Monday, May 23, 2011

Predictions for lunar occulttations during the june 15th lunar eclipse for delhi


Jun 15 18 33 12 r X221437    11.2        89E 179     37 176 -36N 283
Jun 15 18 36  9 d X221530    11.5        85E 179     37 176  85U  82
Jun 15 18 36 27 d X221512    11.6        84E 179     38 176  77N  35
Jun 15 18 48 25 r X221461    11.4        62E 179     38 180  -4N 313
Jun 15 18 48 29 r X221472    11.7        62E 179     37 180 -70S 206
Jun 15 18 49 51 D  185487 K2 10.0  9.2   59E 179     37 180  68U  86
Jun 15 18 52  9 R  185460cG5  9.8  9.2   54E 179     37 181 -47N 269
Jun 15 18 56 44 d X221538    11.5        44E 179     38 182  79U  40
Jun 15 18 58 27 r X221459    10.9        41E 179     37 183 -41N 274
Jun 15 18 59 20 d X142716    11.4 11.2   39E 179     38 183  71U  49
Jun 15 19  3  5 r X221464    11.8        31E 179     37 185 -26N 288
Jun 15 19  4 43 R  185466 F2  7.4  7.2s  28E 179     37 185   0N 314
Jun 15 19  4 49 d X142755    11.1 10.7   27E 179     37 184  49U 104
Jun 15 19 11 35 m X221527    11.7        14E 179     37 186  81U 174
Jun 15 19 12  5 r X221486    11.0        13E 179     37 187   2N 314
Jun 15 19 12 40 r X221487    11.3        12E 179     37 187 103U 225
Jun 15 19 21  5 d X142788    11.2 11.0    0E 179     37 189  29U 101
Jun 15 19 21 47 d X142779    11.6 11.0    0E 179     37 189  33U 117
Jun 15 19 23 21 m X221529    11.8         0E 179     37 190  83U 354
Jun 15 19 23 25 D  185497 F2  9.6  9.2    0E 179     37 190  31U 118
Jun 15 19 29 21 r X142606    11.2  9.6    0E 179     36 192  85U 231
Jun 15 19 29 32 d X142796    11.1 10.8    0E 179     37 191  23U 117
Jun 15 19 29 59 D  185501 G3  8.6  8.2    0E 179     37 191  18U 103
Jun 15 19 32 43 D X142802    10.2  9.4    0E 179     36 192  20U 119
Jun 15 19 33  0 D  185505 K0  9.6  9.0    0E 179     37 192  18U  84
Jun 15 19 34 32 r X221512    11.6         0E 179     37 193  82U 314
Jun 15 19 34 50 D X142790    10.9 10.5    0E 179     37 193  41U  44
Jun 15 19 35 57 r X142608    11.7 11.4    0E 179     36 194  83U 294
Jun 15 19 36 21 r X221500    11.6         0E 179     36 194  83U 287
Jun 15 19 38 55 R    2523 A0  4.8  4.8s   0E 179     36 194  80U 279
R2523 = 51 Ophiuchi
Jun 15 19 44 20 r X221516    11.6         0E 179     36 196  73U 298
Jun 15 19 50 31 d X142848    11.5 11.4    0E 179     36 197  31U  55
Jun 15 19 54 33 d X221637    11.5         0E 179     35 198  13U 105
Jun 15 20  1 10 r X221538    11.5         0E 179     35 200  55U 306
Jun 15 20  4 43 r X221530    11.5         0E 179     34 201  48U 265
Jun 15 20 12 30 r X142716    11.4 11.2    0E 179     34 203  44U 296
Jun 15 20 17 40 R  185487 K2 10.0  9.2    0E 179     33 204  31U 260
Jun 15 20 26  2 r X142755    11.1 10.7    0E 179     32 206  17U 241
Jun 15 20 26 42 d X221686    11.2         0E 179     33 206  58U  58
Jun 15 20 26 53 d X142970    11.3 11.0    0E 179     33 206  57U  72
Jun 15 20 28 51 d X142961    11.9 11.6    0E 179     32 206  51U 123
Jun 15 20 31 43 d X221693    11.7         0E 179     32 207  63U  56
Jun 15 20 32  4 r X142779    11.6 11.0    0E 179     32 208  13U 226
Jun 15 20 32 58 R  185497 F2  9.6  9.2    0E 179     32 208  13U 225
