SAMPLE OF MOLECULAR CLOUDS =============================== Parameters of galactic molecular clouds, as used in Brand & Wouterloot, 1995, A&A 303, 851. In this data set, observational data from various published papers were combined, and double entries (i.e. clouds appearing in more than one of the papers) are eliminated. Rather than using the data as given in the original papers, we have brought all parameters on the same scale: (i) All distances were calculated using the rotation curve from Brand (1986, Ph.D. thesis, Leiden Univ. -- see also Brand & Blitz, 1993, A&A 275, 67) (ii) Mvir was corrected to a 1/r^2 density distribution (iii) Mco was corrected to get X=2.3*10**20. Corrected for He (*1.36) (iv) Lco calculated from Mco=5.00Lco => logLco=logMco-log(5.0) For details, see the notes in Brand & Wouterloot (1995; page 861), and at the bottom of the Table. Nota bene: This is a preliminary file. When I have some time, I'll make it look nicer, and will add more infromation (e.g. galactic coordinates). log log log log log cloud dV Lco Mco Mvir Ra Rgc reference ======================================================== 283 0.40 2.75 3.45 3.89 0.99 16.54 Brand & Wouterloot 1994 288 0.47 3.45 4.15 4.18 1.14 17.64 380 0.54 4.00 4.72 4.52 1.34 16.77 391 0.43 2.83 3.53 3.92 0.96 16.83 399 0.51 3.95 4.64 4.43 1.31 16.63 401 0.50 3.20 3.89 4.20 1.12 16.67 414 0.36 3.11 3.81 3.84 1.01 16.77 437 0.59 3.20 3.89 4.26 0.98 16.24 501 0.54 3.49 4.18 4.32 1.16 16.30 529 0.61 3.23 3.93 4.56 1.23 19.16 540 0.59 3.46 4.15 4.43 1.16 17.83 562 0.43 2.74 3.45 3.28 0.32 16.58 572 0.44 3.46 4.15 4.18 1.22 19.44 789 0.44 3.04 3.75 3.75 0.76 20.19 793 0.71 4.48 5.18 4.97 1.45 19.30 904 0.51 3.43 4.15 4.18 1.06 16.75 997 0.49 4.08 4.78 4.45 1.38 15.74 1023 0.41 2.51 3.20 3.56 0.64 16.44 1055 0.61 2.32 3.04 3.97 0.66 16.71 10771 0.39 2.91 3.60 3.75 0.86 17.05 10772 0.56 3.30 4.00 4.26 1.04 16.00 1078 0.63 3.89 4.59 4.75 1.39 16.25 1080 0.45 3.23 3.94 3.98 0.98 18.06 1096 0.29 2.18 2.86 3.18 0.51 16.43 1103 0.25 1.71 2.41 3.04 0.45 17.67 1152 0.38 3.38 4.08 3.92 1.06 17.76 1153 0.35 2.41 3.11 3.45 0.65 18.37 56.8 0.62 4.35 5.05 4.71 1.37 12.22 Mead 1988 59.9 0.52 3.97 4.67 4.44 1.29 13.13 + Mead & Kutner 1988 62.2 0.41 2.91 3.61 3.66 0.73 13.14 + Mead et al. 1990 