.27 0.66 <1.19 573 1 41 22.7 + 2 5 54 0.0172 14.0 -20.5 sd2e 25*22 40 573 S0 Sy2 137 13.03 0.95 0.19 91 v 0.29 0.80 1.25 1.29 361 1 42 4.1 +16 51 26 0.0270 15.6 -19.9 sd2e 8* 14 361 e 1006 1 43 33.2 +34 40 40 0.0181 14.7 -20.1 ds3 15*10 47 1006 e 575 1 45 52.8 +12 21 51 0.0186 14.0 -20.7 sd3e 16* 35 575 SBbc SB 0.68 2.74 5.91 1007 1 46 4.5 +10 15 35 0.0180 14.2 -20.4 s3e: 27*15 52 1007 S0 a 1166 1 46 26.6 +12 50 46 0.0870 16.5* -21.5 d3e 10* 38 1166 e 576 1 46 33.8 + 5 23 29 0.0180 15.2 -19.4 sd2e 16* 19 576 e 577 1 46 49.6 +12 15 40 0.0176 14.2 -20.4 s2e: 9* 40 577 S0/a a 16 14.10 1.08 0.37 95 1008 1 47 46.9 +33 29 36 0.0187 15.0 -19.9 ds3 14*10 47 1008 e <0.25 0.57 1.22 1009 1 47 48.8 +35 2 13 0.0141 13.3 -21.0 sd2e: 47*20 44 1009 SBc e <0.25 1.17 2.75 363 1 48 12.0 +21 45 0 0.0099 13.7 -19.7 d2 25*16 26 363 Scp SB 38 13.87 0.57 -0.17 71 0.60 2.40 3.66 579 1 49 20.8 + 7 1 43 0.0655 16.5* -20.9 sd2e: 9* 19 579 e <0.30 0.50 <1.77 580 1 50 21.4 + 6 42 52 0.0270 16.5* -19.0 d2 8* 29 580 e 581 1 50 56.6 + 6 25 40 0.0330 16.5* -19.4 ds2 15*10 29 581 e 2 1 51 55.7 +36 40 20 0.0190 14.2 -20.8 s2 20*25 9 2 SBa e 36 13.54 0.60 -0.12 1 0.25 1.03 5.47 7.44 1010 1 52 1.7 +35 10 32 0.0540 15.1 -22.1 ds2 27*13 67 1010 e 0.26 0.40 1.19 1011 1 53 30.1 +36 33 32 0.0196 14.9 -20.1 ds3 27*13 47 1011 S0 e <0.25 0.57 <1.00 1167 1 53 56.6 +31 27 36 0.0182 14.9 -19.9 s3e: 10* 39 1167 a 1012 1 54 27.0 - 5 38 48 0.0162 15.0* -19.3 sd2e 30*18 44 1012 SBb SB 364 1 54 58.0 +27 37 20 0.0270 15.2 -20.4 d2e: 18* 14 364 e <0.25 0.94 1.66 1168 1 54 59.4 + 3 13 58 0.0427 17.0* -19.4 d2 12* 8 39 1168 e <0.29 0.62 1.41 1169 1 55 3.9 + 2 10 50 0.0160 17.0* -17.3 sd2 10* 39 1169 e 1170 1 55 6.9 +37 20 6 0.0165 15.3 -19.4 ds2e: 18* 39 1170 S a 582 1 55 31.2 + 2 50 40 0.0189 14.0 -20.7 d3e 14*10 41 582 Im e 0.29 0.54 4.94 8.08 583 1 56 53.5 + 9 41 23 0.0205 16.0* -18.9 ds3 12* 7 29 583 e 1013 1 57 8.9 - 7 45 43 0.0274 15.0* -20.5 d3e: 13* 52 1013 a 1014 1 57 15.8 + 0 9 10 0.1633 16.0* -23.3 s1 6* 40 1014 QS0 29 15.73 0.45 -0.65 91 0.63 2.30 2.20 584 1 57 51.1 + 2 25 49 0.0788 15.3 -22.5 sd2 11* 40 584 E/S0 Sy1 29 16.08 0.89 -0.10 91 1171 1 58 12.2 +31 38 28 0.0175 12.8 -21.9 s3e: 15* 38 1171 SBc e 0.39 2.20 5.50 1015 1 58 48.1 - 1 32 39 0.0409 15.5 -20.8 sd3e: 14* 52 1015 a 1016 1 59 17.4 - 1 34 15 0.0446 15.7 -20.8 d3e: 13*10 52 1016 a 1017 2 0 19.2 - 2 14 16 16.5* ds2 6* 1017 p 585 2 0 55.2 + 2 19 35 0.0213 15.5* -19.4 sd3 10* 8 20 585 e <0.38 0.64 1.16 365 2 1 26.0 +28 25 7 0.0160 14.7 -19.8 sd2e 25*20 14 365 e 36 14.48 0.80 0.04 89 0.35 1.74 2.71 36 37 Table 7. (continued) Table 7. (continued) ====================================================================== ======================================================================= 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 ---------------------------------------------------------------------- ----------------------------------------------------------------------- 1172 2 3 7.6 - 8 29 2 0.0411 16.5* -19.8 sd3 13* 39 1172 a 1018 2 3 42.6 - 0 31 47 0.0425 14.6 -21.8 s2e: 23*17 40 1018 S0 Sy1.9 75 13.82 1.07 0.09 91 v 586 2 5 14.4 + 2 28 32 0.1565 16.0* -23.3 s2 7* 30 586 QS0 75 14.26 0.35 -0.78 91 1173 2 5 16.9 +20 7 8 0.0283 15.5* -20.1 d2 20*13 38 1173 e <0.28 0.45 <5.91 1174 2 5 30.1 + 1 39 26 0.0228 14.9 -20.2 d3e: 35*14 39 1174 S0 a 1019 2 6 14.9 - 8 4 3 0.0129 16.5* -17.3 sd3 10* 8 47 1019 e 1020 2 6 29.9 - 8 0 15 0.0129 15.0* -18.8 sd3e 25*20 47 1020 e 1021 2 6 57.5 -10 22 18 0.0142 13.5* -20.5 d2e: 25*20 44 1021 Sp e 50 12.50 0.83 0.17 70 0.38 0.50 5.81 10.60 1022 2 7 11.1 -10 22 56 0.0129 14.0* -19.8 sd2e 22*18 44 1022 I0p e 100 12.93 0.63 -0.06 70 0.60 1.84 <0.36 17.40 1023 2 7 20.4 - 8 1 6 0.0121 16.0* -17.7 ds2e 10* 47 1023 e 1025 2 7 32.1 - 9 3 47 0.0055 16.0* -16.0 d2 13* 8 44 1025 e 1024 2 7 33.2 - 7 51 33 0.0129 15.5* -18.3 ds2e: 11* 44 1024 e,a 1026 2 7 50.2 -10 33 19 0.0126 15.0* -18.8 d3 20*13 44 1026 SB e 64 13.30 0.60 0.12 70 <0.45 1.40 3.04 587 2 8 0.4 + 5 38 7 0.0155 14.5 -19.8 d3e 20*14 19 587 S e 0.25 0.29 0.91 1.71 588 2 8 36.2 + 3 32 49 0.0109 14.7 -18.8 d3e 22*16 41 588 S0 <0.29 1.02 <1.21 366 2 8 50.5 +13 40 54 0.0260 15.0 -20.4 sd3 12* 14 366 e <0.33 1.06 1.83 367 2 10 52.4 +16 51 0 0.0370 15.7 -20.5 d3 20*12 14 367 e 24 15.21 0.66 -0.02 71 <0.30 0.81 1.79 1175 2 10 53.8 +31 38 2 0.0198 16.2 -18.8 sd3 10* 8 38 1175 e 589 2 11 8.7 + 3 52 8 0.0110 14.3 -19.2 s2e 11* 29 589 e 11 15.07 0.53 -.05 15 0.50 2.66 3.40 1027 2 11 28.8 + 4 56 33 0.0302 14.4 -21.3 ds2e 27*12 44 1027 p e 0.62 5.28 8.18 590 2 12 0.5 - 0 59 57 0.0275 14.0 -21.5 sd2e 18* 19 590 S0/a Sy1.5 75 12.96 0.80 -0.36 91 0.30 0.38 0.53 1.41 1028 2 14 8.9 +31 28 6 0.0215 16.5* -18.7 sd2 7* 44 1028 e 1029 2 14 25.8 + 5 3 41 0.0307 15.4 -20.3 s2e: 11* 44 1029 e 0.45 2.00 2.06 591 2 14 37.0 + 1 28 30 0.0417 15.2 -21.2 d3e 12* 48 591 e 1030 2 14 39.1 +29 17 26 0.0177 15.2 -19.5 d3e 16*12 44 1030 e 0.28 1.35 1.81 1031 2 16 20.3 - 3 16 16 0.0082 15.5* -17.4 s2e: 13* 44 1031 e 25 14.34 0.46 -0.28 82 <2.99 0.65 1.11 592 2 17 7.5 - 0 29 8 0.0250 14.6 -20.7 ds3e: 10* 19 592 SBb e 0.33 1.52 2.30 1400 2 17 34.5 + 7 58 35 0.0296 15.6 -20.1 s2e 20* 8 48 1400 S0/a Sy1 55 13.89 1.19 0.37 91 1032 2 17 53.1 +32 28 58 0.0339 16.0* -20.2 ds3e: 9* 7 44 1032 Sy? 0.31 0.27 1.63 2.35 1033 2 19 20.5 -10 15 4 0.0182 15.0* -19.6 s2 20*10 52 1033 a 1034 2 20 20.9 +31 57 43 0.0342 14.6 -21.6 sd3e: 20*15 41 1034* dbl Sy2 38 14.01 0.90 0.34 91 0.28 0.70 6.53 12.70 1035 2 21 4.2 +33 19 56 0.0375 16.0* -20.4 ds3 9* 44 1035 e <0.25 0.63 1.40 1036 2 21 33.3 - 4 46 38 0.0436 16.0* -20.5 d3 12* 9 47 1036 e 1037 2 23 6.6 +36 33 36 0.0328 16.5 -19.7 sd3 8* 52 1037 a 1038 2 23 53.9 + 0 56 11 0.0051 14.7 -17.1 d3 18* 44 1038 E e 593 2 23 54.9 +11 55 44 0.0279 14.5 -21.1 s3 10* 35 593 SBc e,a 0.52 0.87 2.44 1176 2 24 27.3 +41 47 4 0.0191 15.0 -20.2 d3 15*12 38 1176 e 0.33 2.11 6.44 1177 2 24 36.5 -13 20 37 0.0227 16.5* -18.5 ds2e 15*12 38 1177 e <0.25 0.80 1.71 1178 2 24 37.3 -13 21 34 0.0228 16.0* -19.1 d3 20*10 38 1178 e 1039 2 25 6.2 -10 23 21 0.0064 15.5* -16.8 d2e 50*14 44 1039 e 0.40 1.48 1.57 1040 2 25 14.5 +31 5 23 0.0173 13.9 -20.8 s2e 7* 37 1040 SAbc Sy1 75 13.26 0.88 0.35 91 v 0.66 1.32 2.73 4.73 1042 2 25 38.0 -10 24 23 0.0069 16.5* -16.0 d3e 9* 44 1042 e 1041 2 25 55.7 +35 8 59 0.0337 16.5* -19.7 d3e 16*13 52 1041 a 1043 2 27 0.1 - 3 26 2 0.0081 14.0* -18.8 ds2e: 27*20 44 1043 e 0.30 1.54 2.89 1044 2 27 38.2 - 9 13 11 0.0164 14.5* -19.9 s1e 18*12 37 1044 E/S0 Sy1 55 13.67 0.50 -0.65 91 1045 2 29 4.3 - 0 21 35 0.0201 15.2 -19.6 d2e: 25*12 44 1045 e <0.53 0.62 <1.00 1046 2 29 48.3 +30 36 46 0.0349 16.5 -19.7 ds2e: 7* 48 1046 e 368 2 30 1.4 +20 25 27 0.0300 14.5 -21.3 d3e 22*18 14 368 p e 38 14.50 0.56 -0.18 71 <0.25 0.71 1.39 1047 2 30 13.4 + 0 27 30 0.0228 16.0* -19.1 d2e: 8* 48 1047 e 1179 2 30 27.0 +27 43 4 0.0374 16.0* -20.3 sd3 15*12 38 1179 S0/a Sy1.9 37 15.14 1.15 -0.09 91 38 39 Table 7. (continued) Table 7. (continued) ====================================================================== ======================================================================= 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 ---------------------------------------------------------------------- ----------------------------------------------------------------------- 594 2 31 48.4 + 7 31 20 0.0337 16.0* -20.0 d3 16*10 52 594 a 1048 2 32 10.1 - 9 0 14 0.0424 14.5* -21.9 s1e 13*10 37 1048 (R)Sap Sy1 75 13.38 0.66 -0.46 91 0.27 0.58 1.43 1.91 1049 2 33 45.2 -14 26 1 0.0146 15.0* -19.1 ds2 20*13 44 1049 e 0.35 1.32 1.70 1180 2 33 48.4 +33 6 38 0.0142 13.4 -20.9 sd3e 40*22 38 1180 SB0/SBa e <0.26 1.02 3.11 1050 2 34 37.7 +34 12 57 0.0169 13.9 -20.8 sd3e: 30*13 44 1050 SBa e 0.72 5.00 7.93 369 2 34 37.9 +20 55 26 0.0130 15.0 -19.0 sd1e 12* 14 369 E SB 29 15.30 0.39 -0.40 71 1181 2 36 2.2 + 3 49 49 0.0272 15.3 -20.2 ds2 15* 39 1181 a 370 2 37 40.3 +19 5 0 0.0030 13.2 -17.6 ds2 30*24 14 370 Sm e 81 13.28 0.61 -0.19 71 <0.31 1.12 2.91 1051 2 37 40.6 +35 5 0 0.0520 16.0 -21.2 ds2 9* 44 1051 e 0.25 0.66 1.28 1182 2 37 54.9 +16 36 59 0.0293 15.5* -20.2 d2e: 14* 8 38 1182 e <0.42 0.68 1.36 595 2 38 55.8 + 6 58 27 0.0275 15.0 -20.5 ds3e 15*11 30 595 E/S0 Sy1 37 14.42 0.84 -0.16 91 1183 2 39 51.4 +28 21 45 0.0059 13.5 -18.9 sd3 47*20 38 1183 Sa? Sy 0.34 0.50 5.32 11.20 596 2 40 13.0 + 7 23 7 0.0384 15.0 -21.3 ds2e: 15*10 47 596 Sp e,a <0.27 0.81 1.73 1052 2 42 53.2 + 0 42 16 0.0250 14.8 -20.5 s3e 20*13 52 1052 a 597 2 43 17.9 +15 38 34 0.0255 14.8 -20.6 d3+d3 9* 19 597* dbl e 1184 2 43 25.4 - 5 50 59 0.0294 15.5* -20.1 ds3 21*17 38 1184 e 0.37 2.46 4.61 1053 2 43 42.6 - 8 26 45 0.0304 16.5* -19.2 sd3e: 8* 6 52 1053 p a 598 2 43 52.4 + 7 11 35 0.0181 17.0* -17.6 d3 10* 7 30 598 e 1185 2 44 4.6 +15 34 32 0.0255 16.5* -18.9 d2 9* 38 1185 e 1054 2 44 20.3 +15 43 12 0.0261 15.7 -19.8 d3 10* 52 1054 a 1186 2 45 1.0 +15 43 45 0.0256 16.5* -18.9 ds2 7* 38 1186 e 599 2 45 11.4 + 2 57 29 0.0296 15.0 -20.7 d3e 12* 9 20 599 p e 1187 2 45 37.3 +13 43 39 0.0448 15.5* -21.1 s2 8* 38 1187 SBbp Sy1 29 16.33 0.91 -0.39 91 1055 2 45 51.9 - 9 10 5 0.0360 13.4 -22.7 sd2e: 8* 44 1055 HII 16 15.19 0.55 -0.09 95 1056 2 46 7.9 +35 7 40 0.0423 15.5 -21.3 d2 17*10 52 1056 a 1401 2 46 14.1 - 0 19 0 0.0250 15.5* -19.8 ds3e: 10* 46 1401 e 372 2 46 30.9 +19 5 54 0.0310 15.0 -20.9 s2e 20*14 14 372 S0 Sy1.8 37 14.54 1.01 -0.01 91 1057 