Jun 15 20 33 57 d X221667    11.7         0E 179     32 208  62U  27
Jun 15 20 37 36 d X221687    11.6         0E 179     32 209  67U  36
Jun 15 20 39 17 r X142796    11.1 10.8    0E 179     31 209  14U 225
Jun 15 20 40 37 R X142802    10.2  9.4    0E 179     31 210  16U 223
Jun 15 20 42  6 r X142788    11.2 11.0    0E 179     31 210   6U 242
Jun 15 20 43  8 R X142790    10.9 10.5    0E 179     31 210  31U 298
Jun 15 20 48  4 d X221718    11.4         0E 179     31 211  82U  73
Jun 15 20 48 38 D  185529 A3 10.3 10.0    0E 179     31 211  82U  59
Jun 15 20 49 12 R  185501 G3  8.6  8.2    0E 179     30 212  14U 239
Jun 15 20 49 17 m X221647    11.7         0E 179     31 212  66U 349
Jun 15 20 49 57 d X143050    10.9  9.9    0E 179     30 211  85U  80
Jun 15 20 52  4 d X221713    11.5         0E 179     30 212  86U  54
Jun 15 20 52 59 d X143052    11.7 10.3    0E 179     30 212  84U 112
Jun 15 20 53  1 m X221681    11.7         0E 179     30 212  61U 169
Jun 15 20 57 47 R  185505 K0  9.6  9.0    0E 179     29 214  21U 258
Jun 15 21  6 20 r X142848    11.5 11.4    3E 179     28 216  39U 285
Jun 15 21 10 10 r X221637    11.5         8E 179     28 216  41U 235
Jun 15 21 14 30 m X221692    11.1        16E 179     28 217  88U 348
Jun 15 21 19 14 d X143106    11.8 11.4   25E 179     27 218  39N  44
Jun 15 21 19 15 d X143136    11.5 11.3   25E 179     27 218  13N  69
Jun 15 21 23 34 r X221667    11.7        34E 179     26 219  72U 311
Jun 15 21 23 40 D  185530 K1  9.0  8.2   34E 179     26 219  78N   2
Jun 15 21 26  3 D  185546 A5 10.3 10.1   39E 179     26 219  17N  61
Jun 15 21 26  9 r X142961    11.9 11.6   39E 179     26 219  72U 214
Jun 15 21 32 24 d X143176    11.5 10.8   53E 179     25 220 -20N  94
Jun 15 21 36 22 r X221687    11.6        61E 179     24 222  81U 301
Jun 15 21 36 25 d X221795    11.5        61E 179     25 221 -23N  95
Jun 15 21 36 26 D X221791    10.4        61E 179     24 221 -43N 115
Jun 15 21 37 30 d X143184    11.4 10.7   63E 179     24 221   7N  64
Jun 15 21 37 52 d X221794    11.7        64E 179     24 221 -43N 114
Jun 15 21 40 19 d X143206    11.2 10.4   69E 179     24 222 -33N 102
Jun 15 21 40 41 D X 42589 G  10.5 10.1   70E 179     24 222  47N  22
Jun 15 21 41 13 r X221686    11.2        71E 179     24 222  77U 280
Jun 15 21 42 10 R  185530 K1  9.0  8.2   73E 179     24 223  86S 334
Jun 15 21 43 17 m X143124    10.9 10.3   75E 179     23 222 -80S 167
Jun 15 21 43 37 d X143217    11.1 10.5   75E 179     24 222 -16N  83
Jun 15 21 44 43 r X221693    11.7        77E 179     23 223  82U 281
Jun 15 21 45 22 m X143074    10.9  9.9   78E 179     23 223  78N 348
Jun 15 21 45 53 r X142970    11.3 11.0   79E 179     23 223  80U 266
Jun 15 21 47 41 d X221814    11.4        83E 179     23 223 -37N 101
Jun 15 21 52  2 D X 42623 A2 10.9 10.8   89E 179     22 224   6N  56


Item
Meaning
Day
The day of the event. Occult searches for events on the basis of geocentric conjunctions that occur within a 24hr - with that period starting at the UT indicated in the date selection box. Users should ensure that the period starts near the middle of their day.