74.1 0.50 3.83 4.53 4.04 0.95 10.33 75.0 0.82 3.39 4.09 4.78 1.04 13.90 78.8 0.60 4.06 4.76 4.52 1.23 13.35 80.1 0.67 3.51 4.20 4.47 1.04 12.95 83.3 0.50 3.52 4.21 3.78 0.68 13.01 84.7 0.73 4.49 5.19 4.95 1.39 13.96 85.0 0.43 3.53 4.22 3.88 0.92 11.20 85.0 0.45 3.69 4.39 4.15 1.14 13.93 88.4 0.42 3.53 4.23 4.07 1.14 12.16 88.4 0.39 3.00 3.70 3.50 0.63 13.51 88.8 0.38 3.29 3.99 3.75 0.89 11.88 89.9 0.46 4.02 4.72 4.32 1.30 12.75 92.9 0.62 3.57 4.27 4.33 0.99 14.44 93.2 0.48 3.50 4.20 3.96 0.90 12.76 115.2 0.36 2.92 3.62 3.64 0.82 12.16 120.8 0.78 4.27 4.96 4.97 1.30 13.04 123.5 0.90 3.30 4.00 4.65 0.75 13.57 124.4 0.58 3.86 4.56 4.30 1.04 14.42 140.5 0.55 3.26 3.96 3.96 0.75 11.73 211.4 0.45 2.99 3.69 3.70 0.69 14.26 212.1 0.56 2.89 3.59 4.16 0.93 13.83 215.0 0.61 3.86 4.56 4.07 0.74 14.21 65.50 0.85 4.59 5.29 5.67 1.88 13.54 Digel 1991 65.95 0.72 3.70 4.40 5.05 1.50 12.57 66.45 0.65 3.90 4.60 4.94 1.54 12.36 66.70 0.73 3.75 4.45 5.09 1.52 13.14 67.00 0.62 3.61 4.31 4.87 1.52 13.01 67.50 0.61 3.85 4.55 4.90 1.57 11.49 69.00 0.53 3.83 4.53 4.74 1.57 12.38 69.30 0.61 3.69 4.39 4.76 1.44 12.43 70.40 0.76 3.94 4.63 5.27 1.64 13.13 70.90 0.72 4.28 4.98 5.29 1.76 13.12 68.16 0.72 3.74 4.44 4.88 1.35 12.56 68.19 0.75 4.17 4.87 5.07 1.48 12.28 68.37 0.89 4.02 4.72 5.28 1.41 12.56 68.56 0.41 2.99 3.69 4.03 1.10 12.36 69.44 0.66 3.42 4.12 4.64 1.22 12.87 69.74 0.60 4.13 4.83 4.75 1.44 12.52 69.83 0.69 3.65 4.35 4.79 1.31 12.20 69.85 0.36 3.00 3.70 3.97 1.14 11.91 69.92 0.68 3.73 4.43 4.74 1.28 12.48 70.02 0.72 4.11 4.81 4.87 1.34 12.79 70.10 0.72 3.84 4.54 4.83 1.30 12.46 70.16 0.81 3.86 4.56 5.02 1.29 12.76 70.16 0.87 3.47 4.17 5.01 1.17 12.56 70.30 0.76 3.91 4.61 4.94 1.33 12.64 70.33 0.66 3.79 4.49 4.77 1.34 12.39 70.53 0.71 3.69 4.39 4.82 1.31 12.06 1 0.96 5.46 6.16 6.13 2.10 8.96 Sodroski 1991 8 0.95 4.77 5.47 5.83 1.83 9.62 9 0.72 4.83 5.54 5.41 1.86 10.25 12 0.93 4.63 5.33 5.69 1.71 9.23 16 0.95 5.87 6.57 6.18 2.17 11.50 17 1.02 5.34 6.05 6.05 1.91 10.78 18 0.70 4.14 4.84 4.88 1.38 9.77 20 0.94 4.49 5.19 5.54 1.57 9.33 21 0.77 4.07 4.76 5.01 1.36 8.87 22 0.41 3.30 3.98 3.89 0.96 8.91 23 0.94 4.64 5.34 5.61 1.62 8.98 25 0.58 3.97 4.68 4.62 1.36 9.42 29 1.12 5.30 6.01 6.28 1.94 12.40 31 0.85 4.38 5.07 5.29 1.49 9.48 33 0.84 4.56 5.26 5.40 