2 46 35.0 +33 49 57 0.0390 16.0* -20.6 ds3e: 10* 8 44 1057 e 0.22 1.13 1.53 1058 2 46 47.0 +34 46 54 0.0174 15.4 -19.4 ds3e: 25*13 44 1058 S0 Sy2 55 14.35 0.96 0.02 91 v <0.26 0.66 1.44 1059 2 47 6.9 - 9 12 31 0.0358 16.5* -19.6 ds2 12* 6 52 1059 a 600 2 48 27.3 + 4 14 50 0.0034 15.2 -15.8 d2e 15* 9 20 600 SBb e 1060 2 49 2.4 +43 51 40 0.0313 15.2 -21.3 ds3e: 12* 48 1060 a <0.25 <0.52 1.19 1061 2 49 15.2 +36 31 52 0.0114 15.4 -18.6 ds3 12* 44 1061 e 1062 2 51 48.2 - 8 40 55 0.0621 15.5* -21.8 s3e 15* 52 1062 e 1402 2 51 55.5 + 2 10 34 0.0273 16.0* -19.5 d3 8* 46 1402 e 1063 2 52 8.0 -10 13 46 0.0048 13.0* -18.7 sd2e 25*18 44 1063 Im e 12 13.13 0.36 -0.46 100 0.43 2.99 4.76 1504 2 52 26.4 - 0 23 12 0.0288 13.7 -21.9 s3e: 21* 54 1504 Sy2 162 12.43 0.94 0.30 70 601 2 54 1.1 - 2 58 21 0.0235 15.0* -20.2 ds3e 11* 7 19 601 e <0.90 0.45 1.39 1064 2 55 47.9 -10 32 56 0.0151 15.0* -19.2 ds2e: 15*12 44 1064 e 0.53 2.56 4.79 1065 2 56 40.5 - 4 40 15 0.0137 14.5* -19.5 ds3e: 20*16 47 1065 e,a 1066 2 56 49.0 +36 37 18 0.0124 13.8 -20.4 ds2e 30*17 40 1066 (R)SB0 Sy2 75 13.27 0.91 0.40 91 0.50 2.32 10.30 12.70 602 2 57 14.1 + 2 34 24 0.0086 13.8 -19.2 sd2e 12* 35 602 SBbc SB 0.69 3.55 5.58 1067 2 58 42.8 +42 23 20 0.0140 14.4 -20.3 sd3e: 18*12 48 1067 SBa e 0.27 1.94 5.06 1068 2 59 58.4 + 2 0 0 0.0173 14.0 -20.5 ds3e: 13* 44 1068 I e <0.25 1.16 2.58 1403 3 0 27.9 - 1 34 11 0.0287 15.6 -20.0 d3 25*10 46 1403 S? e <0.28 0.61 1.33 1188 3 1 26.7 - 1 5 22 0.0658 16.5* -20.9 ds2 6* 38 1188 e 1189 3 2 46.3 - 2 32 3 0.0402 16.5* -19.8 s2e: 8* 38 1189 S e 1190 3 4 38.3 - 2 18 14 0.0425 16.5* -20.0 sd2e: 9* 6 38 1190 e <0.36 0.71 1.02 1069 3 5 57.5 -14 5 35 0.0047 14.5* -17.2 d2e 27*13 44 1069 e 0.26 1.36 1.90 603 3 6 26.2 - 3 8 31 0.0081 14.5* -18.4 s2e 8* 30 603 E SB 0.50 2.38 12.60 15.30 40 41 Table 7. (continued) Table 7. (continued) ====================================================================== ======================================================================= 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 ---------------------------------------------------------------------- ----------------------------------------------------------------------- 1070 3 9 46.6 - 0 21 53 0.0373 15.1 -21.1 sd1e: 12* 9 52 1070 e,a 1071 3 9 56.3 -10 42 2 0.0125 15.5* -18.3 ds3 13* 44 1071 e 1404 3 10 10.0 - 7 45 34 0.0358 15.0* -21.1 sd2e: 14* 46 1404 e 0.25 1.45 2.91 604 3 10 18.4 - 5 27 19 0.0074 15.5* -17.2 d3 8* 30 604 e 1072 3 10 51.2 +41 6 22 0.0156 15.1 -19.9 ds3e: 13* 48 1072 a 1073 3 11 42.9 +41 51 3 0.0237 14.0 -21.9 ds3e 33*13 40 1073 (R)SBb Sy2 55 13.56 0.72 0.04 91 0.47 1.43 8.11 11.40 605 3 13 6.8 - 3 39 8 0.0282 16.5* -19.1 ds1 10* 8 30 605 e 1074 3 14 21.3 - 0 13 31 0.0236 15.4 -19.8 s2e: 13*10 52 1074 a 1505 3 16 30.0 +41 20 0 0.0178 12.4 -22.8 s1e 28* 106 1505 S0p Sy1 137 11.62 0.75 0.04 91 1075 3 16 57.9 - 6 18 4 0.0072 14.5* -18.1 d3 25*13 44 1075 e <0.26 0.76 1.65 1076 3 17 8.9 + 0 23 5 0.0239 15.6 -19.6 d2 20* 9 44 1076 SB e 606 3 17 45.9 + 3 58 10 0.0300 16.5* -19.2 sd3 8* 6 20 606 e <0.25 0.77 1.83 608 3 22 17.7 - 3 11 29 0.0090 14.5* -18.6 s2 7* 7 35 608 E3* e,a 607 3 22 18.0 - 3 13 3 0.0088 14.0* -19.1 ds3e 45*18 35 607 S0/a Sy2 0.34 1.08 2.33 2.76 609 3 22 57.9 - 6 18 58 0.0345 14.5* -21.5 s2e 13* 30 609 E/S0 Sy1.8 29 14.40 0.70 -0.03 91 v 0.48 2.55 4.76 610 3 23 3.3 - 6 18 20 0.0345 16.5* -19.5 d3e 12* 30 610 e 611 3 23 40.9 - 0 22 39 0.0295 16.5* -19.2 s2 6* 19 611 e 29 15.72 0.42 -0.32 91 <0.25 0.46 0.97 1077 3 25 50.5 +39 36 46 0.0229 16.0* -19.8 ds2 12*10 48 1077 a 612 3 28 9.9 - 3 18 35 0.0199 15.5* -19.3 sd2e 10* 40 612 (R)Sa Sy2 37 14.08 0.88 0.11 91 0.30 1.13 1.77 613 3 33 57.6 - 4 51 56 0.0209 16.0* -18.9 d2 11* 30 613 e 1078 3 38 19.0 - 3 59 22 0.0135 15.5* -18.5 d3 18*10 44 1078 e <0.37 0.54 1.14 1191 3 40 12.7 - 6 32 23 0.0209 14.5* -20.4 ds3 20* 9 38 1191 S e <0.26 0.51 1.20 1405 3 40 38.2 +39 8 16 0.0171 13.8 -21.5 sd2e 25*18 46 1405 E/S0 e 0.53 0.53 4.62 8.67 1192 3 53 7.4 - 9 43 45 0.0287 15.5* -20.1 sd3 13* 38 1192 S Sy2? 1079 4 1 33.2 -11 18 54 0.0297 14.5* -21.2 sd3e 27*18 44 1079 e 0.34 2.64 4.99 1080 4 1 55.8 - 2 19 26 0.0023 13.1 -17.1 s2e 6* 44 1080 e 170 12.20 0.51 -0.20 70 <0.25 1.46 3.65 1081 4 2 52.1 + 4 16 38 0.0177 15.4 -19.3 sd3e: 14* 44 1081 Sab? e <0.25 1.17 1.76 1193 4 4 37.9 -10 18 13 0.0318 16.5* -19.4 sd2 11* 38 1193 e <0.25 0.68 1.04 614 4 8 29.0 - 7 24 34 0.0105 15.0* -18.5 sd3 12* 30 614 e 615 4 22 5.8 - 0 52 24 0.0152 16.0* -18.4 sd2e 8* 20 615 e <0.25 0.70 1.13 1082 4 27 51.4 + 0 21 50 0.0433 16.0* -20.7 s3e: 12* 9 52 1082 a 616 4 28 9.4 + 0 33 29 0.0116 14.1 -19.7 ds3 20*13 41 616 E2p a 54 13.61 1.08 0.58 102 1506 4 30 30.0 + 5 15 0 0.0331 14.3 -22.0 s1e 13* 5 1506 Sy1 15 14.27 0.58 -0.75 81 v 617 4 31 35.5 - 8 40 42 0.0153 14.0 -20.3 sd2e 9* 8 30 617 SBbp SB 43 13.05 0.71 -0.03 70 1.39 7.59 33.20 31.60 618 4 33 59.7 -10 28 40 0.0357 14.5* -21.7 s2e 10* 20 618 SBap Sy1 75 13.56 0.50 -0.43 91 0.37 0.80 2.73 3.91 1083 4 36 10.5 + 0 5 34 0.0266 15.1 -20.5 d3e: 14*12 44 1083 e 1084 4 41 25.0 + 8 44 51 0.0305 16.0* -20.0 ds3 10* 52 1084 e <0.25 0.61 1.78 1085 4 43 43.1 -12 31 53 0.0160 16.0* -18.5 d3 20* 48 1085 Sab? e 0.25 1.04 2.50 1086 4 45 57.7 - 1 37 31 0.0270 15.0 -20.7 s3e: 27*12 44 1086 SB e <0.25 0.90 1.25 1087 4 47 7.1 + 3 14 55 0.0274 14.8 -21.0 s2e: 13*11 41 1087 S0p SB 25 14.83 0.50 -0.16 82 0.50 3.48 4.77 1088 4 52 1.0 + 3 11 19 0.0150 13.2 -21.3 d3 50*25 44 1088 SB0/a e 0.32 0.85 6.29 10.10 1089 4 59 9.4 - 4 19 43 0.0127 15.0* -19.1 ds2e 10* 44 1089 p SB 64 13.57 0.39 -0.53 70 0.70 4.01 5.43 1090 4 59 15.1 - 4 21 37 0.0128 15.0* -19.1 d2e: 13* 44 1090 IAB e 64 14.44 0.50 -0.48 70 1091 4 59 25.1 -14 19 56 0.0253 15.0* -20.5 d3 20* 8 44 1091 e 0.28 1.45 2.22 1092 5 1 57.6 -10 8 40 0.0105 14.5* -19.1 sd3e 33*13 48 1092 Sb e 16 14.14 0.83 0.26 95 <0.24 0.57 1.79 1093 5 5 19.5 - 8 4 59 0.0141 15.5* -18.8 ds3e: 25*13 48 1093 Sp SB 0.34 1.32 9.15 12.30 1094 5 8 17.4 - 2 44 33 0.0092 14.0 -19.4 d2 20*12 44 1094 p e <0.25 0.74 <1.16 1194 5 9 6.6 + 5 8 26 0.0145 13.7 -20.8 ds2e: 30* 38 1194 SB0 SB 0.31 0.75 6.95 11.40 1095 5 13 37.8 - 0 12 14 0.0330 14.6 -21.7 s1e 18*15 37 1095 S0/a Sy1 75 12.87 0.73 -0.62 91 v 0.40 0.48 0.65 1.31 3 6 9 48.1 +71 3 0 0.0141 13.8 -20.6 ds2e 35*25 9 3 SB0 Sy2 75 12.77 1.13 0.12 91 v 0.70 2.86 3.88 3.35 42 43 Table 7. (continued) Table 7. (continued) ====================================================================== ======================================================================= 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 ---------------------------------------------------------------------- ----------------------------------------------------------------------- 4 6 21 27.7 +74 19 53 0.0160 15.0 -19.6 sd2e: 10* 1 4 SBc e,a 0.34 2.35 4.40 619 6 27 15.5 +57 15 56 0.0442 17.0* -19.9 d3e: 8* 30 619 e 5 6 35 24.4 +75 40 14 0.0029 17.0* -13.9 d1e 7* 1 5 Im HII 41 15.25 0.56 -0.34 71 1195 6 40 0.0 +78 4 31 0.0394 17.0* -19.5 ds2e: 10* 39 1195 p e <0.25 0.44 1.19 6 6 45 43.4 +74 29 7 0.0197 14.8 -20.2 s1e 20* 12 6 SAB0/a Sy1.5 55 13.28 1.01 0.19 91 v 0.31 0.68 1.11 0.94 620 6 45 37.5 +60 54 13 0.0068 12.5 -20.3 sd3 53*40 20 620 SBab Sy2 137 11.92 0.86 0.32 91 v 0.46 1.37 6.24 9.91 701 6 46 0.8 +77 28 12 0.0170 14.8 -19.9 ds2e 18*14 43 701 Sa e 0.25 0.96 3.24 373 6 50 42.7 +50 25 0 0.0200 15.0 -20.2 ds2e: 7* 14 373 SBc SB 0.50 1.84 2.57 374 6 55 33.9 +54 15 53 0.0440 15.0* -21.8 s1e 7* 14 374* dbl,S Sy1 17 14.61 0.70 -0.38 81 1196 6 59 37.3 +39 18 51 0.0223 15.0 -20.5 d3e: 10* 39 1196 e,a <0.29 1.20 1.87 375 7 2 22.3 +67 45 35 0.0120 16.0* -17.9 d2 10* 14 375 e 29 15.63 0.74 -0.28 71 <0.60 0.43 <1.06 1197 7 2 53.1 +28 22 29 0.0166 14.9 -20.1 s3e: 24*16 39 1197 Sp? e <0.29 1.15 2.18 1198 7 8 2.2 +25 59 57 0.0255 14.8 -21.1 sd3e: 12* 39 1198 p? e <0.34 0.97 2.54 376 7 10 35.8 +45 47 7 0.0560 16.0* -21.4 s2e 16* 17 376 S0/a Sy1 29 14.37 0.51 -0.54 91 0.58 0.86 1.27 378 7 13 18.9 +49 46 57 0.0417 17.0* -19.7 d2 7* 27 378 Sy2 379 7 13 11.0 +63 34 36 0.0164 14.8 -19.8 ds2 30* 7 35 379 S a 32 14.00 1.01 0.40 90 380 7 13 28.1 +74 33 33 0.4750 17.0* -24.9 s1e: 6* 45 380 QS0 1199 7 20 28.5 +33 32 24 0.0135 13.7 -20.6 sd1e: 15* 39 1199 e 0.32 1.36 6.98 8.62 1200 7 21 55.9 +27 25 27 0.0260 14.8 -21.0 sd3e: 27*14 39 1200 SB e <0.44 1.32 2.95 7 7 22 18.7 +72 40 24 0.0106 13.9 -19.7 d2 25*40 5 7 Im e 41 14.24 0.41 -0.36 71 <0.25 0.59 1.02 1201 7 22 34.6 +30 3 4 0.0186 15.2 -19.8 sd1e 13* 39 1201 S e 0.62 2.93 4.01 71 7 23 23.7 +69 17 33 0.0009 11.6 -16.7 d1e 20*33 41 71 Im HII 43 13.72 0.42 -0.25 71 0.73 3.28 4.38 8 7 23 38.5 +72 13 50 0.0126 13.8 -20.2 d1 37*27 41 8 Im e 41 13.97 0.49 -0.37 71 0.41 2.36 3.82 72 7 25 37.8 +56 57 13 0.0441 17.0* -19.7 d3e: 8* 8 72 e,a 1406 7 25 29.6 +55 8 10 0.0397 16.0* -20.5 ds2e: 14*10 46 1406 e <0.25 1.53 1.27 73 7 27 7.0 +63 20 53 0.0150 14.9 -19.5 sd3e 15* 4 73 e 20 14.71 0.73 -0.11 71 0.72 3.22 3.54 74 7 27 6.1 +55 21 34 0.0371 16.0* -20.4 d3 10* 7 8 74 e 1407 7 28 8.7 +31 50 22 0.0164 15.4 -19.3 sd3e: 16*12 46 1407 e 75 7 28 29.3 +55 18 13 0.0300 16.0* -19.9 ds3 10* 8 75 e,a <0.42 0.59 1.36 76 7 30 21.5 +65 7 7 0.0216 15.1 -20.1 ds3e 25*13 35 76 a 1408 7 31 30.5 +56 9 28 0.0346 15.4 -20.8 ds2e: 12* 46 1408 e 77 7 31 39.1 +60 24 46 0.0915 16.5* -21.8 sd3e: 8* 48 77 e 9 7 32 42.0 +58 53 0 0.0400 15.2 -21.3 s1e: 25* 12 9 S0p Sy1 37 14.41 0.56 -0.79 91 v 0.30 0.53 0.87 1.47 78 7 37 55.9 +65 17 43 0.0380 15.0* -21.4 ds1e 15*10 4 78 SB0 Sy2 37 14.44 0.99 0.09 91 v 0.54 1.12 1.18 79 7 38 46.9 +49 55 47 0.0220 13.3 -21.9 s1e 40*20 3 79 SBc Sy1 75 13.13 0.58 -0.52 91 v 0.31 0.78 1.49 2.09 81 7 39 46.1 +57 6 26 0.0112 14.3 -19.4 sd2e: 30*20 35 81 S0 a 15 14.28 1.02 0.62 81 1409 7 41 34.8 +53 32 55 0.0185 17.0* -17.8 d2 10* 7 46 1409 e 1202 7 42 24.9 +28 33 48 0.0159 15.6 -19.0 d3e 12* 9 39 1202 e 82 7 42 38.3 +62 30 19 0.0190 15.5* -19.4 s2e: 10* 4 82 e 15 14.88 0.91 0.25 71 10 7 43 7.4 +61 3 23 0.0293 14.0 -21.8 s1e: 20* 59 10 (R)SBbc Sy1 137 13.03 0.69 -0.38 91 v 0.30 0.84 2.13 1410 7 43 10.0 +55 4 22 0.0187 17.0* -17.8 d2e 10* 7 46 1410 e 11 7 43 17.0 +74 27 30 0.0133 14.4 -19.7 s3 26*18 35 11 E5/S0 a 32 13.91 0.81 0.30 90 83 7 44 13.1 +54 20 13 0.0490 16.5* -20.4 s3e: 7* 4 83 e <0.25 0.58 1.00 12 7 44 41.0 +74 29 6 0.0136 12.7 -21.4 d3 25*12 9 12 SBc e,a 57 12.86 0.47 -0.35 71 0.33 0.33 3.18 6.85 1203 7 44 52.4 +28 26 59 0.0248 15.5 -20.1 sd3 14*10 39 1203 a 1204 7 46 33.3 +29 4 19 0.0155 15.5* -19.0 d2 15*10 39 1204 e 1411 7 50 18.4 +58 24 7 0.0208 15.3 -19.8 sd2e 23*14 46 1411 e <0.57 0.45 1.09 84 7 51 5.7 +55 50 7 0.0210 13.6 -21.5 s2 30*10 4 84 Im e,a 41 13.91 0.45 -0.19 71 0.27 1.35 2.59 13 7 51 56.8 +60 26 17 0.0050 14.5 -17.5 sd1e: 20* 1 13 SBbc SB 114 13.77 0.57 -0.04 70 <0.25 0.48 1.00 382 7 52 3.2 +39 19 7 0.0340 15.5 -20.7 s2 12* 7 17 382 SBc Sy1 55 14.75 0.56 -0.37 91 v 44 45 Table 7. (continued) Table 7. (continued) ====================================================================== ======================================================================= 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 ---------------------------------------------------------------------- ----------------------------------------------------------------------- 1205 7 52 57.7 +16 41 23 0.0465 16.5* -20.5 sd2e 11* 39 1205 e,a 1206 7 54 21.3 +14 47 37 0.0477 15.5* -21.6 d3 14* 39 1206 e <0.35 <0.72 1.33 1412 7 55 27.5 +55 25 57 0.0214 14.9 -20.2 s3e: 30*14 46 1412 S0 a 383 7 57 10.7 +39 58 33 0.0280 15.6 -20.1 d2 12* 8 17 383 e 1413 7 58 4.1 +73 19 6 0.8630 17.0* -26.1 s1 5* 45 1413 QS0 1207 7 59 31.9 + 9 32 6 0.0158 15.0 -19.7 ds3e 25*15 46 1207 a 384 8 0 8.4 +23 32 0 0.0160 14.2 -20.4 s3e 24* 17 384 SBbc SB 15 14.42 0.81 0.11 0.67 3.72 7.05 385 8 0 27.3 +25 14 34 0.0270 15.2 -20.5 sd3 14*12 17 385 e <0.39 0.99 1.65 1208 8 1 13.7 + 8 50 30 0.0166 15.1 -19.7 sd2e 14* 39 1208 e <0.30 1.14 1.86 1209 8 1 16.1 +10 9 6 0.0339 15.2 -21.1 d3 13* 7 39 1209 Sp e 1210 8 1 27.0 + 5 15 22 0.0135 14.4 -20.0 ds2e 25* 39 1210 Sy2 0.56 2.10 1.82 1.44 1211 8 3 4.3 + 7 44 5 0.0537 15.2 -22.2 ds3e: 18* 39 1211 e <0.26 0.58 1.24 1212 8 4 2.6 +27 16 17 0.0414 15.2 -21.4 s2e 13* 8 39 1212 Sy? 0.34 1.83 3.23 621 8 4 10.9 +15 44 52 0.0443 16.5* -20.3 d3e 11* 48 621 a 622 8 4 21.2 +39 9 1 0.0230 14.4 -20.9 sd2e: 14*12 40 622 Sy2 25 14.08 0.82 0.22 82 0.50 1.36 1.45 14 8 5 21.7 +72 56 33 0.0105 14.4 -19.2 s2 20* 1 14 S0? SB 29 14.53 0.42 -0.35 71 0.25 1.07 1.55 85 8 8 56.8 +55 49 26 0.0120 13.8 -20.0 s3e: 25* 11 85 E1p a 41 13.55 0.85 0.32 71 86 8 9 43.1 +46 8 33 0.0015 11.7 -17.6 d1e 54* 13 86* Sm dbl e 138 11.72 0.67 -0.17 69 0.42 3.15 6.26 623 8 13 16.1 +26 7 44 0.0419 16.5* -20.1 sd3e 7* 20 623 e 0.52 1.17 1.17 87 8 15 55.1 +74 8 53 0.0100 13.4 -20.1 sd3e 20*15 41 87 SB0/a SB 57 13.35 0.90 0.23 71 <0.25 1.30 3.41 386 8 16 52.1 +22 11 7 0.0115 13.8 -20.0 sd3e 30*16 35 386 SBbp* 57 12.45 0.92 0.43 71 <0.34 0.73 2.03 1214 8 21 3.9 +14 54 54 0.0062 14.4 -18.1 ds3 27*15 53 1214 p e 624 8 21 20.7 +25 50 24 0.0279 16.5* -19.2 d2 10* 20 624 e 387 8 21 23.5 +17 29 40 0.0366 15.1 -21.2 d3e: 18* 25 387 e 0.65 0.69 1.03 88 8 24 18.0 +55 52 34 0.0310 14.3 -21.6 d2e: 15* 4 88 e,a 15 14.66 0.62 -0.06 81 <0.25 1.27 2.51 1215 8 25 34.2 +23 13 41 0.0457 15.6 -21.2 sd3e: 10* 46 1215 a 89 8 25 56.4 +52 14 33 0.0050 15.0* -16.9 sd2e: 12* 8 3 89 Im e 25 14.83 0.55 -0.33 67 90 8 26 15.7 +52 51 53 0.0145 13.9 -20.3 s3 35*20 8 90 SBb e 41 13.95 0.73 0.03 71 <0.25 0.87 2.18 1216 8 26 19.8 - 6 46 21 0.0216 15.5* -19.9 ds3 27*14 46 1216 e,a 91 8 28 44.9 +52 46 34 0.0172 14.7 -19.9 sd2 12* 9 8 91 e,a 0.71 4.74 7.20 15 8 28 48.5 +75 18 36 0.0219 17.0* -18.1 d1e: 10* 9 15 e <0.25 0.59 1.33 389 8 29 15.4 +22 44 0 0.0146 13.4 -20.9 sd3e: 24* 35 389 S0/a a 41 12.93 0.86 0.34 71 <0.32 0.74 2.23 92 8 32 10.9 +46 39 53 0.0130 15.0* -19.0 s1e 10* 3 92 S e 25 14.30 0.50 -0.20 67 0.25 0.38 2.50 3.72 390 8 32 28.2 +30 42 20 0.0240 15.0 -20.3 sd2e: 13*11 17 390 e <0.30 0.64 <1.01 93 8 32 10.1 +66 24 20 0.0180 15.7 -19.0 sd1e 10* 7 8 93 Sa SB 25 15.23 0.70 -0.27 67 0.49 1.58 1.41 94 8 34 3.6 +51 48 53 0.0025 16.5* -13.9 d1e 7* 13 94 SBd HII 11 16.34 0.75 -0.50 71 1218 8 35 13.1 +25 4 17 0.0315 14.8 -21.1 s3e: 20*15 39 1218 SBb Sy1.8 55 13.86 0.86 -0.18 91 625 8 35 30.7 +19 53 33 0.0147 15.1 -19.2 s3 16* 20 625 e 626 8 42 26.3 +37 7 1 0.0130 13.8 -20.2 ds3 22* 20 626 E0 e 41 13.75 0.68 0.01 71 0.27 1.00 1.00 702 8 42 45.3 +16 16 46 0.0523 15.7 -21.3 ds3e: 11* 43 702 e <0.42 0.66 1.08 627 8 43 23.6 +36 37 24 0.0106 15.6 -17.9 ds2e 13* 9 20 627 e 95 8 44 33.4 +70 20 53 0.0120 15.5 -18.3 d2 13*10 3 95 Sb e 25 15.40 0.46 -0.11 67 96 8 45 34.0 +46 26 6 0.0220 15.5* -19.6 sd1e 9* 3 96 e 25 14.95 0.39 -0.30 67 <0.25 0.73 0.95 97 8 46 34.3 +65 49 29 0.0236 15.3 -20.0 ds3 20*10 25 97 e 0.32 1.84 2.79 98 8 46 52.5 +72 0 3 0.0110 15.0 -18.6 d1e 12*10 3 98 p e 25 14.78 0.51 -0.16 67 99 8 47 25.0 +61 12 33 0.0130 16.6* -17.4 d3e: 10* 7 3 99 e 25 15.86 0.49 -0.38 67 17 8 47 49.0 +57 17 41 0.0228 17.0* -18.2 s2 7* 1 17 e 628 8 47 55.9 +29 23 24 0.0268 15.3 -20.2 d3 12* 9 20 628 e <0.34 0.53 1.31 16 8 47 57.6 +73 22 40 0.0083 14.6 -18.4 ds1 20*14 9 16 e,a 29 14.69 0.61 0.00 71 <0.25 0.55 <1.19 1414 8 48 0.5 - 2 54 43 0.0144 15.0 -19.4 ds3 25*13 46 1414 e 0.44 2.47 4.05 46 47 Table 7. (continued) Table 7. (continued) ====================================================================== ======================================================================= 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 ---------------------------------------------------------------------- ----------------------------------------------------------------------- 1219 8 50 25.9 - 4 35 4 0.0296 16.5* -19.4 d3 13* 48 1219 a 391 8 51 32.3 +39 43 40 0.0139 13.9 -20.2 d2e: 24*18 58 391 Sa SB 37 12.88 0.88 0.26 91 <0.28 1.28 3.43 1220 8 51 50.0 +17 52 50 0.0649 16.5* -21.0 s2e: 12* 39 1220 Sy2 0.50 0.87 1.17 100 8 54 29.8 +66 39 47 0.0150 14.2 -20.1 s2e: 28* 4 100 p SB 25 13.87 0.64 0.40 55 <0.25 1.39 2.43 703 8 56 11.5 + 6 29 17 0.0116 13.3 -20.5 s2 65*15 43 703 Sa/SBb HII 16 14.24 0.74 -0.07 95 0.30 0.59 3.95 6.76 18 8 58 1.6 +60 20 53 0.0111 13.1 -20.5 ds3 50*25 8 18 Sa? e,a 41 13.93 0.78 -0.06 71 0.31 2.06 3.04 1221 9 0 27.2 +18 27 34 0.0108 16.0* -17.6 d2e: 27*10 39 1221 e <0.30 0.84 1.59 1222 9 0 33.7 +20 51 58 0.0315 15.4 -20.5 d3e: 9* 39 1222 p e 101 9 1 0.7 +51 48 46 0.0162 13.6 -20.8 s1 30*20 7 101 S0* e,a 25 13.58 0.59 0.03 67 <0.25 0.93 2.39 1223 9 1 21.2 +17 16 31 0.0281 16.5* -19.1 d3e 12* 48 1223 a 1224 9 1 48.9 +14 47 40 0.0493 14.3 -22.6 d3e 10* 39 1224 e 0.64 4.35 7.36 1225 9 6 35.8 +15 59 59 0.0123 14.6 -19.2 ds3 33*16 48 1225 Sb a 1226 9 6 47.5 +19 40 22 0.0265 15.7 -19.8 sd3e 20*18 48 1226 e,a 102 9 8 18.1 +46 50 33 0.0144 14.3 -19.8 ds3e: 13*17 7 102 SB 15 14.58 0.53 -0.07 81 <0.24 0.69 1.59 1415 9 10 28.0 +52 26 23 0.0471 16.5* -20.2 d3 10* 46 1415 p e 1227 9 11 10.6 +18 9 9 0.0294 16.5* -19.2 d3e: 17*13 48 1227 a 103 9 11 41.9 +67 57 59 0.0319 15.6 -20.3 s3 8*18 8 103 e 0.30 1.04 1.73 1228 9 12 13.1 +19 54 19 0.0259 14.7 -20.7 d2e 22*18 53 1228 e <0.43 0.69 1.43 19 9 12 53.5 +59 58 53 0.0141 15.6 -18.5 ds1e 12*15 1 19 HII 15 15.42 0.45 -0.69 71 <0.25 0.56 1.00 1229 9 13 3.7 +21 8 15 0.0298 15.5 -20.2 sd3e 27*15 39 1229 S e <0.30 1.35 2.74 104 9 13 12.7 +53 39 7 0.0070 14.7 -17.9 s1e: 10*13 3 104 p e 25 14.43 0.45 -0.28 67 1230 9 14 10.5 +25 38 21 0.0048 14.5* -17.3 sd2 40*27 39 1230 S0 e <0.35 1.12 1.55 704 9 15 39.5 +16 30 59 0.0290 15.2 -20.5 s1e 12*20 36 704 Sa Sy1 75 13.51 0.66 -0.08 91 0.44 0.60 0.47 <1.00 105 9 15 43.1 +71 37 0 0.0123 16.0* -17.8 s2 6* 8 25 105 Sc SB 15 15.72 0.69 -0.07 81 394 9 16 7.0 +26 28 50 0.0087 14.3 -18.8 s2e: 20*15 52 394 S0 <0.33 1.28 1.76 106 9 16 18.4 +55 34 21 0.1220 16.0* -22.8 s1 5* 3 106 Sy1 10 16.22 0.22 -0.90 67 v 20 9 16 59.6 +71 45 22 0.0121 14.7 -19.1 d3 23*13 8 20 SBa e 29 14.50 0.42 -0.29 71 <0.25 0.68 1.18 1231 9 17 6.9 -10 17 25 0.0369 15.0* -21.4 sd3 15* 53 1231 (R)SBb e 55 14.47 0.92 -0.27 91 <0.25 1.17 2.06 1232 9 17 20.8 + 1 9 26 0.0173 16.0* -18.6 ds3e: 20*14 50 1232 a 1416 9 17 25.7 +52 46 53 0.0079 17.0* -15.8 d1e 10* 7 46 1416 e 108 9 17 26.1 +64 26 57 0.0040 15.1 -16.3 d1e 13* 8 4 108 Im? e 41 15.05 0.42 -0.58 71 395 9 18 43.9 +33 31 20 0.0219 17.0* -18.0 sd2e 8* 7 48 395 e 109 9 19 4.7 +47 27 27 0.0305 15.6 -20.2 d3 10*15 8 109 SBc HII 0.32 0.69 1.89 397 9 21 29.2 +18 1 23 0.0770 16.5* -21.3 d3 18*14 17 397 e 110 9 21 44.4 +52 30 14 0.0360 16.0* -20.1 ds1e: 7*10 4 110 Sy1 15 15.37 0.76 -0.67 81 v 398 9 21 52.2 +17 52 36 0.0140 14.9 -19.2 d3 18*12 17 398 e 29 14.95 0.58 -0.17 71 399 9 23 4.9 +35 6 47 0.0160 16.5* -17.9 d2e 18*10 17 399 e <0.25 1.02 1.48 400 9 23 12.2 +19 36 3 0.0080 14.4 -18.5 d2 24*20 17 400 e 24 14.31 0.44 -0.25 71 <0.31 1.22 2.32 705 9 23 20.0 +12 57 3 0.0282 13.9 -21.7 s1e 11* 36 705 (R)S0 Sy1 37 14.00 0.52 -0.24 91 v <0.30 0.67 1.56 1417 9 23 33.0 +58 49 57 0.0304 16.5* -19.3 sd2e 14*10 46 1417 e 111 9 23 30.2 +68 37 43 0.0135 13.9 -20.1 s2e: 32*30 31 111 Im e 35 13.96 0.43 -0.27 81 0.37 2.82 5.66 112 9 24 35.6 +48 17 50 0.0275 16.5* -19.0 D3 8* 48 112 114 9 26 36.8 +56 4 20 0.0254 14.5 -20.9 s3 30*15 30 114 SBbc e <0.33 1.52 3.00 401 9 27 19.5 +29 45 33 0.0060 13.6 -18.6 sd3 30*20 17 401 SBb SB 38 13.33 0.69 -0.06 71 0.62 2.49 3.67 115 9 27 25.7 +49 28 44 0.0260 15.4 -20.0 s2 10* 4 115 p e <0.25 0.59 1.23 116 9 30 30.3 +55 27 46 0.0014 17.6 -11.5 sd1e 5* 4 116* dbl HII 15 16.21 0.17 -0.71 71 117 9 30 39.9 +50 15 4 0.0384 15.5 -20.8 d3e: 12* 48 117 a 706 9 31 27.1 +11 15 2 0.0075 15.2 -17.5 d2 12* 43 706 e 1233 9 31 36.6 + 0 27 55 0.0154 13.9 -20.4 ds3e: 27*18 41 1233 p e 0.36 2.79 4.62 402 9 32 21.6 +30 37 46 0.0241 16.0* -19.2 sd2e: 12* 8 20 402 e 48 49 Table 7. (continued) Table 7. (continued) ====================================================================== ======================================================================= 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 ---------------------------------------------------------------------- ----------------------------------------------------------------------- 707 9 34 26.5 + 1 19 13 0.0492 15.4 -21.5 s2e: 10* 8 37 707 E/S0 Sy1 29 14.88 0.64 -0.63 91 v 1234 9 36 34.1 - 9 13 50 0.0153 16.0* -18.4 ds3e 20*13 52 1234 S0 1418 9 37 9.8 +48 33 53 0.0023 13.5 -16.6 sd2e: 28*20 47 1418 p e <0.34 0.56 1.21 403 9 37 55.9 +21 27 26 0.0237 15.4 -19.8 d2e 14*12 40 403 E/S0 Sy2 29 14.53 0.88 -0.17 91 1419 9 38 0.3 + 3 48 17 0.0154 13.6 -20.7 sd2e: 37*30 46 1419 Sa? Sy? <0.34 0.76 1.67 1420 9 38 53.8 +48 14 28 0.0560 15.5* -21.6 d2 14* 9 46 1420 S? e <0.52 0.90 1.21 1421 9 38 54.1 +61 6 17 0.0266 17.0* -18.5 sd2e 8* 46 1421 e 118 9 39 5.8 +76 34 50 0.0085 15.2 -17.9 d3 15*22 8 118 p e 41 14.77 0.50 -0.13 71 1422 9 39 8.9 +12 24 44 0.0218 16.0* -19.0 sd2e 12* 46 1422 e 1423 9 39 24.5 +59 12 8 0.0045 15.5* -16.1 sd2e 18* 46 1423 S e 1235 9 39 26.5 - 8 22 28 0.0153 15.5* -18.9 s3 10* 53 1235 Sc 0.25 1.05 2.57 708 9 39 34.4 + 4 54 7 0.0059 14.0 -18.2 s3e 7* 43 708 SB SB 0.37 0.77 5.37 7.99 404 9 39 59.3 +32 4 33 0.0039 15.5* -15.8 d2 * 20 404 SABbc HII 54 11.62 0.79 0.26 102 0.66 1.35 11.70 23.20 119 9 40 10.0 +66 12 27 0.0100 14.1 -19.3 d2e: 16*20 4 119 p e 29 13.87 0.51 -0.18 71 0.36 2.17 4.01 405 9 40 32.8 +32 12 20 0.0051 14.7 -17.2 d3 22*20 64 405 406 9 41 8.0 +29 50 6 0.0163 15.5* -18.9 ds2e 15*12 40 406 e 120 9 42 13.5 +72 40 53 0.0700 17.0* -20.6 ds2e: 6* 13 120 e 121 9 42 38.3 +73 13 7 0.0229 15.3 -19.9 sd2 10* 7 121 Sb e 1424 9 42 56.4 +57 20 55 0.0044 16.5* -15.1 sd1e 20*10 46 1424 e 122 9 43 14.5 +73 11 50 0.0224 14.3 -20.8 s3 20*36 7 122 SBab e,a <0.28 1.07 2.76 123 9 43 42.1 +56 20 9 0.0259 15.5* -19.9 ds3 8*15 8 123 S0 e 1425 9 44 33.5 +54 14 50 0.0250 15.5* -19.8 sd2 12* 46 1425 S e <0.25 1.00 2.17 407 9 44 43.4 +39 19 0 0.0054 15.1 -16.9 sd3e: 12* 20 407 e 24 14.90 0.43 -0.27 71 21 9 44 57.5 +58 12 13 0.0281 15.1 -20.3 sd3 12* 9 9 21 SBb? SB 15 14.85 0.78 0.09 81 408 9 45 7.6 +33 6 54 0.0048 14.8 -16.9 ds2 14*12 20 408 e 24 14.53 0.45 -0.34 71 <0.29 0.46 <1.08 124 9 45 24.3 +50 43 26 0.0550 16.0* -21.0 s1e: 7* 3 124 Sb Sy1 25 15.33 0.61 -0.47 67 0.29 0.67 <1.00 22 9 46 3.1 +55 48 46 0.0050 15.6 -16.2 d1e 7*13 1 22 e 24 15.76 0.62 -0.42 71 1426 9 46 3.2 +48 47 49 0.0059 16.6* -15.6 d3e: 12* 7 47 1426 e 709 9 46 33.2 +17 6 44 0.0513 17.0* -19.9 sd2e: 6* 43 709 e 409 9 46 44.6 +32 26 53 0.0046 14.2 -17.4 d3e 18*14 20 409 S0 SB 125 9 47 2.8 +46 11 33 0.0248 15.0* -20.3 d3e 12* 8 125 e <0.25 0.66 1.26 1236 9 47 19.9 + 0 51 0 0.0055 13.5 -18.6 d1e 17* 9 39 1236 SABcd e 54 13.28 0.52 -0.25 102 0.32 2.28 4.85 1237 9 47 30.3 +44 33 55 0.0151 15.5* -18.7 d2e: 14* 9 39 1237 e 1238 9 48 54.7 - 1 18 49 0.0589 16.5* -20.7 ds3 15*10 99 1238 a 126 9 49 16.5 +52 27 34 0.0391 15.5* -20.8 ds3e 15* 7 126 a <0.25 0.53 1.59 1239 9 49 46.3 - 1 22 35 0.0206 14.5* -20.5 s1e 14* 39 1239 E Sy1 29 14.16 0.63 -0.30 91 0.70 1.21 1.39 1.14 410 9 50 8.5 +37 59 37 0.0231 16.0* -19.1 sd2 12* 9 20 410 e 127 9 51 3.8 +51 28 47 0.0370 16.5* -19.7 s2e 8* 4 127 e 1427 9 51 45.4 +42 3 12 0.0076 16.5* -16.2 d3 15*12 46 1427 e 710 9 52 10.2 + 9 30 32 0.0039 13.5 -17.8 sd1e 18*12 43 710 SBbc SB 0.47 2.66 4.18 1240 9 52 26.6 +11 16 38 0.0398 15.4 -20.9 ds3e 13* 52 1240 a 711 9 52 29.2 +13 40 2 0.0195 15.5* -19.3 sd3e: 16* 9 43 711 SB 0.39 0.79 1.35 128 9 53 16.1 +60 19 33 0.0310 16.0* -19.8 d3 10*20 13 128 e 23 9 53 26.7 +60 12 20 0.0325 15.6 -20.3 s2 12* 1 23 e <0.25 0.63 1.03 129 9 53 32.7 +46 41 47 0.0157 15.1 -19.2 sd3 10*15 8 129 a 24 14.92 0.72 0.05 71 1241 9 53 54.1 +11 24 4 0.0409 15.0 -21.4 ds2 25*18 48 1241 a 712 9 53 59.1 +15 52 34 0.0146 14.3 -19.8 ds2e: 20*10 43 712 SBc e 0.38 0.84 1.56 411 9 54 35.9 +33 51 23 0.0048 14.8 -16.9 d3 18*12 20 411 e 412 9 55 4.5 +32 28 40 0.0150 15.5* -18.7 sd2e 14*10 20 412 SBc SB <0.34 0.54 <1.25 1242 9 55 54.6 +13 29 39 0.0110 14.7 -18.8 ds3e 20*14 53 1242 e,a 50 51 Table 7. (continued) Table 7. (continued) ====================================================================== ======================================================================= 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 ---------------------------------------------------------------------- ----------------------------------------------------------------------- 24 9 55 59.6 +54 45 7 0.0456 17.0* -19.6 ds2 10*13 5 24 e 413 9 56 21.2 +31 56 20 0.0384 15.5 -20.7 s2e 9* 20 413 SB <0.28 1.21 1.95 130 9 56 44.7 +47 32 40 0.0857 16.5* -21.5 ds3e: 8* 25 130 e 1243 9 57 14.4 +13 17 2 0.0365 14.5 -21.6 ds3e: 21*18 39 1243 Sa Sy1 55 14.33 0.75 0.04 91 1244 9 57 13.6 - 5 7 35 0.0522 16.0* -21.0 ds3e: 14* 99 1244 a 131 9 57 28.8 +55 51 39 0.0037 13.8 -17.4 sd2 25* 54 131 SAB0 e,a 38 13.75 0.63 0.06 71 133 9 57 52.0 +72 21 53 0.0069 12.8 -19.8 s1e: 40*30 12 133 Sc Sa 35 13.33 0.67 0.05 81 0.36 0.54 3.01 5.44 132 9 58 8.0 +55 9 10 1.7570 15.0* -29.5 s1e: 6* 11 132 QS0 10 16.00 0.25 -0.84 55 713 9 58 8.6 + 4 58 29 0.0221 14.6 -20.5 ds2e: 18*14 48 713 a 134 9 59 43.8 +43 25 40 0.0180 17.0* -17.6 d3e: 8*11 25 134 e <0.52 0.43 <1.04 25 10 0 22.2 +59 40 43 0.0103 14.2 -19.2 s2e: 18* 12 25 [E] e 24 14.26 0.62 -0.20 71 0.62 1.30 1.64 714 10 1 31.2 + 6 45 12 0.0031 15.2 -15.6 ds3 12*10 43 714 e 715 10 2 5.2 +15 1 21 0.0841 15.6 -22.3 sd2 7* 37 715 S0/a Sy2 29 15.45 0.97 -0.28 91 1428 10 2 5.6 +44 33 39 0.0717 17.0* -20.6 d2e: 14*12 46 1428 e 135 10 2 45.8 +53 57 27 0.0430 16.0* -20.5 s2e 7* 4 135 e 136 10 3 41.9 +77 9 4 0.0342 17.0* -19.1 sd1e: 6* 8 7 136 e 0.25 0.74 1.17 1245 10 4 5.9 - 7 12 44 0.0468 16.0* -20.7 d3 10* 49 1245 e 1246 10 6 57.2 +77 55 27 0.0273 16.5* -19.1 ds3 12* 7 39 1246 e 716 10 7 27.5 +23 21 19 0.0580 16.5* -20.6 sd1e 7* 37 716 Sy1.5 717 10 7 52.4 +24 39 40 0.0206 14.6 -20.3 s2e 11* 43 717 SB 0.25 0.83 3.76 4.07 1247 10 7 55.4 +16 55 54 0.0170 14.9 -19.6 s3e: 12*10 53 1247 e <0.26 0.70 1.39 26 10 8 26.4 +59 8 20 0.0307 15.7 -20.1 d2e: 13*18 7 26 Sc e 24 15.60 0.42 -0.33 71 27 10 8 31.6 +58 58 53 0.0073 17.0* -15.6 d1 10* 9 27 p e 11 16.46 0.46 -0.23 71 28 10 9 0.0 +58 38 43 0.0304 17.0* -18.7 ds2 8* 9 28 e 137 10 9 4.9 +65 31 0 0.0357 15.6 -20.5 ds2e: 12* 9 48 137 a 138 10 9 17.9 +67 39 27 0.0150 16.0* -18.2 d2 13* 8 13 138 p e 29 15.52 0.65 -0.28 71 1248 10 9 19.9 +78 7 23 0.0272 16.5* -19.1 s3e: 14* 9 48 1248 a 718 10 9 35.4 + 5 10 16 0.0267 14.5 -21.0 ds2 20*17 43 718 SBc e <0.26 1.31 3.08 414 10 10 10.6 +35 31 34 0.0381 15.5 -20.7 d1e: 18*12 20 414 Sb? e 25 14.80 0.69 0.17 82 0.38 0.52 1.58 1249 10 10 32.1 - 7 17 10 0.0453 16.0* -20.7 sd3 16*12 52 1249 a 1250 10 11 52.6 +77 8 45 0.0370 16.5* -19.7 ds3 12* 48 1250 a 139 10 12 46.1 +44 2 10 0.0174 14.7 -19.8 sd2 11*18 7 139 e 1429 10 12 58.2 +64 30 51 0.0358 16.5* -19.6 ds2 8* 47 1429 e 719 10 13 23.6 + 5 12 16 0.0316 14.7 -21.1 ds3 13*10 43 719 SB 0.25 0.44 1.13 1.69 140 10 13 24.6 +45 34 16 0.0050 15.0 -16.8 sd1e 10*15 4 140 SB 15 15.19 0.45 -0.38 81 1252 10 14 4.3 - 7 56 26 15.5* d3 15*12 1252 1251 10 14 4.5 - 9 15 29 16.5* d3e 12* 9 1251 29 10 14 28.2 +60 18 33 0.0310 16.5* -19.3 d2 13*10 8 29 a 629 10 14 38.1 +15 44 25 0.0320 16.0* -19.8 d3 13* 20 629 E3 e <0.35 0.94 1.54 720 10 15 0.5 + 7 13 18 0.0450 15.0 -21.6 d3e: 15*12 37 720 Sy2 25 15.10 0.77 -0.08 82 141 10 15 38.7 +64 13 14 0.0390 15.2 -21.1 s2e: 14*11 4 141 E Sy1 25 14.90 0.63 -0.36 67 0.25 0.75 1.73 30 10 16 19.2 +57 40 13 0.0263 17.0* -18.4 d3e: 15*10 9 30 e 31 10 16 24.0 +57 40 20 0.0260 14.7 -20.7 s2 10* 9 31 SBb SB 15 15.55 0.82 0.04 81 1253 10 17 0.9 - 3 5 7 0.0468 15.3 -21.4 sd3 13* 53 1253 E/S0p Sy1 29 15.10 0.54 -0.86 91 0.41 0.53 <1.00 1254 10 17 41.0 - 8 39 23 16.0* ds3e 15* 1254 1430 10 18 24.5 +65 13 56 0.0409 16.0* -20.4 ds2e: 10* 46 1430 e 1431 10 20 23.0 +61 0 24 0.0222 15.0 -20.1 sd3e: 24*16 46 1431 e <0.26 0.74 1.98 630 10 20 28.5 +18 13 18 0.0115 14.6 -19.0 d3 20*16 20 630 e <0.32 0.79 1.71 721 10 20 53.5 +11 12 47 0.0311 15.2 -20.6 d1e: 20*13 43 721 I e <0.42 0.60 1.44 142 10 22 23.1 +51 55 40 0.0450 16.5* -20.1 s1e: 9* 7 4 142 S0: Sy1 24 15.56 0.46 -0.67 91 52 53 Table 7. (continued) Table 7. (continued) ====================================================================== ======================================================================= 