Time
The predicted UTC, in hours, mins and secs.
P
The Phase of the event. Values are:
  • D - disappearance
  • d - disappearance, but star is less than 1 mag brighter than the predicted visibility limit.
  • R - reappearance
  • r - reappearance, but star is less than 1 mag brighter than the predicted visibility limit.
  • Gr - grazing occultation at site. At mid-occultation, or closest approach, the star is less than 4" from the limb of the moon (either above or below).
  • gr - grazing occultation at site, but star is less than 1 mag brighter than the predicted visibility limit.
  • M - miss. At closest approach, the star is more than 4" above the limb of the moon 
  • m - miss, but star is less than 1 mag brighter than the predicted visibility limit.
Star
The star identifier. Three formats are used:
  • nnnn - A ZC star. When reporting occultations, the catalogue is identified with 'R'.
  • nnnnn, or
    nnnnnn - An SAO star. When reporting occultations, the catalogue is identified with 'R'.
  • X nnnnnn - an XZ star. When reporting occultations, the catalogue is identified with 'X'.
D
The double star code
Sp
Star's spectral type. Only basic spectral type information is provided
Mag v
The star's visual magnitude
Mag r
The star's red magnitude. For observers using CCD video cameras, the red magnitude provides a better indication of visibility.
D
The variable star code
% ill
the percent illumination of the moon. If followed by a +, values are for a waxing moon; - for a waning moon; and E for illumination during a lunar eclipse.
Elon
the elongation of the moon from the sun, in degrees. [Strictly, the quantity is calculated as the elongation of the star from the sun]
Sun Alt
the altitude of the sun. The field is blank if the sun is lower than -12 deg. (Nautical twilight)
Moon Alt
the altitude of the moon
Moon Az
the azimuth of the moon
CA
Cusp Angle - the angle of the event around the limb of the moon, measured from the nearest cusp. -'ve values indicate a bright limb event. The cusps are usually N (north) or S (south), but near full moon can be E (East) or W (west).

If a lunar eclipse is in progress, CA gives is the % distance from the centre of the umbra, and is followed by a 'U'. Values up to 103% are possible. Where an event occurs more than 103% of the umbral radius, the usual Cusp Angle value is displayed.
PA
Position Angle - the angle of the event around the limb of the moon, measured from true north




Occultation prediction for DELHI India for June 2011


Occultation prediction for DELHI India for June 2011


    day  Time   P   Star  Sp  Mag  Mag    % Elon Sun  Moon   CA   PA
  m  d  h  m  s      No  D     v    r V  ill     Alt Alt Az   o    o
Jun  3 14  2  9 d     928 K4  5.9  5.1S   3+  19  -4 13 288  73N  77
    928 = NSV 16789, 5.93, , Type VAR:
Jun  4 15 19 46 d   79097 G5  8.9  8.4    8+  32      7 289  47N  58
Jun  5 14 27  0 d   97470 K5  8.0  7.2   14+  44  -9 27 275  19S 176
Jun  5 15 31 24 d   97522 A5  8.7  8.6   15+  45     14 281  69N  84
Jun  6 14 58 56 d   98240 F8  8.4  8.0   23+  57     30 268  84S 115
Jun  6 15 26 30 d   98244 K0  8.5  7.7   23+  58     24 271  56S 144
Jun  9 12 10 35 d    1670 K4  4.8  4.0   55+  96  19 55 152  81S 122
R1670 = 87 Leonis
Jun 10 14 34  1 d  138786 F2  7.9  7.7   67+ 110 -10 52 192  31N  52