1.62 9.14 35 0.57 3.12 3.84 4.19 0.96 9.13 36 0.78 3.82 4.52 4.94 1.29 9.28 37 0.76 3.27 3.97 4.61 1.00 9.27 38 0.80 4.57 5.26 5.30 1.60 9.66 42 1.10 4.94 5.64 6.20 1.90 12.16 43 0.81 4.26 4.96 5.20 1.48 10.06 51 0.75 4.58 5.28 5.21 1.61 9.65 52 0.95 5.01 5.71 5.86 1.86 10.38 53 0.73 4.10 4.80 5.01 1.45 9.57 54 0.84 5.07 5.77 5.68 1.91 11.37 56 0.58 3.35 4.04 4.29 1.03 8.76 57 0.46 2.90 3.58 3.88 0.87 8.88 58 0.76 3.87 4.56 5.00 1.39 9.18 59 0.57 4.15 4.85 4.73 1.48 8.93 60 0.57 4.38 5.08 4.88 1.64 9.10 62 1.06 5.17 5.87 6.11 1.89 8.17 65 1.29 5.82 6.52 6.89 2.20 9.45 66 1.10 5.45 6.14 6.37 2.07 7.91 68 1.06 5.64 6.34 6.37 2.15 7.40 69 1.34 6.24 6.93 7.27 2.49 10.23 1420 1.00 5.42 6.11 5.82 1.72 6.30 Dame et al. 1986 1439 0.90 5.19 5.88 5.56 1.65 4.83 1744 0.95 5.29 5.98 5.71 1.70 4.92 1722 0.95 5.15 5.85 5.53 1.52 6.61 1848 0.85 5.31 6.00 5.43 1.64 4.90 1965 0.90 5.09 5.78 5.60 1.69 4.32 2026 0.78 4.32 5.01 4.80 1.15 6.47 2042 1.00 4.76 5.45 5.60 1.50 5.36 2253 0.95 5.33 6.02 5.74 1.73 5.08 2378 1.04 5.28 5.97 6.02 1.84 4.34 2498 1.18 5.66 6.35 6.44 1.98 3.92 2555 1.08 5.43 6.12 6.05 1.79 5.20 2555 1.11 5.89 6.58 6.24 1.91 5.27 2980 1.00 5.59 6.29 5.98 1.88 4.74 2952 0.60 4.33 5.02 4.36 1.06 5.62 3195 1.26 5.77 6.46 6.61 2.00 4.48 3148 1.04 5.65 6.34 6.18 2.00 5.89 3544 1.00 5.62 6.31 5.82 1.72 6.23 3657 1.04 5.82 6.51 6.12 1.94 5.83 3932 0.90 5.18 5.87 5.50 1.60 6.85 3942 0.60 4.47 5.16 4.52 1.21 6.45 4059 1.04 5.54 6.23 6.10 1.92 5.90 4137 0.78 5.22 5.91 5.17 1.51 6.71 4460 1.08 4.97 5.66 6.00 1.74 6.04 4659 0.95 5.24 5.93 5.82 1.81 6.10 4625 0.48 4.14 4.83 4.16 1.11 7.30 4959 1.00 5.21 5.90 5.85 1.75 6.46 5259 0.90 5.50 6.19 5.74 1.84 6.71 5324 0.60 4.33 5.02 4.42 1.12 7.45 5 0.96 5.22 5.92 5.57 1.54 3.83 Solomon et al. 1987 26 0.96 4.76 5.46 5.29 1.26 5.60 29 0.71 4.52 5.22 4.77 1.24 3.82 30 1.20 5.33 6.03 5.92 1.42 5.03 33 1.02 5.00 5.70 5.46 1.33 4.25 41 0.85 4.36 5.06 4.77 0.97 6.22 79 0.94 5.07 5.77 5.41 1.43 4.73 92 0.88 4.29 4.99 4.88 1.03 3.26 94 0.86 4.46 5.16 4.98 1.16 3.29 96 0.80 3.85 4.55 4.76 1.05 3.30 97 1.25 6.31 7.01 6.53 1.92 4.46 100 1.06 5.11 5.81 5.51 1.29 3.38 106 0.85 4.82 5.52 5.15 1.35 4.19 108 1.19 5.90 6.60 6.20 1.71 3.52 117 0.88 4.66 5.36 5.28 1.42 3.55 118 1.00 4.78 5.48 5.39 1.30 3.62 120 0.79 3.88 