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 ---------------------------------------------------------------------- ----------------------------------------------------------------------- 1255 10 22 29.3 +79 28 55 0.0393 16.0* -20.4 s2e: 10* 8 47 1255 e 1256 10 22 39.0 - 3 56 25 0.0363 16.5* -19.7 d2 8* 99 1256 e 1257 10 22 55.7 - 7 14 10 0.0364 16.5* -19.7 sd3 14* 53 1257 e 1432 10 23 44.8 +47 20 14 0.0587 15.6 -21.5 ds3e: 10* 47 1432 e <0.25 1.65 2.16 143 10 23 27.9 +62 35 26 0.0325 15.6 -20.3 d3 12* 25 143 e 32 10 23 48.0 +56 31 27 0.0029 16.0* -14.6 d3 13*10 9 32 p HII 37 15.79 0.37 -0.05 71 144 10 23 54.0 +44 15 40 0.0275 15.0 -20.5 ds3 12* 7 144 e,a <0.25 0.59 1.48 415 10 25 46.8 +40 5 37 0.0293 15.5 -20.1 d2e: 12* 20 415 e 0.25 1.03 1.31 631 10 27 8.2 +16 26 22 0.0103 15.2 -18.2 ds3 12* 8 20 631 e 33 10 29 22.2 +54 39 23 0.0047 13.2 -18.5 sd1e 30*25 12 33 Im? HII 30 13.30 0.33 -0.52 67 0.97 4.73 5.25 722 10 29 37.7 +12 18 51 0.0309 15.0 -20.7 d3e: 15* 43 722 e 1433 10 30 41.5 +52 37 46 0.0637 14.9 -22.4 sd3e: 22*15 46 1433 SB <0.25 0.87 1.63 34 10 30 52.2 +60 17 20 0.0518 16.0* -20.9 ds1e 25*18 9 34 SB0/a Sy2 37 14.38 0.98 0.09 91 v 0.47 0.95 1.10 1434 10 30 56.3 +58 19 20 0.0077 16.5* -16.2 ds1e 8* 46 1434 e 145 10 31 43.8 +64 42 25 0.0360 15.4 -20.7 d3e: 10* 13 145 e 146 10 32 4.7 +46 49 7 0.0120 14.1 -19.6 s1 20* 4 146 e 29 14.06 0.59 -0.05 71 <0.25 0.89 1.30 147 10 32 26.5 +63 47 42 0.0238 15.5 -19.7 d3 12* 7 8 147 e <0.25 0.45 <1.61 148 10 32 37.2 +44 34 24 0.0240 15.4 -19.8 d3e: 13*10 13 148 p e 1435 10 33 35.9 +55 3 24 0.0114 15.5 -18.1 sd2 15* 48 1435 a 149 10 34 38.9 +64 31 32 0.0020 14.4 -15.4 s3e: 15* 4 149 S0 SB 28 14.43 0.61 0.26 71 723 10 34 57.7 +23 56 1 0.0177 15.6 -18.9 d3 12* 53 723 e 1258 10 35 29.7 - 7 2 26 0.0061 15.0* -17.3 ds2e: 26*20 53 1258 e 150 10 35 39.8 +44 46 53 0.0130 15.0 -18.9 sd1e 12* 9 4 150 e 24 14.84 0.42 -0.27 71 0.25 0.68 1.00 1259 10 36 3.0 - 6 54 37 0.0064 13.5* -18.9 sd1e 47* 39 1259 SB 1260 10 36 55.9 + 5 22 9 0.0263 14.2 -21.2 sd2 17* 53 1260 Sa e 724 10 38 26.9 +21 37 25 0.0034 16.5* -14.4 sd1e 8* 43 724 e 1436 10 39 1.7 +62 22 30 0.0431 16.0* -20.5 sd3e: 14* 8 48 1436 a 725 10 39 7.8 +21 34 24 0.0247 15.1 -20.1 sd2e 12* 43 725 Sab? e 151 10 39 15.3 +48 1 40 0.0050 15.1 -16.7 s2 15*10 4 151 [S0] SB 24 15.32 0.59 -0.21 71 416 10 40 24.0 +20 40 53 0.0041 15.1 -16.2 sd2e: 15*10 20 416 S0 e 41 14.13 0.70 -0.07 71 <0.32 0.58 1.13 632 10 41 7.9 +16 9 14 0.0399 15.4 -20.9 ds3e: 25*13 30 632 e <0.31 0.92 1.59 1261 10 41 19.2 - 1 1 55 0.0260 14.1 -21.3 s2e 22*17 57 1261 Sy1 25 14.25 0.75 -0.25 86 35 10 42 16.4 +56 13 20 0.0034 12.9 -18.1 ds1e 45*"5 2 35 Im HII 41 13.06 0.44 -0.39 71 0.25 0.92 5.13 6.37 1437 10 43 1.2 +12 32 37 0.0196 17.0* -17.7 d2 8* 52 1437 e 726 10 43 4.6 +27 53 1 0.0440 15.0 -21.5 ds2e 18*12 43 726 e <0.36 1.68 2.75 1262 10 43 4.6 +11 36 27 0.0221 14.9 -20.1 sd3e: 10* 52 1262 Sb a 1438 10 45 0.7 +13 36 0 0.0356 16.5* -19.5 sd2e: 8* 52 1438 e 1439 10 45 35.4 +13 28 53 0.0181 15.6 -19.0 s3e: 14* 9 52 1439 e 152 10 45 54.0 +50 18 13 0.0231 14.9 -20.2 s2 25*10 7 152 SBab e 0.32 0.72 1.19 727 10 46 0.2 +26 19 6 0.0251 15.0* -20.3 sd2e 13* 43 727 e 14.8 0.93 0.13 61 0.59 2.19 2.41 153 10 46 3.8 +52 35 50 0.0080 14.6 -18.2 d1e: 20*10 4 153 [Scp] e 38 14.81 0.19 -0.65 71 1440 10 46 11.6 +23 18 0 0.0243 17.0* -18.2 d2e: 9* 6 52 1440 e 1263 10 46 18.6 +12 27 35 0.0040 15.5 -15.8 d1e 15* 8 53 1263* dbl e 1264 10 46 31.3 + 7 10 57 0.0019 14.2 -15.5 sd3 33*14 54 1264 S0/a e 417 10 46 48.0 +23 13 47 0.0325 16.0* -19.8 d3e: 10* 20 417 e 1441 10 47 29.2 +59 21 38 0.0329 17.0* -18.9 sd2e: 12* 8 46 1441 e 154 10 47 48.9 +50 26 2 0.0430 15.5 -21.0 d3e: 13*10 13 154 e <0.25 0.61 1.29 155 10 48 24.0 +44 50 7 0.0060 13.2 -19.0 ds3e: 25*13 4 155 S0/a e 24 13.09 0.70 0.32 71 1442 10 48 32.9 +59 57 3 0.0722 17.0* -20.6 sd2e 7* 46 1442 e 1266 10 49 50.9 + 5 21 37 0.0211 15.0 -19.9 s2 20*13 53 1266 e 54 55 Table 7. (continued) Table 7. (continued) ====================================================================== ======================================================================= 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 ---------------------------------------------------------------------- ----------------------------------------------------------------------- 156 10 50 10.6 +50 33 0 0.0050 14.5 -17.3 d2e 40*10 4 156 p e 38 14.69 0.36 -0.34 71 418 10 50 21.2 +34 10 34 0.0056 13.2 -18.8 d2e: 24* 20 418 Sab e 41 13.46 0.42 -0.26 71 <0.25 1.74 3.02 1267 10 50 28.5 + 4 53 52 0.0185 14.1 -20.5 s2e: 20*14 53 1267 e 157 10 52 5.5 +49 59 34 0.0050 14.0 -17.8 d2e 23*15 4 157 Im a 41 14.17 0.26 -0.57 71 <0.27 0.62 1.30 1268 10 52 13.7 +39 24 12 0.0435 17.0* -19.5 d2 9* 48 1268 a 1269 10 52 29.5 +40 43 20 0.1200 17.0* -21.7 s1e 6* 79 1269 Sab Sy1.5 29 16.06 0.77 91 1270 10 53 18.7 - 9 35 35 0.0265 15.0* -20.5 s3e: 13*10 53 1270 S e <0.27 0.93 1.64 1271 10 53 33.3 + 6 26 24 0.0030 14.8 -15.9 ds1e 18*14 57 1271 e 633 10 54 30.6 +37 50 32 0.0358 17.0* -19.0 d2e: 10* 20 633 e 1272 10 55 2.5 +15 36 8 0.0364 17.0* -19.1 s2e: 9* 7 46 1272 e 634 10 55 20.6 +20 45 3 0.0658 16.0* -21.4 ds3 13*10 40 634 Sy1 25 15.31 0.67 -0.34 82 419 10 55 45.8 +24 27 40 0.0223 15.7 -19.3 ds3e 8* 20 419 e 158 10 56 1.6 +61 47 46 0.0070 13.0 -19.5 s2e: 45*35 4 158 Sab SB 81 12.73 0.72 0.20 71 0.33 1.20 8.40 11.80 159 10 55 24.9 +72 54 39 0.0271 14.6 -20.9 s1 10* 8 41 159 10 13.23 0.46 -0.06 55 <0.25 1.01 1.64 1273 10 56 16.2 - 9 34 37 0.0272 16.0* -19.5 s3e: 13* 46 1273 e <0.32 0.75 1.19 1274 10 56 15.2 + 6 59 57 0.0359 16.5* -19.6 d3 13*10 52 1274 e 1275 10 57 33.0 +10 38 20 0.0362 15.5 -20.6 d2 10* 97 1275 ? 160 10 58 2.5 +70 15 41 0.0407 16.5* -19.9 d2e: 10* 48 160 a 728 10 58 24.6 +11 18 56 0.0343 16.0* -20.0 sd2 13*11 40 728 Sy1.9 25 15.53 0.95 0.26 82 1276 10 58 37.8 +10 45 1 0.0411 15.3 -21.0 ds3 20*14 97 1276 161 10 59 7.3 +45 29 47 0.0200 13.4 -21.4 s2e: 30*20 4 161 SBc SB 41 13.66 0.53 -0.15 71 0.38 2.45 3.94 420 11 0 53.1 +38 11 54 0.0428 15.6 -20.8 d2e 14*10 20 420 SB <0.25 0.61 1.12 1277 11 1 2.1 - 1 7 19 0.0355 15.1 -21.0 ds3 15* 52 1277 e <0.32 0.56 1.34 421 11 1 40.3 +38 28 34 0.0308 13.1 -22.6 s1e 18*14 74 421 E1 BL 17 13.37 0.49 -0.61 90 v 36 11 2 15.6 +29 24 34 0.0019 15.5* -14.2 d1e 15*10 9 36 I HII 24 15.24 0.34 -0.61 71 162 11 2 18.0 +45 1 0 0.0210 14.6 -20.3 d1e 22*11 4 162 I e 0.35 1.31 1.58 1279 11 2 57.2 +35 23 17 0.0286 15.5 -20.0 d2e 8* 47 1279 p e 1280 11 3 20.5 - 5 58 9 0.0469 16.5* -20.2 d3 13* 8 52 1280 a 163 11 3 34.8 +48 54 17 0.0250 17.5* -17.8 sd3e: 6* 13 163 S e <0.28 0.76 1.53 1282 11 4 44.9 +21 55 41 0.0080 14.8 -18.0 sd3e: 22*18 53 1282 SB0 e 1281 11 4 54.9 +77 33 35 0.0356 16.5* -19.6 sd3 14* 8 48 1281 e 0.25 0.51 <1.10 1283 11 5 9.4 +28 46 18 0.0322 15.6 -20.2 ds2e 11* 9 52 1283 e,a 1284 11 6 21.7 + 0 42 58 0.0118 15.5* -18.2 sd2e: 10* 53 1284 e <0.27 0.81 <1.00 729 11 7 12.1 +13 2 32 0.0416 14.2 -22.2 d3e: 15* 43 729 p e 422 11 8 14.0 +28 48 53 0.0316 14.8 -21.0 sd3e: 20* 48 422 a 1285 11 8 55.7 +22 27 21 0.0312 17.0* -18.7 ds3e: 8* 52 1285 a 164 11 9 34.4 +51 54 23 0.0100 17.0* -16.3 d3e: 6* 8 13 164 S e 730 11 10 0.1 +25 46 13 0.0144 15.2 -18.9 sd3 12* 43 730 e 1287 11 10 2.9 -10 1 2 0.0238 16.0* -19.2 d2 11* 7 99 1287 e,a 731 11 10 3.7 + 9 19 44 0.0040 13.4 -17.9 sd2e: 40*20 43 731 SB0 e 0.69 2.99 4.58 1295 11 11 5.7 + 8 2 7 0.0289 15.6 -20.0 ds3e 12* 8 52 1295 a 732 11 11 13.5 + 9 51 33 0.0287 13.9 -21.7 s2e 18* 43 732 p SB <0.36 1.91 3.29 1443 11 13 6.6 +41 51 49 0.0022 12.6 -17.4 d2e 50*20 48 1443 Sa? e 0.25 1.22 2.70 37 11 13 51.4 +29 3 0 0.0231 16.0* -19.1 d2 16* 25 37 e 1444 11 14 40.0 +51 40 37 0.0335 15.6 -20.3 d2e: 15* 47 1444 e 1445 11 14 42.6 +51 42 17 0.0094 16.5* -16.6 ds2e 12* 7 47 1445 e 1286 11 15 16.0 +78 21 27 0.0842 17.0* -21.0 sd2 9* 48 1286 e 38 11 15 25.8 +54 1 20 0.0365 15.5 -20.6 sd3 25* 9 38 SBb e,a <0.25 0.59 1.15 39 11 15 29.9 +54 1 26 0.0368 15.5 -20.6 ds1e: 25* 5 39 SBb e,a 165 11 15 37.0 +63 33 6 0.0130 14.8 -19.1 s2e: 13* 4 165 SB 24 14.52 0.53 -0.19 71 56 57 Table 7. (continued) Table 7. (continued) ====================================================================== ======================================================================= 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 ---------------------------------------------------------------------- ----------------------------------------------------------------------- 733 11 15 41.9 +22 42 34 0.0317 15.5 -20.3 d2e: 12* 43 733 e 1288 11 15 53.5 +23 44 33 0.0223 14.4 -20.6 s3e: 15* 48 1288 Sb a 1289 11 16 11.8 +36 56 54 0.0248 15.5 -19.7 d3 14* 47 1289 S? e 166 11 16 28.6 +62 45 26 0.0120 15.5* -18.2 s1e: 8* 3 166 e 29 15.19 0.40 -0.23 71 734 11 19 10.9 +12 0 47 0.0492 15.0* -21.7 s1e: 11* 36 734 S0/a: Sy1 25 14.81 0.32 -0.65 82 <0.48 0.51 <1.07 167 11 19 21.3 +51 24 6 0.0210 17.5* -17.4 sd2 6* 48 167 e 635 11 20 32.0 +30 12 52 0.0236 16.0* -19.1 d3e: 10* 7 30 635 e 1291 11 21 0.1 - 8 23 1 0.0115 15.5* -18.1 s3e 13* 80 1291 SBbc Sy2 <0.25 1.91 4.48 1292 11 21 31.5 - 7 0 50 0.0289 16.5* -19.1 d3 15* 9 99 1292 e,a 1293 11 22 10.9 +20 2 57 0.0262 17.0* -18.3 sd3 12* 9 52 1293 a 40 11 22 48.0 +54 39 26 0.0208 16.8 -18.1 sd2 10* 15 40 S0 Sy1 29 15.12 0.85 -0.18 91 168 11 23 1.2 +47 16 26 0.0340 16.0* -19.9 d1e: 10* 13 168 SB 