Jun 11 14 38  1 D    1918 K5  6.8  6.1   78+ 124 -10 47 174  37S 162
Jun 13 16 52 53 d    2204 K0  7.7  7.1   94+ 152     39 181  81N  89
Jun 13 17 16 48 d X 39461DK0  7.5  7.0   94+ 152     39 188  47N  55
Jun 15 18 33 12 r X221437    11.2        89E 179     37 176 -36N 283
Jun 15 18 36  9 d X221530    11.5        85E 179     37 176  85U  82
Jun 15 18 36 27 d X221512    11.6        84E 179     38 176  77N  35
Jun 15 18 48 25 r X221461    11.4        62E 179     38 180  -4N 313
Jun 15 18 48 29 r X221472    11.7        62E 179     37 180 -70S 206
Jun 15 18 49 51 D  185487 K2 10.0  9.2   59E 179     37 180  68U  86
Jun 15 18 52  9 R  185460cG5  9.8  9.2   54E 179     37 181 -47N 269
Jun 15 18 56 44 d X221538    11.5        44E 179     38 182  79U  40
Jun 15 18 58 27 r X221459    10.9        41E 179     37 183 -41N 274
Jun 15 18 59 20 d X142716    11.4 11.2   39E 179     38 183  71U  49
Jun 15 19  3  5 r X221464    11.8        31E 179     37 185 -26N 288
Jun 15 19  4 43 R  185466 F2  7.4  7.2s  28E 179     37 185   0N 314
Jun 15 19  4 49 d X142755    11.1 10.7   27E 179     37 184  49U 104
Jun 15 19 11 35 m X221527    11.7        14E 179     37 186  81U 174
Jun 15 19 12  5 r X221486    11.0        13E 179     37 187   2N 314
Jun 15 19 12 40 r X221487    11.3        12E 179     37 187 103U 225
Jun 15 19 21  5 d X142788    11.2 11.0    0E 179     37 189  29U 101
Jun 15 19 21 47 d X142779    11.6 11.0    0E 179     37 189  33U 117
Jun 15 19 23 21 m X221529    11.8         0E 179     37 190  83U 354
Jun 15 19 23 25 D  185497 F2  9.6  9.2    0E 179     37 190  31U 118
Jun 15 19 29 21 r X142606    11.2  9.6    0E 179     36 192  85U 231
Jun 15 19 29 32 d X142796    11.1 10.8    0E 179     37 191  23U 117
Jun 15 19 29 59 D  185501 G3  8.6  8.2    0E 179     37 191  18U 103
Jun 15 19 32 43 D X142802    10.2  9.4    0E 179     36 192  20U 119
Jun 15 19 33  0 D  185505 K0  9.6  9.0    0E 179     37 192  18U  84
Jun 15 19 34 32 r X221512    11.6         0E 179     37 193  82U 314
Jun 15 19 34 50 D X142790    10.9 10.5    0E 179     37 193  41U  44
Jun 15 19 35 57 r X142608    11.7 11.4    0E 179     36 194  83U 294
Jun 15 19 36 21 r X221500    11.6         0E 179     36 194  83U 287
Jun 15 19 38 55 R    2523 A0  4.8  4.8s   0E 179     36 194  80U 279
R2523 = 51 Ophiuchi
Jun 15 19 44 20 r X221516    11.6         0E 179     36 196  73U 298
Jun 15 19 50 31 d X142848    11.5 11.4    0E 179     36 197  31U  55
Jun 15 19 54 33 d X221637    11.5         0E 179     35 198  13U 105
Jun 15 20  1 10 r X221538    11.5         0E 179     35 200  55U 306
Jun 15 20  4 43 r X221530    11.5         0E 179     34 201  48U 265
Jun 15 20 12 30 r X142716    11.4 11.2    0E 179     34 203  44U 296
Jun 15 20 17 40 R  185487 K2 10.0  9.2    0E 179     33 204  31U 260
Jun 15 20 26  2 r X142755    11.1 10.7    0E 179     32 206  17U 241
Jun 15 20 26 42 d X221686    11.2         0E 179     33 206  58U  58
Jun 15 20 26 53 d X142970    11.3 11.0    0E 179     33 206  57U  72
Jun 15 20 28 51 d X142961    11.9 11.6    0E 179     32 206  51U 123
Jun 15 20 31 43 d X221693    11.7         0E 179     32 207  63U  56
Jun 15 20 32  4 r X142779    11.6 11.0    0E 179     32 208  13U 226
Jun 15 20 32 58 R  185497 F2  9.6  9.2    0E 179     32 208  13U 225
Jun 15 20 33 57 d X221667    11.7         0E 179     32 208  62U  27