4.57 4.53 0.86 3.67 121 1.02 5.63 6.33 5.84 1.71 4.93 123 0.82 4.37 5.07 4.95 1.21 3.65 125 1.19 5.40 6.10 6.07 1.58 3.70 127 0.85 5.21 5.91 5.41 1.61 3.69 128 1.12 5.30 5.99 5.86 1.52 3.71 133 0.82 4.46 5.15 4.90 1.16 3.80 135 1.01 5.15 5.84 5.62 1.51 3.81 137 0.83 4.24 4.94 4.86 1.09 3.81 141 0.73 4.19 4.89 4.66 1.09 3.87 148 0.89 5.00 5.70 5.38 1.50 3.96 152 1.09 5.01 5.71 5.63 1.35 4.07 158 0.94 5.26 5.95 5.52 1.54 4.12 162 1.09 5.40 6.10 5.76 1.48 4.23 170 0.90 4.61 5.31 5.20 1.29 4.33 171 1.09 5.76 6.46 5.91 1.64 4.57 173 0.89 3.98 4.68 4.77 0.89 4.37 176 0.97 5.27 5.97 5.50 1.45 4.42 179 0.83 4.31 5.01 4.90 1.13 4.70 180 1.00 4.87 5.57 5.43 1.34 4.44 181 0.92 4.55 5.25 5.16 1.23 4.50 182 0.85 5.08 5.78 5.33 1.53 4.50 185 0.71 4.42 5.12 4.83 1.30 4.67 191 1.00 5.12 5.82 5.57 1.48 4.74 192 0.88 4.47 5.16 5.12 1.26 4.77 193 1.03 4.69 5.38 5.48 1.31 5.87 209 0.95 5.09 5.79 5.51 1.51 5.16 211 1.09 4.95 5.64 5.56 1.29 5.80 225 1.05 5.18 5.88 5.81 1.60 6.13 231 0.79 4.63 5.33 4.96 1.29 7.55 232 0.79 4.45 5.15 5.04 1.37 6.40 234 0.77 4.04 4.74 4.72 1.08 6.49 237 0.89 4.71 5.40 5.31 1.43 6.64 239 0.90 4.85 5.55 5.40 1.49 6.75 240 0.79 3.93 4.63 4.63 0.96 6.80 245 0.65 3.99 4.69 4.48 1.08 7.36 252 0.80 4.73 5.43 5.18 1.47 8.58 253 0.77 4.50 5.20 4.97 1.33 8.54 257 0.83 3.93 4.63 4.85 1.08 8.32 259 0.73 3.65 4.34 4.45 0.89 8.35 260 0.58 2.69 3.39 3.84 0.58 8.35 261 0.79 2.71 3.41 3.94 0.27 8.34 265 1.03 3.82 4.52 5.02 0.85 8.40 269 0.71 3.46 4.16 4.38 0.85 8.42 270 0.33 2.31 3.00 3.22 0.47 8.44 271 0.65 3.18 3.88 4.16 0.76 8.45 Input references: Brand & Wouterloot, 1994, A&AS 103, 503 Dame, Elmegreen, Cohen, Thaddeus, 1986, ApJ 305, 892 Digel, 1991, Ph.D. Thesis, Harvard Univ. Mead, 1988, ApJS 67, 149 Mead & Kutner, 1988, ApJ 330, 399 Mead, Kutner, Evans, 1990, ApJ 354, 492 Solomon, Rivolo, Barrett, Yahil, 1987, ApJS 319, 730 Notes: ====== - Mead et al. clouds: Mvir corrected with 126/363 to get 1/r/r-distribution Mco corrected with 2.3/4.0 to get X=2.3*10**20. Corrected for He (*1.36) Lco calculated from Mco=5.00Lco => logLco=logMco-log(5.0); dV calculated from Mvir - Dame et al. clouds: Use Dame's dist. for 1420,1722,2026. Leave out 4263,5045,5636 (uncert. d) Corrected to Mvir=126RdV**2, X=2.3E+20, and Ro=8.5kpc corrected logLco for