1294 11 23 35.8 - 5 18 42 0.0086 14.5* -18.5 d3 33*15 53 1294 e <0.31 1.27 1.98 169 11 23 52.9 +59 25 47 0.0041 14.2 -17.2 sd2e: 25*20 12 169 e 41 13.96 0.58 -0.31 71 0.25 0.68 3.59 4.58 170 11 23 55.8 +64 24 46 0.0035 14.9 -16.1 ds2e: 15*30 13 170 SBcp HII 57 14.26 0.55 -0.24 71 423 11 24 7.6 +35 31 17 0.0321 14.9 -20.9 ds3e: 20* 40 423 Sa Sy1.9 55 13.74 0.80 0.17 91 <0.25 1.36 2.20 1446 11 24 45.5 +54 11 26 0.0103 16.5* -16.8 sd2e 12* 8 46 1446 e 735 11 24 51.5 +20 7 44 0.0215 15.4 -19.5 sd3e: 12* 43 735 e 736 11 25 21.3 +29 47 12 0.0083 13.0 -19.8 sd3e 7* 52 736 SBc a 171 11 25 42.8 +58 50 23 0.0010 11.8 -16.5 sd1e 36* 12 171 Sc+Im DB HII 64 11.85 0.56 -0.34 70 3.73 21.6 105.0 110.0 1296 11 26 21.2 +21 1 32 0.0203 15.3 -19.5 ds3e: 18*12 53 1296* dbl e 1297 11 26 35.9 +20 2 53 0.0188 14.9 -19.7 s3 20*13 48 1297 a 1298 11 26 43.6 - 4 7 34 0.0593 15.0* -22.2 s1e 14* 9 39 1298 S0 Sy1 29 14.18 0.41 -0.69 91 172 11 26 50.9 +22 3 28 0.0331 17.5* -18.4 ds1e: 8* 27 172 e 173 11 27 44.6 +48 23 0 0.0280 16.5* -19.0 d3e 10* 13 173 e 1447 11 27 44.7 +49 51 32 0.0963 16.0* -22.2 s2e 14*10 47 1447 Sy1.5 424 11 27 46.8 +37 0 40 0.0066 15.2 -17.2 ds2e: 20*12 20 424 e 174 11 28 31.7 +56 24 44 0.0510 16.5* -20.3 s3e: 8*10 13 174 e 175 11 29 37.5 +62 47 0 0.0126 14.1 -19.7 ds3e: 20*35 11 175 SBab a 35 13.76 0.93 0.32 81 176 11 29 54.0 +53 13 27 0.0260 16.2 -19.2 sd2e 60* 8 13 176 SBap Sy2 37 14.34 0.96 0.09 91 0.28 0.75 1.31 177 11 30 37.4 +55 20 54 0.0060 16.0* -16.2 ds2 12* 13 177 p e 24 15.54 0.44 -0.14 71 178 11 30 45.2 +49 30 43 0.0010 13.9 -14.4 sd2e 30*20 54 178 Sm HII 56 14.23 0.37 -0.28 71 179 11 30 51.8 +62 9 53 0.0150 13.6 -20.6 sd3e: 50* 4 179 SBbc a 35 13.79 0.67 0.11 81 0.25 0.99 2.33 1299 11 31 31.2 - 7 20 45 0.0091 15.5* -17.6 ds2 13* 53 1299 e 1300 11 31 53.3 +24 41 22 0.0335 16.5* -19.4 d2 11* 9 48 1300 e 1448 11 32 2.7 +50 22 39 0.0264 17.0* -18.4 ds1e 6* 47 1448 e 737 11 32 45.4 +31 55 51 0.0111 16.0* -17.5 d2e: 10* 8 43 737 e 636 11 33 0.4 +16 15 4 0.0172 17.0* -17.4 d3e: 9* 20 636 e 1301 11 33 10.8 +35 36 44 0.0050 14.5 -17.2 s2e 27*14 53 1301 S0/a SB 738 11 33 19.4 +28 28 25 0.0391 15.0* -21.2 s2e: 10* 37 738 Sy3 25 15.30 0.67 0.04 82 180 11 33 32.7 +70 26 0 0.0458 15.5 -21.1 s1e 20*15 75 180 BL 25 14.31 0.75 -0.11 81 739 11 33 52.5 +21 52 24 0.0300 14.8 -20.8 sd2e 19*17 36 739 S0p Sy1 37 13.81 0.79 0.01 91 0.36 1.41 2.33 1449 11 33 52.8 +21 42 34 0.0372 16.0* -20.1 d3 14* 48 1449 e 41 11 33 58.4 +55 7 23 0.0196 15.0 -19.7 sd2e: 20* 7 41 p e 15 15.01 0.66 -0.15 67 <0.40 0.56 1.62 740 11 34 11.8 +14 40 37 0.0823 16.5* -21.3 sd3e 8* 52 740 a 182 11 34 17.7 +20 12 14 0.0205 17.0* -17.8 sd2e: 6* 27 182 e 181 11 34 18.0 +20 15 0 0.0210 13.9 -21.0 ds3 22*15 13 181 SBc e 29 14.09 0.50 -0.15 71 <0.52 1.95 4.21 741 11 34 45.0 +26 1 4 0.0107 14.5 -18.9 d3e: 30*14 43 741 p e 742 11 34 55.0 +15 45 49 0.0152 15.0* -19.2 d3 11* 9 43 742 e  58 59 Table 7. (continued) Table 7. (continued) ===================================================================== ======================================================================= 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 --------------------------------------------------------------------- ----------------------------------------------------------------------- 743 11 35 37.8 +12 23 20 0.0029 13.1 -17.5 ds2e 22* 43 743 E0p SB <0.31 1.48 1.77 1450 11 35 51.3 +58 9 4 0.0035 15.5* -15.5 sd1e 13* 46 1450 e 183 11 36 0.3 +68 49 13 0.0415 15.4 -21.0 d3e: 13*10 7 183 Sb e,a <0.65 0.57 1.36 637 11 36 15.3 +21 15 31 0.0650 16.0* -21.3 d2 13*10 30 637 e 0.50 1.92 2.38 1302 11 36 20.9 + 3 51 29 0.0180 14.7 -19.9 s2e: 13* 39 1302 S e <0.37 0.57 0.97 744 11 37 4.7 +32 11 13 0.0097 13.5 -19.7 s2e 7* 37 744 Sabp Sy1.8 137 12.49 0.84 0.24 91 184 11 37 12.3 +55 14 26 0.0458 16.0* -20.6 d3 10* 48 184 e,a 745 11 37 20.6 +17 13 55 0.0101 14.6 -18.7 sd2e: 16*11 37 745 S0/a Sy2? 29 14.56 0.44 0.10 91 1303 11 37 39.5 - 0 8 4 0.0215 16.5* -18.4 ds2e: 9* 7 48 1303 e 1507 11 37 48.0 +28 40 0 0.0060 14.5 -17.6 d3e 17*13 54 1507 426 11 38 10.3 +35 29 10 0.0050 14.9 -16.8 d3 24*12 20 426 [Sc] e 38 14.51 0.45 -0.40 71 185 11 38 36.0 +47 58 13 0.0100 13.0 -20.3 sd3 55*30 13 185 SBcdp SB 81 12.70 0.65 0.02 71 0.25 0.25 2.47 5.48 746 11 38 52.5 +32 37 38 0.0057 15.6 -16.4 d2 12*10 43 746 I? e 638 11 38 59.7 +38 16 11 0.0221 14.8 -20.2 ds2e 20* 30 638 SB 747 11 39 15.2 +16 15 3 0.0021 14.5 -15.4 d2e: 16*10 43 747 e 1304 11 39 38.5 + 0 36 42 0.0180 13.7 -20.9 d1e 20*14 57 1304 p e 0.86 3.81 4.34 1305 11 40 24.6 - 8 3 18 0.0100 15.5* -17.8 sd2e 20* 52 1305 e,a <0.27 0.94 1.67 639 11 40 45.0 +24 10 42 0.0332 16.5* -19.4 d3 10* 30 639 e 0.34 1.29 2.58 427 11 40 48.5 +36 23 17 0.0212 15.5 -19.4 d3e: 20*10 20 427 e 1451 11 40 52.3 +53 46 39 0.0285 16.5* -19.0 sd1e 8* 46 1451 e 1452 11 41 5.3 +55 19 30 0.0225 15.3 -19.7 sd3e: 23*15 46 1452 SB <0.77 <0.49 1.29 428 11 41 33.4 +37 27 47 0.0418 14.9 -21.5 sd3e 18*12 20 428 e 1453 11 42 24.6 +31 5 53 0.0592 15.5 -21.6 ds3e 10* 53 1453 e 1454 11 42 44.4 +21 37 0 0.0256 16.0* -19.3 d2 18*11 48 1454 e 1455 11 42 45.2 +55 48 17 0.0530 16.0* -20.9 sd3 14*11 46 1455 e <0.25 0.47 <1.54 1306 11 42 52.6 - 9 47 5 0.0044 16.0* -15.5 ds1 12* 9 52 1306 e,a 186 11 43 16.9 +50 28 43 0.0020 13.2 -16.6 ds1e 35*20 4 186 SB0/a e 38 13.26 0.47 -0.22 71 <0.25 1.17 2.41 187 11 43 45.8 +71 54 13 0.0320 17.5* -18.4 ds3e: 7* 13 187 e 429 11 43 49.4 +35 7 47 0.0043 15.0 -16.4 ds2e: 16*14 20 429 e 24 14.45 0.68 0.01 71 640 11 44 11.0 +21 33 0 0.0219 15.1 -19.9 d2e 15* 30 640 e 1456 11 44 41.1 +52 45 59 0.0477 16.0* -20.7 d3e: 12* 8 46 1456 e 1457 11 44 42.6 +52 43 39 0.0489 15.7 -21.0 s2e: 15* 46 1457 Sy2 0.32 0.89 1.12 188 11 44 53.9 +56 14 57 0.0080 12.6 -20.2 sd3 55*30 13 188 SBc a 81 12.32 0.63 -0.04 71 0.37 0.48 4.76 11.00 1458 11 45 2.7 +52 43 36 0.0488 15.6 -21.1 s3e: 15* 52 1458 e,a 189 11 45 8.5 +67 54 40 0.0217 16.0* -19.0 d3 7* 48 189 e,a 748 11 45 13.4 +31 37 22 0.0274 15.5 -19.9 d3 10* 8 43 748 e 1459 11 45 30.2 +22 6 24 0.0267 17.0* -18.4 sd1e 7* 47 1459 e 749 11 46 30.0 +15 57 41 0.0329 17.0* -18.8 d3 6* 43 749 e 750 11 47 28.1 +15 18 5 0.0018 15.4 -14.1 ds2e 9* 43 750 e <0.89 0.46 1.00 1460 11 48 12.8 +48 31 46 0.0028 17.0* -13.5 d2e: 8* 47 1460 e 1461 11 48 20.6 +21 25 25 0.0211 15.4 -19.5 ds2e 12*10 47 1461 S? e <0.26 0.50 1.70 1462 11 48 22.7 +21 28 1 0.0211 17.0* -17.9 ds3e: 9* 7 52 1462 a 430 11 48 28.0 +55 21 20 0.0203 13.4 -21.4 sd2e 24*18 20 430 p SB 57 12.95 0.76 0.32 71 <0.25 0.83 1.66 1463 11 48 39.8 +21 16 47 0.0109 15.0 -18.4 d3e: 12* 9 47 1463 E e 431 11 48 51.8 +35 42 33 0.0103 14.3 -19.0 s2e: 30*18 54 431 S0/a a 17 14.17 0.84 0.49 90 190 11 49 10.1 +48 57 34 0.0030 13.1 -17.5 sd2 35* 13 190 S0/E SB 57 12.71 0.68 -0.07 71 0.25 0.44 2.65 5.23 751 11 49 24.2 +15 36 47 0.0202 16.5* -18.3 d3e: 8* 6 52 751 e 641 11 49 52.2 +35 10 23 0.0072 16.5* -16.0 sd2e: 9* 30 641 642 11 49 49.5 +23 54 19 0.0113 15.6 -17.9 sd2 9* 30 642 e 1307 11 50 3.8 - 2 11 28 0.0028 14.1 -16.3 d1e 27*15 53 1307 p e <0.34 0.99 <1.00 60 61 Table 7. (continued) Table 7. (continued) ===================================================================== ======================================================================= 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 --------------------------------------------------------------------- ----------------------------------------------------------------------- 752 11 50 6.9 + 2 1 43 0.0198 14.4 -20.4 s2e: 10* 41 752 SBc SB <0.30 0.71 1.52 191 11 50 28.7 +70 42 41 0.0320 15.3 -20.6 sd1 20*12 4 191 Sp e 42 11 51 5.3 +46 29 20 0.0240 15.2 -20.0 s2e: 12* 2 42 SBb Sy1 15.45 0.79 -0.19 2 1308 11 51 38.5 + 0 24 53 0.0032 13.7 -17.1 s1e 28* 39 1308 SB 14.19 0.40 -0.40 83 192 11 52 43.7 +51 24 20 0.0120 17.0* -16.7 s3e: 8* 13 192 e 193 11 52 52.1 +57 56 26 0.0180 16.5* -18.1 d1e 7* 4 193 SB 753 11 53 1.2 +13 23 1 0.0551 16.0* -21.0 ds3 7* 48 753 e,a 1464 11 53 22.2 +43 52 14 0.0365 15.5* -20.6 ds2e: 20*14 52 1464 p e,a 754 11 54 49.7 + 4 49 18 0.0198 15.2 -19.6 ds3 12* 52 754 e 644 11 54 48.2 +23 38 53 0.0486 17.0* -19.7 sd2e: 8* 30 644 e 1309 11 55 10.4 - 9 53 33 0.0054 15.0* -17.0 ds2e: 13* 99 1309 Sp e <0.31 1.13 2.00 432 11 55 31.1 +28 9 20 0.0114 14.0 -19.5 ds2e: 35*20 20 432 SBdmp e 57 13.66 0.46 -0.27 71 433 11 56 24.0 +54 30 54 0.0122 14.7 -19.0 sd3e: 18*12 48 433 a 755 11 56 22.5 + 2 8 23 0.0520 16.0* -20.9 d3e 12* 9 48 755 e,a 434 11 56 54.5 +35 10 20 0.0328 15.5 -20.3 ds2e: 18*12 30 434 e 1310 11 58 40.7 - 3 23 58 0.0189 16.5* -18.2 s1e 13*11 39 1310 S0/a Sy1 17 15.46 0.93 0.08 91 756 11 58 53.8 +14 18 49 0.0043 15.2 -16.2 s2e 16* 43 756 e 194 11 59 35.6 +66 40 40 0.0510 15.2 -21.7 s1e: 10* 4 194 e 29 14.97 0.53 -0.13 71 195 12 0 3.1 +64 39 20 0.0050 14.3 -17.5 s1e 25*18 12 195 [Sa] e 41 14.05 0.63 -0.13 71 0.27 1.78 2.52 43 12 0 26.6 +39 42 14 0.0204 16.0* -18.8 d2 10*20 5 43 e 38 15.22 0.60 -0.21 71 1465 12 0 44.1 +51 40 55 0.0299 17.0* -18.6 d1e 8* 46 1465 e 44 12 0 51.4 +39 5 27 0.0231 15.3 -19.8 s2 18*12 5 44 SB 15 15.27 0.62 0.01 81 45 12 1 1.9 +60 48 33 0.0143 15.6 -18.5 ds3 9*16 5 45 [S0] e 29 15.28 0.66 -0.09 71 645 12 1 11.1 +23 59 1 0.0254 15.5* -19.8 s2e 12* 30 645 e 196 12 1 47.6 +66 52 34 0.0580 17.0* -20.1 d3 7*10 13 196 E? e 757 12 2 42.8 +31 8 0 0.0016 14.8 -14.5 d3 13* 53 757 e 646 12 3 17.1 +35 27 28 0.0537 15.7 -21.2 d3e: 11* 30 646 Sy1 25 15.28 0.65 -0.15 82 