Jun 15 20 37 36 d X221687    11.6         0E 179     32 209  67U  36
Jun 15 20 39 17 r X142796    11.1 10.8    0E 179     31 209  14U 225
Jun 15 20 40 37 R X142802    10.2  9.4    0E 179     31 210  16U 223
Jun 15 20 42  6 r X142788    11.2 11.0    0E 179     31 210   6U 242
Jun 15 20 43  8 R X142790    10.9 10.5    0E 179     31 210  31U 298
Jun 15 20 48  4 d X221718    11.4         0E 179     31 211  82U  73
Jun 15 20 48 38 D  185529 A3 10.3 10.0    0E 179     31 211  82U  59
Jun 15 20 49 12 R  185501 G3  8.6  8.2    0E 179     30 212  14U 239
Jun 15 20 49 17 m X221647    11.7         0E 179     31 212  66U 349
Jun 15 20 49 57 d X143050    10.9  9.9    0E 179     30 211  85U  80
Jun 15 20 52  4 d X221713    11.5         0E 179     30 212  86U  54
Jun 15 20 52 59 d X143052    11.7 10.3    0E 179     30 212  84U 112
Jun 15 20 53  1 m X221681    11.7         0E 179     30 212  61U 169
Jun 15 20 57 47 R  185505 K0  9.6  9.0    0E 179     29 214  21U 258
Jun 15 21  6 20 r X142848    11.5 11.4    3E 179     28 216  39U 285
Jun 15 21 10 10 r X221637    11.5         8E 179     28 216  41U 235
Jun 15 21 14 30 m X221692    11.1        16E 179     28 217  88U 348
Jun 15 21 19 14 d X143106    11.8 11.4   25E 179     27 218  39N  44
Jun 15 21 19 15 d X143136    11.5 11.3   25E 179     27 218  13N  69
Jun 15 21 23 34 r X221667    11.7        34E 179     26 219  72U 311
Jun 15 21 23 40 D  185530 K1  9.0  8.2   34E 179     26 219  78N   2
Jun 15 21 26  3 D  185546 A5 10.3 10.1   39E 179     26 219  17N  61
Jun 15 21 26  9 r X142961    11.9 11.6   39E 179     26 219  72U 214
Jun 15 21 32 24 d X143176    11.5 10.8   53E 179     25 220 -20N  94
Jun 15 21 36 22 r X221687    11.6        61E 179     24 222  81U 301
Jun 15 21 36 25 d X221795    11.5        61E 179     25 221 -23N  95
Jun 15 21 36 26 D X221791    10.4        61E 179     24 221 -43N 115
Jun 15 21 37 30 d X143184    11.4 10.7   63E 179     24 221   7N  64
Jun 15 21 37 52 d X221794    11.7        64E 179     24 221 -43N 114
Jun 15 21 40 19 d X143206    11.2 10.4   69E 179     24 222 -33N 102
Jun 15 21 40 41 D X 42589 G  10.5 10.1   70E 179     24 222  47N  22
Jun 15 21 41 13 r X221686    11.2        71E 179     24 222  77U 280
Jun 15 21 42 10 R  185530 K1  9.0  8.2   73E 179     24 223  86S 334
Jun 15 21 43 17 m X143124    10.9 10.3   75E 179     23 222 -80S 167
Jun 15 21 43 37 d X143217    11.1 10.5   75E 179     24 222 -16N  83
Jun 15 21 44 43 r X221693    11.7        77E 179     23 223  82U 281
Jun 15 21 45 22 m X143074    10.9  9.9   78E 179     23 223  78N 348
Jun 15 21 45 53 r X142970    11.3 11.0   79E 179     23 223  80U 266
Jun 15 21 47 41 d X221814    11.4        83E 179     23 223 -37N 101
Jun 15 21 52  2 D X 42623 A2 10.9 10.8   89E 179     22 224   6N  56
Jun 19 20  6 47 r    3103 K0  7.6  7.0   83- 131     39 138  45S 204
Jun 21 20 53 51 r    3340cF5  7.7  7.5   65- 108     39 121  70N 266
Jun 24 21 13 26 r     139cG5  8.1  7.6   36-  74     25  91  62N 276
Jun 24 23 13 10 r   92234 F5  8.1  7.9   36-  74  -9 50 108  14S 172
Jun 26 23 23 40 r     395cF5  8.1  7.9   19-  51  -7 37  87  66S 231
Jun 28 22 30 15 Gr    656SA7  4.2  4.1S   6-  29      6  68  -5S 168
Jun 28 22 31 26 R   76595cF2  8.0         6-  29      7  68  32N 321
Jun 28 22 49 10 D     660wA8  4.3  4.1v   6-  28     10  69 -31N  23