G25,55N - Digel clouds Tabel with cloud par's calculated from Tabel IV-1 thesis Digel Adjusted with real kin. dist. Mco corrected by (2.3/9.2) to get X=2.3*10**20 Mvir corrected by (126/209.6) to get 1/r^2 distrib. Left out 6 CfA clouds in favour of Bell Labs obs's. - Sodroski clouds Lco transformed to usual units Mvir corrected to 1/r^2 distrib. (i.e. *(126/210) in this case) Mco corrected to X=2.3*10**20 (i.e. *(2.3/6.0)) - Solomon et al. clouds Only 'calibrator clouds', and then only those that are not yet in Dame etal. When using together with Dame data, delete: 58,66,167,233,238 An additional data set, not used in the final analysis, is that of Carpenter et al. (Carpenter, Snell, Schloerb, 1990, ApJ 362, 147). We giveit here anyway, noting that the following changes were made to bring the cloud parameters on a consistent scale: - Mco = 5.00*Lco (i.e. X=2.3*10**20) - Mvir *(126/190) to get 1/r^2 distrib. log log log log log cloud dV Lco Mco Mvir Ra Rgc reference ======================================================== 00338 0.49 2.71 3.41 3.25 0.18 9.43 Carpenter et al. 1990 00494 0.58 3.04 3.74 3.51 0.28 9.87 02593 0.46 3.30 4.00 3.59 0.56 10.25 03064 0.34 1.75 2.45 2.56 -0.22 10.30 04324 0.66 3.87 4.57 4.16 0.75 14.14 04329 0.52 3.48 4.18 4.03 0.89 14.15 05100 0.62 2.83 3.53 3.68 0.34 11.06 05197 0.36 2.28 2.98 2.64 -0.15 11.68 05274 0.51 2.79 3.49 3.38 0.28 10.29 05375 0.65 3.88 4.58 4.00 0.58 10.29 05490 0.49 2.89 3.59 3.37 0.30 10.60 05553 0.48 2.72 3.41 3.20 0.15 10.95 06056 0.73 3.34 4.04 4.05 0.49 9.98 06068 0.49 2.94 3.64 3.42 0.34 9.98 06073 0.34 3.04 3.74 3.20 0.41 13.16 06117 0.56 3.48 4.18 3.76 0.56 12.19 06155 0.45 2.79 3.48 3.20 0.20 10.08 06308 0.51 2.81 3.51 3.30 0.20 9.95 ============================================================================== The same sample, split in Outer- (R>8.5 kpc) and Inner Galaxy clouds 112 Outer Galaxy Clouds log log log log log cloud dV Lco Mco Mvir Ra Rgc ======================================== 283 0.40 3.35 3.45 3.89 0.99 16.54 288 0.47 4.05 4.15 4.18 1.14 17.64 380 0.54 4.60 4.72 4.52 1.34 16.77 391 0.43 3.43 3.53 3.92 0.96 16.83 399 0.51 4.55 4.64 4.43 1.31 16.63 401 0.50 3.80 3.89 4.20 1.12 16.67 414 0.36 3.71 3.81 3.84 1.01 16.77 437 0.59 3.80 3.89 4.26 0.98 16.24 501 