647 12 3 38.9 +21 30 20 0.0224 16.0* -19.0 sd3e: 15* 30 647 e 648 12 4 46.9 +24 28 33 0.0509 16.0* -20.8 s2e 12* 30 648 e 197 12 5 18.2 +67 39 47 0.0080 14.7 -18.1 s2e: 25* 4 197 E0/S0 e 29 14.11 0.84 0.22 71 <0.25 0.57 1.01 1466 12 5 37.4 + 3 9 22 0.0038 12.3 -18.9 sd2e 27*18 41 1466 SBbc e 11.85 0.62 -0.07 69 1.21 5.88 10.60 198 12 6 43.2 +47 20 7 0.0250 15.2 -20.0 sd2e 12* 4 198 SAB0p Sy2 25 14.51 0.77 0.05 55 <0.27 0.63 <2.20 1311 12 7 58.4 - 1 2 11 0.0331 16.0* -19.9 sd3 13* 9 48 1311 a 199 12 8 4.0 +70 38 47 0.0077 15.4 -17.4 d2 25* 8 11 199 e 43 15.12 0.42 -0.35 71 759 12 8 4.6 +16 18 42 0.0062 12.7 -19.5 sd3e: 10* 37 759 SBc Sy3 64 12.45 0.52 -0.04 70 0.32 0.53 4.13 9.20 758 12 8 5.1 +18 8 56 0.0225 15.2 -19.8 s2e 12* 43 758 e <1.00 0.52 1.52 760 12 8 29.6 +12 22 57 0.0056 14.6 -17.4 d3e: 20*15 48 760 a 200 12 8 52.1 +48 48 34 0.0150 17.0* -17.1 d3e: 8* 13 200 e 1312 12 9 5.4 +20 7 25 0.0219 15.7 -19.2 ds3e: 12* 8 52 1312 e,a 435 12 9 24.6 +40 55 40 0.0226 15.0 -20.0 d2e 14* 9 20 435 e 1313 12 9 41.0 + 0 21 1 0.0073 16.0* -16.6 ds2 12* 7 52 1313 e 761 12 9 55.0 +29 25 38 0.0138 14.3 -19.6 s3e 34*12 60 761 S 0.35 0.54 5.33 10.70 762 12 10 33.8 +17 22 38 0.0138 15.4 -18.5 sd2 13* 8 43 762 e 1467 12 11 24.8 +42 59 57 0.0531 16.5* -20.4 d3e: 15* 8 52 1467 e,a 1314 12 11 27.2 - 9 17 30 0.0641 16.0* -21.3 d3 13* 99 1314 a <0.32 0.90 1.97 763 12 11 37.1 +27 14 46 0.0634 16.0* -21.3 s3e: 10* 52 763 e 201 12 11 39.9 +54 48 20 0.0080 13.0 -19.8 ds2e 30*20 10 201 Smp SB 41 12.86 0.53 -0.18 71 0.86 4.38 22.50 25.20 1315 12 12 46.4 +20 55 6 0.0021 16.5* -13.4 d1e 9* 76 1315 SBdm e <0.26 0.71 1.96 46 12 13 26.1 +41 12 13 0.0125 17.0* -16.7 d3 8*11 5 46 e 24 16.34 0.41 -0.13 71 764 12 13 27.3 +12 57 54 0.0653 15.2 -22.1 ds3e 12* 52 764 SB 62 63 Table 7. (continued) Table 7. (continued) ===================================================================== ======================================================================= 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 --------------------------------------------------------------------- ----------------------------------------------------------------------- 47 12 13 29.4 +40 51 0 0.0196 16.0* -18.7 sd3 9* 5 47 a 38 14.89 0.71 0.24 71 1316 12 13 32.0 +20 34 5 0.0635 15.5* -21.8 s3e 9* 52 1316 a,e: 1468 12 13 34.9 +59 47 10 0.0150 15.6 -18.6 ds2e: 27*13 46 1468 e 1469 12 13 38.6 +51 6 10 0.0314 15.5* -20.2 sd2e 16*10 46 1469 SBa Sy1.5 55 14.32 1.09 0.31 91 765 12 14 8.1 +28 19 31 0.0275 16.5* -18.9 ds1 10* 48 765 e,a 48 12 14 1.0 +58 9 27 0.0159 16.0* -18.3 s3 10* 5 48 S0 a 24 14.76 0.95 0.45 71 1470 12 14 26.7 +44 23 13 0.0660 16.5* -20.9 sd3 10* 52 1470 e,a 1317 12 15 15.1 +18 42 8 0.0447 16.5* -20.0 sd3 6* 52 1317 e 202 12 15 29.1 +58 56 6 0.0210 15.5 -19.4 d2e: 7* 13 202 21 15.32 0.69 -0.16 71 766 12 15 55.5 +30 5 27 0.0128 13.7 -20.1 s2e 25*13 36 766 (R)SB0a Sy1 75 12.64 0.79 0.07 91 v 0.41 1.38 4.01 4.07 203 12 15 43.6 +44 27 0 0.0250 14.2 -21.0 sd3e: 10*13 10 203 Sc SB 767 12 15 52.0 +20 25 10 0.0280 15.5* -20.0 d3 10* 53 767 e 1471 12 16 10.7 +46 3 46 0.0196 16.5* -18.2 d2e: 8* 52 1471 768 12 16 39.0 +12 16 19 0.0642 17.0* -20.3 s2e: 7* 43 768 e 49 12 16 36.4 + 4 8 7 0.0034 14.5 -16.4 ds1e 13*10 50 49 HII 24 14.64 0.48 -0.39 71 <0.32 0.74 1.00 1319 12 16 52.6 +18 20 53 0.0438 16.0* -20.5 ds2e: 13* 52 1319 e,a 1320 12 16 34.9 - 1 31 49 0.1027 15.0* -23.3 s1 7* 39 1320 QS0 1321 12 16 54.5 + 5 19 30 0.0063 15.2 -17.1 ds3e 16*10 52 1321 a 204 12 18 31.4 +62 16 9 0.0581 16.0* -21.1 ds3 10* 48 204 e,a 1472 12 19 5.3 +53 27 58 0.0357 16.0* -20.0 sd2e 16*10 46 1472 e 205 12 19 31.8 +75 35 10 0.0700 14.5* -23.1 s1e 6* 3 205 p QS0 15 15.24 0.40 -0.94 81 0.66 <0.40 1.31 438 12 20 22.1 +22 43 17 0.0222 16.5* -18.5 ds3e: 12* 8 20 438 e 50 12 20 50.9 + 2 57 20 0.0232 15.5* -19.6 s1 12* 50 50 S0 Sy1 37 14.69 0.82 -0.06 91 1322 12 21 8.1 - 1 11 57 0.0261 16.5* -18.9 s2e 8* 52 1322 e 1323 12 21 20.8 + 3 21 44 0.0058 15.4 -16.7 d3 80*14 52 1323 e,a 51 12 21 41.1 + 4 30 0 0.0032 15.2 -15.6 ds2 20*10 2 51 E4 HII 24 15.05 0.62 -0.21 71 206 12 21 58.8 +67 43 1 0.0030 15.5 -15.2 s1e: 12* 10 206 SB 29 14.85 0.68 -0.21 71 0.30 1.20 1.70 1473 12 21 59.3 +60 23 18 0.0435 15.7 -20.8 sd1e 13* 48 1473 a 439 12 22 7.7 +39 39 33 0.0035 12.3 -18.7 sd2e: 36* 20 439 Sa SB 81 11.99 0.64 -0.03 71 0.34 0.72 5.91 11.20 207 12 22 48.0 +54 46 53 0.0080 13.5 -19.3 ds2e: 30*20 10 207 Sbc e 41 13.49 0.48 -0.22 71 0.28 2.21 4.02 769 12 22 53.9 +16 44 49 0.0056 12.3 -19.7 s2e 36*24 43 769 Sp SB 0.38 1.04 8.53 12.00 52 12 23 8.9 + 0 51 0 0.0068 13.4 -19.0 sd2e 10* 12 52 SBab SB 64 12.88 0.67 -0.05 70 0.35 1.09 4.58 5.91 208 12 23 16.7 +47 36 13 0.0249 16.5* -18.7 ds3 9* 52 208 e 1324 12 23 42.8 + 5 45 11 0.0142 15.2 -18.8 sd3e: 23*14 52 1324 a 209 12 23 50.6 +48 46 7 0.0011 15.3 -13.2 d1e 11* 61 209 Sm? e 29 14.62 0.49 -0.53 71 1325 12 23 55.3 + 9 17 54 0.0244 13.6 -21.6 ds3e: 10* 41 1325 Sabp Sy3 1326 12 24 14.0 + 8 11 44 0.0033 13.5 -17.3 sd3 13* 54 1326 SBc <0.44 0.97 2.79 1474 12 24 14.1 +43 21 45 0.0746 16.5* -21.1 d3e 14*10 52 1474 a 210 12 24 31.3 +48 33 7 0.0260 14.7 -20.6 sd2 13*10 10 210 SBb e 1327 12 24 52.0 - 8 2 56 16.5* d3e: 7* 1327 30 13.37 0.57 -0.12 70 440 12 25 1.7 +36 58 20 0.0501 16.5* -20.2 sd1e: 8* 20 440 e <0.29 0.81 1.51 211 12 25 38.2 +44 46 7 0.0410 16.0 -20.3 d3e: 8* 13 211 E0? e 212 12 25 48.0 +44 43 40 0.0233 14.8 -20.3 ds3 13*10 41 212 Sc 1475 12 26 38.5 +44 15 22 0.0238 16.0* -19.1 sd2e 14* 52 1475 a 770 12 26 58.9 +31 43 28 0.0481 15.1 -21.6 d3 13* 48 770 a <0.64 <0.40 1.41 1328 12 29 6.6 +15 7 56 0.0083 15.2 -17.6 d2e: 6* 62 1328 p 213 12 29 0.9 +58 14 20 0.0100 13.2 -20.1 sd2e: 50*20 10 213 SBa SB 57 12.80 0.62 -0.05 71 0.30 0.68 3.89 6.55 214 12 29 16.3 +66 2 20 0.0310 16.0* -19.8 d2 10* 13 214 e 771 12 29 33.1 +20 26 2 0.0630 15.1 -22.1 s1e 10* 7 36 771 Sy1 25 14.93 0.38 -0.66 82 772 12 30 1.2 + 9 26 58 0.0043 15.4 -16.0 s3 13* 59 772 E0 64 65 Table 7. (continued) Table 7. (continued) ===================================================================== ======================================================================= 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 --------------------------------------------------------------------- ----------------------------------------------------------------------- 215 12 30 10.7 +46 2 33 0.0197 14.6 -20.1 s1e: 13* 12 215 e 15 14.45 0.58 -0.16 81 773 12 30 38.9 +32 22 7 0.0026 14.1 -16.2 d3e: 18* 43 773 S e <0.25 0.60 2.06 216 12 30 51.4 +52 3 6 0.0334 16.5* -19.4 d3 9* 7 27 216 e 774 12 32 32.3 +26 3 18 0.0301 15.7 -19.9 ds3 12* 7 52 774 e,a 217 12 32 51.4 +66 39 7 0.0464 16.5 -20.1 s1e: 8* 48 217 a 17 15.31 0.89 0.57 90 218 12 33 52.3 +48 9 53 0.0286 15.5 -20.0 d3 12*10 52 218 a 649 12 34 2.2 +26 28 34 0.0239 14.3 -20.8 sd3 20*13 30 649 Sab e,a 775 12 34 25.2 +28 8 13 0.0248 15.3 -19.9 ds3e: 22*13 53 775 Sa? e 776 12 34 25.6 +28 1 26 0.0255 15.4 -19.9 sd3 16*13 43 776 e 1329 12 34 29.9 + 7 11 59 0.0048 14.6 -17.1 d2e 9* 53 1329 I e 650 12 35 12.9 +27 24 9 0.0152 15.5 -18.6 sd3e 10* 30 650 e 777 12 35 37.9 +14 37 39 0.0303 16.0* -19.7 sd2 6* 43 777 e 219 12 36 18.9 +56 12 7 0.0100 16.0* -17.3 ds2 20* 8 13 219 p? e 38 14.98 0.64 -0.22 71 651 12 36 32.3 +28 35 22 0.0249 16.5* -18.7 sd2e 10* 8 30 651 e 778 12 36 27.4 + 0 38 24 0.0228 14.4 -20.7 d3 12* 54 778 p 652 12 36 43.3 +28 16 49 0.0240 16.0* -19.1 sd3e 9* 30 652 e 1330 12 37 4.5 - 5 4 12 0.0085 12.1 -20.8 s2e 30* 63 1330 (R)SBb Sy1 136 11.56 0.84 -0.02 91 0.37 0.93 2.75 5.79 779 12 37 4.8 +12 42 47 0.0407 16.5* -19.8 sd3e: 10* 99 779 a 653 12 37 26.0 +35 14 58 0.0433 15.5 -20.9 ds3e: 11* 52 653 e,a 1331 12 38 5.3 - 9 57 28 0.0192 16.5* -18.2 ds2 9* 53 1331 e 780 12 39 1.0 +26 21 45 0.0163 15.5 -18.8 ds3 12* 8 64 780 e 1332 12 39 24.7 - 3 18 34 0.0476 15.3 -21.4 d3 15* 9 99 1332 a 1333 12 39 50.2 - 6 41 51 0.0028 14.5* -16.0 ds3e: 17* 53 1333 S? e 0.37 0.66 3.25 5.18 654 12 40 15.8 +34 21 59 0.0142 16.5* -17.5 d3 9* 7 30 654 e 220 12 41 31.6 +55 10 10 0.0167 14.1 -20.3 sd1e 15*10 41 220 SB 15 14.49 0.33 -0.25 81 0.30 1.81 2.99 221 12 41 33.5 +55 10 47 0.0165 14.7 -19.7 d3e: 10* 27 221 p e 655 12 41 36.1 +29 10 28 0.0246 15.6 -19.6 ds3e: 26*12 52 655 a 441 12 42 7.5 +41 0 33 0.0182 15.7 -18.8 d2e: 18*10 20 441 e <0.37 0.60 <1.31 656 12 43 7.6 +27 20 3 0.0214 13.7 -21.2 ds2e 20* 52 656 Imp? a 57 12.83 0.39 -0.47 71 1334 12 43 12.2 - 6 47 47 0.0087 13.5* -19.5 sd2e 25* 99 1334 a 222 12 43 24.0 +47 22 27 0.0160 16.5* -17.8 d2 8* 13 222 I e 223 12 43 41.3 +71 35 33 0.0040 15.3 -16.0 s1e: 12* 10 223 e 21 14.82 0.60 -0.21 71 <0.25 0.74 1.18 224 12 44 3.6 +48 30 33 0.0040 16.0* -15.3 d3 13* 8 13 224 Im e 38 15.51 0.27 -0.39 71 1335 12 44 28.4 +26 50 14 0.0027 15.0 -15.4 sd2e: 15*13 53 1335 e 0.36 0.52 <1.00 225 12 44 58.6 +47 26 1 0.0200 16.5* -18.3 sd2e: 11* 8 10 225 e 0.55 0.67 1.11 442 12 44 59.4 +35 37 27 0.0148 14.3 -19.8 sd3e 18*16 58 442 E0-1 e 38 13.54 1.01 0.37 71 226 12 45 0.4 +72 11 13 0.0270 17.5* -18.0 s2 7* 10 226 e <0.25 0.46 <1.30 443 12 45 41.6 +33 37 34 0.0448 16.5* -20.0 ds2 10* 8 52 443 a 444 12 46 16.9 +34 44 50 0.0142 14.9 -19.1 d2e: 10* 24 444 e 29 14.88 0.47 -0.36 71 <0.30 0.69 1.14 445 12 46 36.5 +40 52 7 0.0168 15.7 -18.7 sd2e: 24*12 52 445 SBc a 657 12 46 34.8 +27 27 1 0.0201 15.5* -19.3 d3 12* 8 30 657 e 229 12 46 28.0 +47 59 10 0.0240 17.0* -18.2 d2e 8* 13 229 e 1336 12 46 43.9 - 9 1 10 