R660 = upsilon Tauri
Jun 28 23 23 27 R     660wA8  4.3  4.1v   6-  28  -7 17  73  42N 310
R660 = upsilon Tauri
Jun 29  8 10 36 d     709MB3  4.3         5-  25  72 48 273 -53S 121
R709 = tau Tauri
Jun 29  9 18 21 R     709MB3  4.3         5-  25  57 33 280  78S 252
R709 = tau Tauri
Jun 30  7 49  3 D Venus      -3.8 -3.8    1-  13  77 65 264 -82N  79
Duration of planetary disk occultation: predicted time +/-16.9 secs
Jun 30  9 11 52 R Venus      -3.8 -3.8    1-  13  59 46 274  45N 311
Duration of planetary disk occultation: predicted time +/-14.5 secs



Item
Meaning
Day
The day of the event. Occult searches for events on the basis of geocentric conjunctions that occur within a 24hr - with that period starting at the UT indicated in the date selection box. Users should ensure that the period starts near the middle of their day.
Time
The predicted UTC, in hours, mins and secs.
P
The Phase of the event. Values are:
  • D - disappearance
  • d - disappearance, but star is less than 1 mag brighter than the predicted visibility limit.
  • R - reappearance
  • r - reappearance, but star is less than 1 mag brighter than the predicted visibility limit.
  • Gr - grazing occultation at site. At mid-occultation, or closest approach, the star is less than 4" from the limb of the moon (either above or below).
  • gr - grazing occultation at site, but star is less than 1 mag brighter than the predicted visibility limit.
  • M - miss. At closest approach, the star is more than 4" above the limb of the moon 
  • m - miss, but star is less than 1 mag brighter than the predicted visibility limit.
Star
The star identifier. Three formats are used:
  • nnnn - A ZC star. When reporting occultations, the catalogue is identified with 'R'.
  • nnnnn, or
    nnnnnn - An SAO star. When reporting occultations, the catalogue is identified with 'R'.
  • X nnnnnn - an XZ star. When reporting occultations, the catalogue is identified with 'X'.
D
The double star code
Sp
Star's spectral type. Only basic spectral type information is provided
Mag v
The star's visual magnitude
Mag r
The star's red magnitude. For observers using CCD video cameras, the red magnitude provides a better indication of visibility.
D
The variable star code
% ill
the percent illumination of the moon. If followed by a +, values are for a waxing moon; - for a waning moon; and E for illumination during a lunar eclipse.
Elon
the elongation of the moon from the sun, in degrees. [Strictly, the quantity is calculated as the elongation of the star from the sun]
Sun Alt
the altitude of the sun. The field is blank if the sun is lower than -12 deg. (Nautical twilight)
Moon Alt
the altitude of the moon
Moon Az
the azimuth of the moon
CA
Cusp Angle - the angle of the event around the limb of the moon, measured from the nearest cusp. -'ve values indicate a bright limb event. The cusps are usually N (north) or S (south), but near full moon can be E (East) or W (west).

If a lunar eclipse is in progress, CA gives is the % distance from the centre of the umbra, and is followed by a 'U'. Values up to 103% are possible. Where an event occurs more than 103% of the umbral radius, the usual Cusp Angle value is displayed.
PA
Position Angle - the angle of the event around the limb of the moon, measured from true north