MUTUAL PHENOMENA OF JUPITERS SATELLITES IN 2009* (OCCULTATIONS) DATE(UT) BEGIN TIME END TIME EVENT DL FI1 FI2 DIST SEP SAT Year Mon. Day Hour Min. Hour Min. 2009 3 27 5 43.0 5 49.3 4O3P 0.05 155 49 11.2 1.0 4 2009 3 28 3 4.7 3 8.6 4O1P 0.12 174 29 2.9 0.8 4 2009 4 5 7 23.7 7 34.4 1O4P 0.19 254 347 5.7 0.2 1 2009 4 6 9 58.7 10 7.0 1O4P 0.15 119 11 5.2 0.3 1 2009 4 9 23 55.6 23 59.8 1O3P 0.04 127 18 4.7 0.9 1 2009 4 13 0 52.5 0 56.0 3O1P 0.06 171 24 2.4 0.9 3 2009 4 13 6 21.5 6 35.1 4O2P 0.42 159 86 9.5 0.5 4 2009 4 14 13 5.9 13 11.5 4O1P 0.44 186 331 2.9 0.4 4 2009 4 15 4 47.8 5 0.4 4O2P 0.63 200 281 9.1 0.2 4 2009 4 15 14 57.0 15 8.7 4O3P 0.28 209 301 12.9 0.6 4 2009 4 17 2 58.4 3 4.0 1O3P 0.16 136 16 4.1 0.6 1 2009 4 20 3 45.3 3 50.6 3O1P 0.26 168 32 3.1 0.5 3 2009 4 21 21 25.3 21 32.7 2O4P 0.08 238 342 7.9 0.6 2 2009 4 24 5 54.9 6 0.9 1O3A 0.29 144 13 3.4 0.2 1 2009 4 24 11 21.0 11 25.1 2O3P 0.04 139 25 6.2 0.9 2 2009 4 26 9 30.5 9 33.0 1O2P 0.05 221 335 3.9 0.7 1 2009 4 27 6 39.6 6 45.8 3O1T 0.40 165 40 3.8 0.1 3 2009 4 29 22 39.0 22 42.3 1O2P 0.11 223 334 4.0 0.6 1 2009 5 1 8 46.9 8 52.6 1O3P 0.29 152 11 2.7 0.2 1 2009 5 1 14 43.6 14 49.4 2O3P 0.15 142 23 5.8 0.6 2 2009 5 3 11 47.4 11 51.2 1O2P 0.18 224 334 4.1 0.5 1 2009 5 4 4 57.6 5 1.4 3O2P 0.04 153 46 6.8 1.0 3 2009 5 4 9 35.8 9 42.5 3O1T 0.40 163 49 4.4 0.2 3 2009 5 5 18 12.7 18 15.5 2O1P 0.07 201 325 3.4 0.7 2 2009 5 7 0 55.7 0 59.9 1O2P 0.26 226 333 4.3 0.4 1 2009 5 8 11 35.4 11 40.1 1O3P 0.15 160 8 2.0 0.6 1 2009 5 8 18 3.5 18 9.9 2O3A 0.23 145 21 5.5 0.2 2 2009 5 9 7 20.0 7 23.3 2O1P 0.14 201 326 3.3 0.5 2 2009 5 10 14 3.8 14 8.3 1O2P 0.33 227 332 4.4 0.3 1 2009 5 11 8 19.1 8 25.7 3O2P 0.24 152 49 7.1 0.6 3 2009 5 11 12 35.6 12 42.7 3O1P 0.29 161 58 5.0 0.5 3 2009 5 12 20 26.9 20 30.6 2O1P 0.21 200 328 3.2 0.4 2 2009 5 14 3 11.8 3 16.6 1O2P 0.40 229 332 4.5 0.2 1 2009 5 15 21 20.4 21 26.8 2O3A 0.23 147 20 5.1 0.1 2 2009 5 16 9 33.5 9 37.4 2O1P 0.29 199 329 3.1 0.3 2 2009 5 17 16 19.5 16 24.4 1O2P 0.45 230 331 4.6 0.1 1 2009 5 18 11 39.3 11 47.0 3O2T 0.36 150 52 7.5 0.2 3 2009 5 18 15 41.0 15 48.5 3O1P 0.19 159 68 5.5 0.7 3 2009 5 19 22 39.7 22 43.7 2O1P 0.36 198 330 2.9 0.2 2 2009 5 21 5 27.2 5 32.2 1O2T 