0.54 4.09 4.18 4.32 1.16 16.30 529 0.61 3.83 3.93 4.56 1.23 19.16 540 0.59 4.06 4.15 4.43 1.16 17.83 562 0.43 3.34 3.45 3.28 0.32 16.58 572 0.44 4.06 4.15 4.18 1.22 19.44 789 0.44 3.64 3.75 3.75 0.76 20.19 793 0.71 5.08 5.18 4.97 1.45 19.30 904 0.51 4.03 4.15 4.18 1.06 16.75 997 0.49 4.68 4.78 4.45 1.38 15.74 1023 0.41 3.11 3.20 3.56 0.64 16.44 1055 0.61 2.92 3.04 3.97 0.66 16.71 10771 0.39 3.51 3.60 3.75 0.86 17.05 10772 0.56 3.90 4.00 4.26 1.04 16.00 1078 0.63 4.49 4.59 4.75 1.39 16.25 1080 0.45 3.83 3.94 3.98 0.98 18.06 1096 0.29 2.78 2.86 3.18 0.51 16.43 1103 0.25 2.31 2.41 3.04 0.45 17.67 1152 0.38 3.98 4.08 3.92 1.06 17.76 1153 0.35 3.01 3.11 3.45 0.65 18.37 56 0.62 4.95 5.05 4.71 1.37 12.22 59 0.52 4.57 4.67 4.44 1.29 13.13 62 0.41 3.51 3.61 3.66 0.73 13.14 74 0.50 4.43 4.53 4.04 0.95 10.33 75 0.82 3.99 4.09 4.78 1.04 13.90 78 0.60 4.66 4.76 4.52 1.23 13.35 80 0.67 4.11 4.20 4.47 1.04 12.95 83 0.50 4.12 4.21 3.78 0.68 13.01 84 0.73 5.09 5.19 4.95 1.39 13.96 85 0.43 4.13 4.22 3.88 0.92 11.20 85 0.45 4.29 4.39 4.15 1.14 13.93 88 0.42 4.13 4.23 4.07 1.14 12.16 88 0.39 3.60 3.70 3.50 0.63 13.51 88 0.38 3.89 3.99 3.75 0.89 11.88 89 0.46 4.62 4.72 4.32 1.30 12.75 92 0.62 4.17 4.27 4.33 0.99 14.44 93 0.48 4.10 4.20 3.96 0.90 12.76 115 0.36 3.52 3.62 3.64 0.82 12.16 120 0.78 4.87 4.96 4.97 1.30 13.04 123 0.90 3.90 4.00 4.65 0.75 13.57 124 0.58 4.46 4.56 4.30 1.04 14.42 140 0.55 3.86 3.96 3.96 0.75 11.73 211 0.45 3.59 3.69 3.70 0.69 14.26 212 0.56 3.49 3.59 4.16 0.93 13.83 215 0.61 4.46 4.56 4.07 0.74 14.21 65 0.85 5.19 5.29 5.67 1.88 13.54 65 0.72 4.30 4.40 5.05 1.50 12.57 66 0.65 4.50 4.60 4.94 1.54 12.36 66 0.73 4.35 4.45 5.09 1.52 13.14 67 0.62 4.21 4.31 4.87 1.52 13.01 67 0.61 4.45 4.55 4.90 1.57 11.49 69 0.53 4.43 4.53 4.74 1.57 12.38 69 0.61 4.29 4.39 4.76 1.44 12.43 70 0.76 4.54 4.63 5.27 1.64 13.13 70 0.72 4.88 4.98 5.29 1.76 13.12 68 0.72 4.34 4.44 4.88 1.35 12.56 68 0.75 4.77 4.87 5.07 1.48 12.28 68 0.89 4.62 4.72 5.28 1.41 12.56 68 0.41 3.59 3.69 4.03 1.10 12.36 69 0.66 4.02 4.12 4.64 1.22 12.87 69 0.60 4.73 4.83 4.75 1.44 12.52 69 0.69 4.25 4.35 4.79 1.31 12.20 69 0.36 3.60 3.70 3.97 1.14 11.91 69 0.68 4.33 4.43 4.74 1.28 12.48 70 0.72 4.71 4.81 4.87 1.34 12.79 70 0.72 4.44 4.54 4.83 1.30 12.46 70 0.81 4.46 4.56 5.02 1.29 