0.0135 15.5* -18.5 sd2 13* 99 1336 a 446 12 47 43.9 +33 25 47 0.0238 14.2 -20.9 s2e: 18*12 20 446 SBb SB 25 13.92 0.71 0.07 82 0.28 1.45 2.50 1337 12 49 58.4 - 9 30 17 0.0077 15.0* -17.7 d3e: 17* 53 1337 S e 0.54 3.88 3.83 1476 12 49 58.0 +60 48 3 0.0411 15.6 -20.8 sd1e 16* 9 48 1476 a 1338 12 50 43.5 +25 32 58 0.0034 15.5 -15.4 d3 9* 47 1338 e 781 12 51 19.6 + 9 58 49 0.0090 13.5 -19.5 s2e: 47*27 43 781 SBc SB 0.76 1.82 4.15 1339 12 51 41.7 + 5 38 9 0.0479 15.5 -21.2 d3e 20*10 47 1339 e <0.31 0.48 1.34 230 12 53 9.3 +64 32 0 0.0710 16.0* -21.6 d3 12* 13 230 e 29 15.27 0.88 0.11 71 1.82 8.56 33.30 30.00 66 67 Table 7. (continued) Table 7. (continued) ===================================================================== ======================================================================= 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 --------------------------------------------------------------------- ----------------------------------------------------------------------- 53 12 53 40.5 +27 56 50 0.0160 15.5 -18.8 ds2 13*10 5 53 e 24 15.30 0.41 -0.33 71 <0.26 0.63 1.61 231 12 54 5.0 +57 8 37 0.0410 14.1 -22.2 s1 12* 10 231 Scp Sy1 35 13.62 0.81 0.16 81 v 1340 12 54 14.6 + 6 11 12 0.0308 16.0* -19.7 s2 12*10 53 1340 e <0.36 1.12 1.63 54 12 54 32.0 +32 43 7 0.0450 15.1 -21.4 s1e 13* 65 54 HII <0.42 0.92 1.81 55 12 54 59.7 +27 40 34 0.0162 16.0* -18.3 sd3 12* 5 55 e 24 15.33 0.68 0.03 71 232 12 55 11.1 +59 20 14 0.0224 16.5* -18.5 d3e: 11* 8 27 232 e 447 12 55 44.2 +24 36 53 0.0222 16.5* -18.5 ds3e: 10* 8 20 447 e 56 12 56 10.0 +27 32 0 0.0243 15.4 -19.8 d2e: 10* 5 56 S0p? e 57 12 56 12.0 +27 26 40 0.0253 15.4 -19.9 sd1 15* 5 57 S0p? e 233 12 56 23.1 +59 24 14 0.0283 17.0* -18.5 d3 7* 27 233 e 59 12 56 38.2 +35 6 50 0.0022 12.8 -17.2 d1e 20* 32 59 Sm,Im HII 24 13.65 0.38 -0.75 71 0.42 1.82 2.29 58 12 56 40.0 +27 54 47 0.0180 15.1 -19.4 s3 15* 52 58 [S0?] e,a 15 15.34 0.49 -0.06 81 235 12 57 39.0 +33 42 21 0.0250 15.2 -20.0 ds3e: 20*12 10 235 e 38 14.37 0.46 -0.22 71 60 12 57 44.5 +28 8 7 0.0172 15.5* -18.9 ds3e: 12* 5 60 Sba e,a 15 15.91 0.48 -0.08 71 236 12 58 18.0 +61 55 27 0.0520 17.0* -19.9 d3e: 11* 7 17 236 SB Sy1 17 15.48 0.66 -0.45 88 0.21 1.46 2.59 782 12 58 18.8 +14 45 3 0.0304 16.0* -19.7 ds3e: 7* 52 782 e 1341 12 58 25.0 + 0 14 29 0.0036 13.2 -17.9 s2e 13* 54 1341 SBc e,a 69 0.44 2.44 6.43 1342 12 58 35.5 - 5 17 16 0.0051 15.0* -16.8 d3e: 23*13 99 1342 e,a 234 12 58 36.5 +64 42 46 0.0070 16.5* -16.0 d3e: 13*10 13 234 S0/a e 29 15.37 0.59 -0.24 71 <0.30 0.93 2.36 237 12 59 2.0 +48 19 47 0.0310 15.1 -20.6 d3 13*10 13 237* dbl e 61 12 59 17.7 +29 38 56 0.0571 17.0* -20.0 d2 10* 7 35 61 e 238 12 59 20.7 +65 16 6 0.0500 16.5* -20.3 sd2e: 8* 13 238 e 0.25 1.24 2.62 783 13 0 30.4 +16 40 34 0.0665 16.0* -21.4 s2e: 7* 40 783 Sy1 25 15.55 0.49 -0.50 82 62 13 2 55.8 +30 32 36 0.0335 16.5* -19.4 d2 10* 27 62 e 14 16.66 0.38 -0.40 89 239 13 3 17.2 +53 51 33 0.0380 15.5* -20.7 s2 11* 8 35 239 a 32 14.79 0.94 90 240 13 3 23.2 +53 53 13 0.0288 17.0* -18.6 ds3 10* 6 48 240 SB? e 241 13 3 58.0 +33 14 19 0.0260 16.0* -19.3 d3e: 13* 9 13 241 e 24 15.31 0.58 -0.08 71 <0.58 0.48 1.08 63 13 3 43.3 +30 53 1 0.0580 17.0* -20.1 d1 8* 52 63 e,a 242 13 3 55.8 +53 45 33 0.0250 16.0* -19.3 d3e: 11* 7 13 242 e,a 24 15.64 0.52 -0.05 71 784 13 4 33.6 +13 20 31 0.0091 15.3 -17.7 sd3 12* 9 52 784 e <0.27 0.89 1.38 64 13 4 47.7 +34 40 23 0.1840 17.0* -22.6 sd1 7* 70 64 Sy1 16.97 0.41 -0.74 84 1343 13 6 32.0 + 7 13 50 0.0467 15.5 -21.1 d1e 13* 99 1343 e,a <0.28 0.58 1.16 1344 13 6 41.8 - 5 0 24 0.0099 14.5* -18.8 s2e 20* 39 1344 SB SB 16 13.82 0.56 -0.20 95 0.99 2.89 2.63 243 13 8 46.1 +60 51 17 0.0280 16.0* -19.5 d2 12* 13 243 e 449 13 9 12.0 +36 32 47 0.0040 13.5 -17.8 d2e 60*18 20 449 Sap SB 81 12.99 0.66 0.02 71 0.27 2.27 4.03 244 13 10 12.3 +50 39 29 0.0290 17.0* -18.6 d1e: 11* 8 17 244 e 245 13 10 22.7 +67 45 59 0.0200 16.0* -18.8 s1 10* 10 245 e 29 15.18 0.62 -0.21 71 <0.25 0.41 1.02 246 13 11 12.9 +56 21 41 0.0410 16.0 -20.3 d2e: 7* 9 13 246 e 658 13 12 19.6 +24 15 42 0.0730 16.0* -21.6 sd3 12* 9 52 658 a 450 13 12 29.4 +35 8 34 0.0030 14.9 -15.7 d1e 6* 20 450 [Im] e 56 14.06 0.52 -0.44 71 247 13 12 32.8 +55 3 46 0.0323 15.0* -20.8 s1e 10* 12 247 e 15 15.00 0.53 -0.20 81 0.30 1.45 2.26 248 13 13 4.4 +44 40 13 0.0349 16.5* -19.5 sd3 12* 9 32 248 0.38 1.67 1.89 785 13 13 54.8 +30 31 41 0.0488 14.9 -21.8 d3e 14* 43 785 e <0.32 0.72 1.89 1477 13 14 0.3 +41 45 29 0.0210 15.2 -19.7 d2e 22*14 77 1477 e 0.31 1.26 2.02 786 13 14 23.4 +12 48 43 0.0031 14.6 -16.1 ds2e 16* 43 786 e 249 13 15 8.6 +57 48 0 0.0094 13.9 -19.2 sd3e: 30*20 35 249 S0 a 38 13.55 0.84 0.30 71 250 13 15 25.2 +44 4 27 0.0280 15.5 -20.0 sd3e: 13* 13 250 e 1345 13 17 9.8 +20 24 3 0.0314 15.5* -20.2 sd3e 12* 8 52 1345 a 251 13 17 56.2 +52 18 47 0.0157 16.0* -18.2 d3e: 8* 8 251 e 24 15.60 0.45 -0.26 71 253 13 18 27.3 +56 41 53 0.0220 15.7 -19.3 d3 18* 8 13 253 e 24 15.36 0.81 0.01 71 68 69 Table 7. (continued) Table 7. (continued) ===================================================================== ======================================================================= 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 --------------------------------------------------------------------- ----------------------------------------------------------------------- 65 13 19 13.0 +59 21 47 0.0434 15.5* -21.0 d1 13* 2 65 e 1346 13 19 9.0 +38 47 59 0.0037 13.7 -17.4 ds1e 12* 54 1346 SBcd e 0.25 0.88 1.58 659 13 20 1.7 +21 41 12 0.0228 15.1 -19.9 sd2e: 19*12 30 659 e <0.25 0.47 1.51 787 13 20 4.1 +12 56 5 0.0712 16.5* -21.0 s2e 7* 99 787 Sy3? 1347 13 20 25.0 + 8 25 20 0.0506 15.5* -21.3 s1e 15*10 39 1347 S0 Sy1 29 14.59 0.51 -0.38 91 0.50 0.90 1.69 254 13 20 46.5 +51 59 53 0.0300 15.4 -20.3 d2 20*12 13 254 e 0.25 1.09 2.23 255 13 20 57.0 +53 13 44 0.0308 15.7 -20.0 d3e: 10* 7 8 255 e 256 13 21 26.7 +70 46 26 0.0100 13.2 -20.1 d1e 50* 10 256 Sd e 57 13.30 0.36 -0.42 71 0.35 2.87 5.45 451 13 22 3.7 +36 51 7 0.0162 14.6 -19.7 d2e 12* 20 451 e <0.33 0.53 1.01 788 13 22 22.5 +16 24 17 0.0241 15.0* -20.2 ds2e: 12* 41 788* dbl 0.43 1.56 2.37 1348 13 22 25.5 +76 12 39 0.0241 16.5* -18.8 ds3e: 12* 48 1348 e 0.25 0.80 1.55 452 13 22 45.2 +36 39 33 0.0174 14.0 -20.4 sd3 24*16 41 452 S0 a 41 13.48 0.95 0.45 71 1478 13 23 30.8 +59 52 18 0.0273 14.5* -21.0 d2e: 18* 48 1478 e 0.41 0.98 1.98 453 13 23 41.0 +33 16 20 0.0467 16.5* -20.1 d2e: 24*18 20 453 e 0.32 1.23 1.91 66 13 23 57.8 +57 30 39 0.0212 15.0* -19.9 d3e: 15* 12 66 e 15 14.98 0.42 -0.31 81 <0.25 0.51 <1.04 454 13 24 30.0 +26 50 40 0.0234 15.1 -20.0 sd2e 10* 20 454 e 0.29 0.65 <1.00 257 13 25 13.6 +55 44 40 0.0160 14.6 -19.7 sd2 15*12 10 257 SBb e 660 13 26 32.4 +22 33 1 0.0439 16.5* -20.0 s3 9* 52 660 a 258 13 26 48.8 +53 42 3 0.0257 16.0* -19.3 d3e: 9* 8 258 e 24 15.54 0.79 -0.04 71 259 13 26 34.7 +44 11 21 0.0280 16.5* -19.0 ds1e 9* 7 17 259 e <0.25 0.62 <1.23 1349 13 27 2.5 +12 0 15 0.0256 14.9 -20.4 s3e: 21*12 99 1349 a 260 13 27 15.1 +45 15 40 0.0350 17.0* -19.0 s2e: 7* 10 260 e 1350 13 28 3.2 +12 46 36 0.0445 16.5* -20.0 ds2e: 5* 99 1350 e,a 455 13 28 20.4 +31 32 20 0.0342 14.6 -21.3 d2 25*10 20 455 Sb e <0.44 1.60 2.68 261 13 29 6.5 +75 49 22 0.0310 15.3 -20.5 ds2e: 15*10 10 261 Sb e <0.25 0.96 1.77 262 13 29 25.4 +75 49 25 0.0300 16.0* -19.7 s2 13* 7 13 661 SB e,a <0.25 1.21 2.21 790 13 29 51.8 +14 26 23 0.0230 16.5* -18.6 d3e: 9* 7 52 790 e 1351 13 29 52.8 + 3 19 4 0.0220 15.6 -19.4 d3e 13* 8 52 1351 e 661 13 29 52.8 +27 12 21 0.0354 15.7 -20.3 d3 20*11 52 661 Sy2 789 13 29 55.4 +11 21 43 0.0320 14.5 -21.3 ds2 13*11 36 789 Sy3 25 14.68 0.57 -0.18 82 0.28 0.74 3.79 5.36 1352 13 30 1.8 +13 4 26 0.0249 15.4 -19.8 d3e: 12* 9 39 1352 e 1353 13 30 31.2 + 7 22 35 0.0224 17.0* -18.0 sd2e 13*10 99 1353 a 1355 13 30 34.7 + 9 45 33 0.0236 15.7 -19.4 s3 7* 5 39 1355 e 1354 13 30 52.9 + 9 47 3 0.0230 16.0* -19.1 d3 8* 6 39 1354 e 456 13 30 48.5 +37 26 53 0.0344 15.6 -20.3 d3e 12*10 20 456 e 263 13 31 41.0 +69 6 59 0.0050 16.5* -15.3 sd1e 10* 10 263 e 264 13 32 11.3 +52 8 43 0.0629 17.0* -20.3 ds2e: 12* 7 8 264 SBc a <0.25 0.73 1.63 1479 13 32 42.7 +51 52 9 0.0011 14.2 -14.3 ds2e 10* 46 1479 SABdm e 1356 13 32 46.1 +10 56 50 0.0392 15.2 -21.0 sd3e 14* 8 41 1356* dbl <0.28 0.80 1.49 459 13 32 54.0 +34 17 13 0.0241 17.0* -18.2 d2e 9* 7 24 459 e 265 13 35 58.0 +28 1 23 0.0340 15.5 -20.4 ds2e: 15*10 17 265 Sb? e <0.25 0.82 1.41 266 13 36 14.7 +48 31 53 0.0275 14.1 -21.4 d3 25*20 41 266* dbl Sy2 24 13.25 0.83 0.20 71 0.48 1.03 7.20 11.80 267 13 37 28.5 +43 18 17 0.0120 15.2 -18.4 s1e: 20*13 10 267 [S] e 24 14.75 0.60 -0.13 71 0.89 0.25 1.14 1.86 1357 13 38 40.0 - 3 58 25 0.0219 16.5* -18.5 s2 9* 7 53 1357 e 268 13 38 54.2 +30 37 47 0.0410 15.3 -21.0 sd3e: 12* 10 268 Sy2 15 14.66 0.94 0.28 81 0.28 1.42 1.71 269 13 39 19.1 +66 4 29 0.0490 17.5* -19.3 d2e: 8* 13 269 e 67 13 39 39.4 +30 46 17 0.0036 16.5* -14.5 sd1e 10* 2 67 HII 15 16.01 0.52 -0.40 71 270 13 39 40.7 +67 55 33 0.0090 14.3 -18.8 ds3e: 15* 10 270 SAB Sy2 15 14.05 0.92 0.31 81 271 13 39 47.2 +55 55 19 0.0257 13.6 -21.7 d3e 25* 41 271* Sc,dbl Sy2 81 13.0 5 0.59 0.04 71 <0.28 1.50 4.20 272 13 39 52.8 +43 0 46 0.0350 16.5* -19.5 sd3 11* 7 17 272 e 70 71 Table 7. (continued) Table 7. (continued) ===================================================================== =====================================================================