0.46 232 330 4.7 0.0 1 2009 5 23 0 34.5 0 40.2 2O3P 0.17 150 18 4.7 0.5 2 2009 5 23 11 45.6 11 49.5 2O1A 0.40 198 332 2.8 0.0 2 2009 5 24 18 34.5 18 39.6 1O2P 0.45 233 329 4.8 0.1 1 2009 5 25 14 57.9 15 6.0 3O2T 0.36 149 55 7.7 0.1 3 2009 5 25 18 57.6 19 6.1 3O1P 0.13 157 80 5.8 0.8 3 2009 5 26 16 54.3 17 5.7 3O1P 0.09 203 266 5.9 0.9 3 2009 5 27 0 51.0 0 55.0 2O1P 0.39 197 333 2.7 0.1 2 2009 5 28 7 41.7 7 46.9 1O2P 0.41 235 329 4.9 0.2 1 2009 5 30 3 45.2 3 49.6 2O3P 0.07 153 17 4.3 0.9 2 2009 5 30 13 56.1 13 59.9 2O1P 0.33 196 334 2.6 0.2 2 2009 5 31 20 48.5 20 53.7 1O2P 0.36 236 328 4.9 0.2 1 2009 6 1 18 14.7 18 22.7 3O2P 0.32 148 58 8.0 0.4 3 2009 6 1 22 41.5 22 55.0 3O1P 0.12 157 97 5.8 0.9 3 2009 6 2 6 24.6 6 49.6 3O1P 0.35 173 163 1.7 0.4 3 2009 6 3 3 0.7 3 4.4 2O1P 0.26 195 335 2.5 0.4 2 2009 6 4 9 55.4 10 0.6 1O2P 0.32 238 328 5.0 0.3 1 2009 6 6 16 4.9 16 8.3 2O1P 0.20 195 337 2.3 0.5 2 2009 6 7 23 1.7 23 6.9 1O2P 0.29 239 327 5.1 0.4 1 2009 6 8 21 29.7 21 37.2 3O2P 0.20 147 61 8.3 0.7 3 2009 6 10 5 8.7 5 11.9 2O1P 0.15 194 338 2.2 0.6 2 2009 6 11 12 8.1 12 13.3 1O2P 0.26 241 326 5.2 0.4 1 2009 6 13 18 12.1 18 15.0 2O1P 0.10 193 339 2.1 0.7 2 2009 6 15 1 13.9 1 19.1 1O2P 0.23 243 326 5.3 0.5 1 2009 6 16 0 43.4 0 50.0 3O2P 0.11 146 64 8.5 0.9 3 2009 6 17 7 15.1 7 17.6 2O1P 0.06 192 340 2.0 0.8 2 2009 6 18 14 19.9 14 25.1 1O2P 0.21 244 325 5.3 0.5 1 2009 6 22 3 25.3 3 30.6 1O2P 0.20 246 325 5.4 0.5 1 2009 6 23 3 55.1 4 0.7 3O2P 0.05 145 67 8.7 1.1 3 2009 6 25 16 30.9 16 36.2 1O2P 0.19 247 324 5.5 0.6 1 2009 6 29 5 35.8 5 41.3 1O2P 0.18 249 324 5.5 0.6 1 2009 7 2 18 41.1 18 46.7 1O2P 0.18 250 324 5.6 0.6 1 2009 7 6 7 45.8 7 51.6 1O2P 0.18 252 323 5.6 0.6 1 2009 7 9 20 50.8 20 56.8 1O2P 0.18 254 323 5.7 0.6 1 2009 7 13 9 55.3 10 1.6 1O2P 0.19 255 323 5.7 0.6 1 2009 7 16 23 0.3 23 7.0 1O2P 0.21 257 322 5.8 0.6 1 2009 7 20 12 4.8 12 11.8 1O2P 0.22 259 322 5.8 0.5 1 2009 7 24 1 10.0 1 17.6 1O2P 0.24 261 322 5.8 0.5 1 2009 7 27 14 14.9 14 22.9 1O2P 0.27 262 322 5.9 0.5 1 2009 7 31 3 20.7 3 29.3 1O2P 0.29 264 321 5.9 0.4 1 2009 8 3 16 26.3 16 35.5 1O2P 0.32 266 321 5.9 0.4 1 2009 8 4 22 48.1 22 56.9 3O2P 0.05 141 88 9.4 1.2 3 2009 8 7 5 33.2 5 43.1 1O2P 0.36 269 321 5.9 0.3 