12.76 70 0.87 4.07 4.17 5.01 1.17 12.56 70 0.76 4.51 4.61 4.94 1.33 12.64 70 0.66 4.39 4.49 4.77 1.34 12.39 70 0.71 4.29 4.39 4.82 1.31 12.06 1 0.96 6.06 6.16 6.13 2.10 8.96 8 0.95 5.37 5.47 5.83 1.83 9.62 9 0.72 5.43 5.54 5.41 1.86 10.25 12 0.93 5.23 5.33 5.69 1.71 9.23 16 0.95 6.47 6.57 6.18 2.17 11.50 17 1.02 5.94 6.05 6.05 1.91 10.78 18 0.70 4.74 4.84 4.88 1.38 9.77 20 0.94 5.09 5.19 5.54 1.57 9.33 21 0.77 4.67 4.76 5.01 1.36 8.87 22 0.41 3.90 3.98 3.89 0.96 8.91 23 0.94 5.24 5.34 5.61 1.62 8.98 25 0.58 4.57 4.68 4.62 1.36 9.42 29 1.12 5.90 6.01 6.28 1.94 12.40 31 0.85 4.98 5.07 5.29 1.49 9.48 33 0.84 5.16 5.26 5.40 1.62 9.14 35 0.57 3.72 3.84 4.19 0.96 9.13 36 0.78 4.42 4.52 4.94 1.29 9.28 37 0.76 3.87 3.97 4.61 1.00 9.27 38 0.80 5.17 5.26 5.30 1.60 9.66 42 1.10 5.54 5.64 6.20 1.90 12.16 43 0.81 4.86 4.96 5.20 1.48 10.06 51 0.75 5.18 5.28 5.21 1.61 9.65 52 0.95 5.61 5.71 5.86 1.86 10.38 53 0.73 4.70 4.80 5.01 1.45 9.57 54 0.84 5.67 5.77 5.68 1.91 11.37 56 0.58 3.95 4.04 4.29 1.03 8.76 57 0.46 3.50 3.58 3.88 0.87 8.88 58 0.76 4.47 4.56 5.00 1.39 9.18 59 0.57 4.75 4.85 4.73 1.48 8.93 60 0.57 4.98 5.08 4.88 1.64 9.10 65 1.29 6.42 6.52 6.89 2.20 9.45 69 1.34 6.84 6.93 7.27 2.49 10.23 252 0.80 5.33 5.43 5.18 1.47 8.58 253 0.77 5.10 5.20 4.97 1.33 8.54 92 inner Galaxy clouds log log log log log cloud dV Lco Mco Mvir Ra Rgc ======================================== 62 1.06 5.47 5.87 6.11 1.89 8.17 66 1.10 5.75 6.14 6.37 2.07 7.91 68 1.06 5.94 6.34 6.37 2.15 7.40 1420 1.00 5.72 6.11 5.82 1.72 6.30 1439 0.90 5.49 5.88 5.56 1.65 4.83 1744 0.95 5.59 5.98 5.71 1.70 4.92 1722 0.95 5.45 5.85 5.53 1.52 6.61 1848 0.85 5.61 6.00 5.43 1.64 4.90 1965 0.90 5.39 5.78 5.60 1.69 4.32 2026 0.78 4.62 5.01 4.80 1.15 6.47 2042 1.00 5.06 5.45 5.60 1.50 5.36 2253 0.95 5.63 6.02 5.74 1.73 5.08 2378 1.04 5.58 5.97 6.02 1.84 4.34 2498 1.18 5.96 6.35 6.44 1.98 3.92 2555 1.08 5.73 6.12 6.05 1.79 5.20 2555 1.11 6.19 6.58 6.24 1.91 5.27 2980 1.00 5.89 6.29 5.98 1.88 4.74 2952 0.60 4.63 5.02 4.36 1.06 5.62 3195 1.26 6.07 6.46 6.61 2.00 4.48 3148 1.04 5.95 6.34 6.18 2.00 5.89 3544 1.00 5.92 6.31 5.82 1.72 6.23 3657 1.04 6.12 6.51 6.12 1.94 5.83 3932 0.90 5.48 5.87 5.50 1.60 6.85 3942 0.60 4.77 5.16 4.52 1.21 6.45 4059 1.04 5.84 6.23 6.10 1.92 5.90 4137 0.78 5.52 5.91 