1 2009 8 10 18 40.2 18 50.9 1O2P 0.39 271 321 5.9 0.2 1 2009 8 12 2 4.9 2 16.5 3O2P 0.09 141 92 9.4 1.1 3 2009 8 14 7 49.0 8 0.6 1O2P 0.43 273 321 5.9 0.2 1 2009 8 15 0 25.4 1 8.1 1O2P 0.09 57 32 5.0 0.8 1 2009 8 16 16 57.3 17 31.8 1O3P 0.07 40 15 3.8 1.1 1 2009 8 17 20 58.3 21 10.9 1O2T 0.46 276 322 5.9 0.1 1 2009 8 18 14 25.3 14 48.7 1O2P 0.14 66 35 5.4 0.7 1 2009 8 19 5 32.1 5 47.4 3O2P 0.12 142 98 9.3 1.0 3 2009 8 21 10 10.3 10 24.3 1O2T 0.46 279 322 5.8 0.0 1 2009 8 22 3 59.4 4 17.4 1O2P 0.17 71 36 5.6 0.7 1 2009 8 24 23 23.7 23 39.3 1O2P 0.46 282 322 5.8 0.1 1 2009 8 25 17 22.1 17 37.4 1O2P 0.19 75 37 5.7 0.6 1 2009 8 26 9 15.8 9 36.5 3O2P 0.15 143 104 9.1 0.9 3 2009 8 28 12 41.8 12 59.7 1O2P 0.42 286 323 5.7 0.2 1 2009 8 29 6 41.4 6 54.7 1O2P 0.20 79 38 5.8 0.6 1 2009 9 1 2 3.7 2 24.9 1O2P 0.36 290 324 5.5 0.3 1 2009 9 1 19 56.1 20 8.1 1O2P 0.21 82 38 5.8 0.6 1 2009 9 2 13 37.2 14 9.1 3O2P 0.16 145 113 8.6 0.9 3 2009 9 4 15 37.1 16 5.4 1O2P 0.28 296 326 5.3 0.4 1 2009 9 5 9 10.0 9 20.9 1O2P 0.21 85 39 5.9 0.6 1 2009 9 6 10 4.2 10 55.4 1O3P 0.13 298 340 5.2 0.8 1 2009 9 6 11 25.4 13 29.8 1O3P 0.19 315 344 4.2 0.7 1 2009 9 8 5 35.4 6 35.8 1O2P 0.16 308 331 4.6 0.7 1 2009 9 8 6 59.0 6 59.0 1O2P 0.07 316 334 4.1 0.9 1 2009 9 8 6 59.7 7 50.5 1O2P 0.08 319 336 3.8 0.8 1 2009 9 8 22 21.3 22 31.3 1O2P 0.21 88 39 5.9 0.6 1 2009 9 12 11 32.5 11 41.8 1O2P 0.21 90 39 5.9 0.6 1 2009 9 16 0 42.1 0 50.8 1O2P 0.20 92 39 5.9 0.6 1 2009 9 19 13 51.8 14 00.0 1O2P 0.20 95 39 5.9 0.6 1 2009 9 23 3 0.6 3 8.2 1O2P 0.19 97 39 5.9 0.6 1 2009 9 26 16 9.7 16 16.9 1O2P 0.18 99 38 5.8 0.6 1 2009 9 28 3 36.9 3 42.5 2O3A 0.23 190 354 1.5 0.3 2 2009 9 30 5 18.0 5 24.8 1O2P 0.18 101 38 5.8 0.6 1 2009 10 2 14 28.3 14 35.6 3O2P 0.06 218 281 9.3 1.1 3 2009 10 3 18 26.8 18 33.3 1O2P 0.17 103 38 5.8 0.6 1 2009 10 5 6 31.7 6 37.5 2O3A 0.23 192 353 1.9 0.1 2 2009 10 7 7 35.1 7 41.3 1O2P 0.17 105 37 5.7 0.6 1 2009 10 8 17 48.3 17 51.3 3O1P 0.03 167 35 3.3 1.2 3 2009 10 9 17 48.6 17 56.8 3O2P 0.11 217 285 9.1 0.9 3 2009 10 10 20 43.9 20 49.8 1O2P 0.16 106 37 5.7 0.6 1 2009 10 12 9 30.3 9 36.1 2O3A 0.23 194 351 2.3 0.1 2 2009 10 14 9 52.3 9 58.0 1O2P 0.16 108 37 5.6 0.6 1 2009 10 15 20 27.2 20 31.4 3O1P 0.08 165 41 3.9 1.0 3 2009 10 16 21 9.3 21 17.9 3O2P 0.17 217 289 9.0 0.8 3 2009 10 17 23 1.2 23 6.7 1O2P 0.16 110 36 5.6 0.6 1 2009 10 19 12 32.9 12 38.7 2O3A 0.23 197 350 2.7 0.2 2 2009 10 21 12 9.9 12 15.2 1O2P 0.16 112 36 5.5 0.6 1 2009 10 22 23 11.9 23 17.0 3O1P 0.13 163 49 4.5 0.9 3 2009 10 24 0 31.2 0 39.7 3O2P 0.21 216 292 8.8 0.7 3 2009 10 25 1 19.0 1 24.2 1O2P 0.17 114 35 5.4 0.6 1 2009 10 26 15 39.1 15 44.9 2O3A 0.23 199 348 3.1 0.3 2 2009 10 28 14 28.0 14 33.1 1O2P 0.18 115 35 5.4 0.6 1 2009 10 30 2 3.7 2 9.8 3O1P 0.17 161 57 5.0 0.8 3 2009 10 31 3 54.6 4 2.9 3O2P 0.24 215 296 8.5 0.6 3 2009 11 1 3 37.4 3 42.4 1O2P 0.19 117 34 5.3 0.5 1 2009 11 2 18 49.3 18 55.1 2O3A 0.23 202 347 3.5 0.3 2 2009 11 4 16 46.8 16 51.7 1O2P 0.20 119 34 5.2 0.5 1 2009 11 5 23 49.6 23 53.5 2O1P 0.40 166 22 2.2 0.1 2 2009 11 6 5 5.5 5 12.9 3O1P 0.20 159 67 5.4 0.7 3 2009 11 7 7 19.6 7 27.7 3O2P 0.26 214 299 8.3 0.5 3 2009 11 8 5 56.5 6 1.4 1O2P 0.22 120 33 5.1 0.5 1 2009 11 9 12 56.4 13 0.3 2O1P 0.40 166 23 2.3 0.1 2 2009 11 9 22 2.6 22 8.6 2O3A 0.23 204 345 3.9 0.2 2 2009 11 11 19 6.2 19 11.1 1O2P 0.24 122 32 5.0 0.4 1 2009 11 13 2 3.5 2 7.4 2O1A 0.40 165 25 2.5 0.1 2 2009 11 13 8 23.5 8 33.1 3O1P 0.24 157 79 5.8 0.6 3 2009 11 13 22 20.6 22 46.0 3O1T 0.40 187 197 1.7 0.1 3 2009 11 14 6 12.6 6 29.3 3O1P 0.24 203 263 5.8 0.6 3 2009 11 14 10 46.8 10 54.4 3O2P 0.25 212 302 8.0 0.5 3 2009 11 15 8 16.2 8 21.1 1O2P 0.26 124 32 4.9 0.4 1 2009 11 16 15 11.1 15 15.1 2O1A 0.40 164 26 2.6 0.0 2 2009 11 17 1 19.3 1 25.5 2O3A 0.23 207 343 4.3 0.1 2 2009 11 18 21 26.3 21 31.2 1O2P 0.29 125 31 4.8 0.3 1 2009 11 20 4 19.1 4 23.1 2O1A 0.40 163 27 2.7 0.0 2 2009 11 20 12 14.4 12 30.1 3O1P 0.28 157 95 5.9 0.5 3 2009 11 21 10 15.4 10 23.7 3O1P 0.12 203 281 5.8 0.8 3 2009 11 21 14 15.1 14 22.2 3O2P 0.23 211 305 7.7 0.6 3 2009 11 22 10 36.7 10 41.5 1O2P 0.33 127 30 4.7 0.3 1 2009 11 23 17 27.5 17 31.5 2O1A 0.40 162 29 2.8 0.0 2 2009 11 24 4 39.3 4 45.6 2O3A 0.23 210 342 4.7 0.0 2 2009 11 25 23 47.0 23 51.9 1O2P 0.37 128 30 4.6 0.2 1 2009 11 27 6 36.3 6 40.3 2O1P 0.39 162 30 3.0 0.1 2 2009 11 28 13 43.4 13 47.6 3O1P 0.03 201 293 5.4 1.0 3 2009 11 28 17 45.1 17 51.5 3O2P 0.18 210 309 7.4 0.7 3 2009 11 29 