5.17 1.51 6.71 4460 1.08 5.27 5.66 6.00 1.74 6.04 4659 0.95 5.54 5.93 5.82 1.81 6.10 4625 0.48 4.44 4.83 4.16 1.11 7.30 4959 1.00 5.51 5.90 5.85 1.75 6.46 5259 0.90 5.80 6.19 5.74 1.84 6.71 5324 0.60 4.63 5.02 4.42 1.12 7.45 5 0.96 5.52 5.92 5.57 1.54 3.83 26 0.96 5.06 5.46 5.29 1.26 5.60 29 0.71 4.82 5.22 4.77 1.24 3.82 30 1.20 5.63 6.03 5.92 1.42 5.03 33 1.02 5.30 5.70 5.46 1.33 4.25 41 0.85 4.66 5.06 4.77 0.97 6.22 79 0.94 5.37 5.77 5.41 1.43 4.73 92 0.88 4.59 4.99 4.88 1.03 3.26 94 0.86 4.76 5.16 4.98 1.16 3.29 96 0.80 4.15 4.55 4.76 1.05 3.30 97 1.25 6.61 7.01 6.53 1.92 4.46 100 1.06 5.41 5.81 5.51 1.29 3.38 106 0.85 5.12 5.52 5.15 1.35 4.19 108 1.19 6.20 6.60 6.20 1.71 3.52 117 0.88 4.96 5.36 5.28 1.42 3.55 118 1.00 5.08 5.48 5.39 1.30 3.62 120 0.79 4.18 4.57 4.53 0.86 3.67 121 1.02 5.93 6.33 5.84 1.71 4.93 123 0.82 4.67 5.07 4.95 1.21 3.65 125 1.19 5.70 6.10 6.07 1.58 3.70 127 0.85 5.51 5.91 5.41 1.61 3.69 128 1.12 5.60 5.99 5.86 1.52 3.71 133 0.82 4.76 5.15 4.90 1.16 3.80 135 1.01 5.45 5.84 5.62 1.51 3.81 137 0.83 4.54 4.94 4.86 1.09 3.81 141 0.73 4.49 4.89 4.66 1.09 3.87 148 0.89 5.30 5.70 5.38 1.50 3.96 152 1.09 5.31 5.71 5.63 1.35 4.07 158 0.94 5.56 5.95 5.52 1.54 4.12 162 1.09 5.70 6.10 5.76 1.48 4.23 170 0.90 4.91 5.31 5.20 1.29 4.33 171 1.09 6.06 6.46 5.91 1.64 4.57 173 0.89 4.28 4.68 4.77 0.89 4.37 176 0.97 5.57 5.97 5.50 1.45 4.42 179 0.83 4.61 5.01 4.90 1.13 4.70 180 1.00 5.17 5.57 5.43 1.34 4.44 181 0.92 4.85 5.25 5.16 1.23 4.50 182 0.85 5.38 5.78 5.33 1.53 4.50 185 0.71 4.72 5.12 4.83 1.30 4.67 191 1.00 5.42 5.82 5.57 1.48 4.74 192 0.88 4.77 5.16 5.12 1.26 4.77 193 1.03 4.99 5.38 5.48 1.31 5.87 209 0.95 5.39 5.79 5.51 1.51 5.16 211 1.09 5.25 5.64 5.56 1.29 5.80 225 1.05 5.48 5.88 5.81 1.60 6.13 231 0.79 4.93 5.33 4.96 1.29 7.55 232 0.79 4.75 5.15 5.04 1.37 6.40 234 0.77 4.34 4.74 4.72 1.08 6.49 237 0.89 5.01 5.40 5.31 1.43 6.64 239 0.90 5.15 5.55 5.40 1.49 6.75 240 0.79 4.23 4.63 4.63 0.96 6.80 245 0.65 4.29 4.69 4.48 1.08 7.36 257 0.83 4.23 4.63 4.85 1.08 8.32 259 0.73 3.95 4.34 4.45 0.89 8.35 260 0.58 2.99 3.39 3.84 0.58 8.35 261 0.79 3.01 3.41 3.94 0.27 8.34 265 1.03 4.12 4.52 5.02 0.85 8.40 269 0.71 3.76 4.16 4.38 0.85 8.42 270 0.33 2.61 3.00 3.22 0.47 8.44 271 0.65 3.48 3.88 4.16 0.76 8.45
(Created 29/10/99)