12 57.7 13 2.5 1O2P 0.41 130 29 4.5 0.2 1 2009 11 30 19 45.5 19 49.5 2O1P 0.37 161 32 3.1 0.1 2 2009 12 1 8 2.7 8 9.0 2O3A 0.23 213 340 5.1 0.2 2 2009 12 3 2 8.4 2 13.2 1O2P 0.45 132 28 4.4 0.1 1 2009 12 4 8 55.0 8 59.0 2O1P 0.34 160 33 3.2 0.2 2 2009 12 5 21 16.2 21 21.5 3O2P 0.11 208 312 7.1 0.8 3 2009 12 6 15 19.4 15 24.1 1O2T 0.46 133 27 4.3 0.0 1 2009 12 7 22 4.9 22 9.0 2O1P 0.31 159 34 3.3 0.2 2 2009 12 8 11 29.5 11 35.7 2O3P 0.20 216 338 5.5 0.4 2 2009 12 10 4 30.4 4 35.0 1O2P 0.46 135 27 4.2 0.1 1 2009 12 11 11 15.2 11 19.2 2O1P 0.27 158 36 3.5 0.3 2 2009 12 13 0 48.7 0 52.2 3O2P 0.03 206 315 6.7 0.9 3 2009 12 13 17 41.6 17 46.1 1O2P 0.40 136 26 4.1 0.2 1 2009 12 15 0 25.9 0 29.8 2O1P 0.23 157 37 3.6 0.3 2 2009 12 15 14 59.5 15 5.0 2O3P 0.12 219 337 5.9 0.6 2 2009 12 17 6 52.9 6 57.2 1O2P 0.34 138 25 4.0 0.2 1 2009 12 18 13 36.9 13 40.8 2O1P 0.19 157 39 3.7 0.4 2 2009 12 20 20 4.5 20 8.5 1O2P 0.26 140 24 3.8 0.3 1 2009 12 22 2 48.3 2 52.0 2O1P 0.16 156 41 3.8 0.5 2 2009 12 22 18 33.1 18 37.1 2O3P 0.03 222 335 6.3 0.9 2 2009 12 24 9 16.0 9 19.7 1O2P 0.19 141 23 3.7 0.4 1 2009 12 25 16 0.1 16 3.6 2O1P 0.12 155 42 4.0 0.5 2 2009 12 27 22 27.8 22 31.1 1O2P 0.12 143 23 3.6 0.5 1 2009 12 29 5 12.2 5 15.4 2O1P 0.09 154 44 4.1 0.6 2 2009 12 31 11 39.7 11 42.3 1O2P 0.06 144 22 3.5 0.7 1 --------------------------------------------------------------------------------------- *) The predictions are based on J. Lieske's E5 version of Sampson's theory. Only events with intensity drops (DL) greater than 0.03, occurring more than 1.5 Jovian radii (DIST) from the planet center, have been included. The letters and headings have the following meanings: E = eclipses O = occults P = partial event A = annular event T = total event Q = penumbral eclipse DL = relative intensity drop FI1 = orbital angle of first satellite (measured from superior conjunction with Jupiter, geocentric for an occultation, heliocentric for an eclipse) FI2 = orbital angle of second satellite DIST = planetocentric distance of target satellite in Jovian radii SEP = separation between the satellites in arcsec at midevent SAT = satellite(s) within 10 arcsec of target satellite (except for the eclipsing satellite)