Path of the Total Solar Eclipse of 1133 Aug 02

Fred Espenak

The following table delineates the path of the Moon's umbral shadow during the Total Solar Eclipse of 1133 Aug 02 . The geographic coordinates (WGS 84) of the northern and southern limits and the central line are listed at 120-second intervals. This provides adequate detail for making plots of the path on larger scale maps. Local circumstances on the central line include the ratio of the apparent diameters of the Moon to the Sun, the Sun's altitude and azimuth (degrees), the path width (kilometers) and the duration on the central line (minutes and seconds).

The global visibility of the eclipse is shown on an Orthographic Map . The features of this map are described in the Key to Solar Eclipse Path Tables. The path of the eclipse is displayed in greater detail on a Google Map .


Total Solar Eclipse of 1133 Aug 02

  
                                                                      M:S                 Central
Universal  Northern Limit      Southern Limit       Central Line     Diam.  Sun Sun Path   Line
         ------------------  ------------------  ------------------  Ratio  Alt Azm Width Durat.
  Time   Latitude Longitude  Latitude Longitude  Latitude Longitude
          °   ´     °   ´      °   ´     °   ´      °   ´     °   ´            °   °   km
  
 Limits  53 35.9N 092 51.9W  52 02.0N 091 01.1W  52 48.8N 091 55.4W  1.050   0   -  212  02m29.8s

 10:42      -         -      55 09.4N 079 41.6W  53 33.3N 089 30.8W  1.050   2  64  213  02m33.0s
 10:44   56 49.2N 081 38.5W  56 59.0N 071 14.2W  57 06.8N 075 47.5W  1.053  10  76  221  02m51.4s
 10:46   58 47.0N 072 54.3W  58 01.6N 065 07.1W  58 29.5N 068 42.6W  1.055  15  83  224  03m00.8s
 10:48   59 55.0N 066 31.2W  58 43.4N 059 59.1W  59 22.3N 063 02.2W  1.056  18  88  226  03m08.3s
 10:50   60 40.6N 061 07.2W  59 12.3N 055 26.9W  59 58.6N 058 06.4W  1.056  21  93  227  03m14.8s
 10:52   61 12.4N 056 19.0W  59 32.0N 051 19.8W  60 23.6N 053 40.1W  1.057  23  98  229  03m20.6s
 10:54   61 34.1N 051 56.0W  59 44.6N 047 32.1W  60 40.4N 049 35.8W  1.058  25 102  230  03m25.9s
 10:56   61 48.2N 047 52.7W  59 51.6N 044 00.1W  60 50.6N 045 49.0W  1.058  27 106  231  03m30.8s
 10:58   61 56.0N 044 05.5W  59 53.8N 040 41.5W  60 55.3N 042 16.9W  1.059  29 110  232  03m35.4s
 11:00   61 58.7N 040 32.3W  59 52.0N 037 34.6W  60 55.6N 038 57.5W  1.059  31 114  233  03m39.6s

 11:02   61 57.0N 037 11.4W  59 46.8N 034 38.0W  60 51.9N 035 49.4W  1.060  32 117  233  03m43.7s
 11:04   61 51.5N 034 01.6W  59 38.6N 031 50.9W  60 45.0N 032 51.6W  1.060  34 121  234  03m47.5s
 11:06   61 42.7N 031 01.9W  59 27.8N 029 12.4W  60 35.1N 030 03.1W  1.061  35 124  235  03m51.1s
 11:08   61 31.1N 028 11.6W  59 14.6N 026 41.8W  60 22.6N 027 23.2W  1.061  37 128  235  03m54.6s
 11:10   61 16.9N 025 30.0W  58 59.5N 024 18.6W  60 07.9N 024 51.2W  1.061  38 131  236  03m57.8s
 11:12   61 00.5N 022 56.6W  58 42.4N 022 02.2W  59 51.1N 022 26.8W  1.062  39 134  237  04m00.9s
 11:14   60 42.1N 020 30.7W  58 23.8N 019 52.1W  59 32.5N 020 09.2W  1.062  41 137  237  04m03.9s
 11:16   60 21.9N 018 11.9W  58 03.6N 017 48.1W  59 12.3N 017 58.2W  1.062  42 140  238  04m06.7s
 11:18   60 00.1N 015 59.8W  57 42.2N 015 49.6W  58 50.7N 015 53.2W  1.062  43 143  238  04m09.3s
 11:20   59 36.9N 013 54.0W  57 19.5N 013 56.3W  58 27.7N 013 54.0W  1.063  44 146  239  04m11.9s

 11:22   59 12.4N 011 54.0W  56 55.7N 012 08.0W  58 03.6N 012 00.1W  1.063  45 149  240  04m14.3s
 11:24   58 46.7N 009 59.5W  56 31.0N 010 24.2W  57 38.4N 010 11.2W  1.063  46 152  240  04m16.5s
 11:26   58 20.0N 008 10.2W  56 05.3N 008 44.8W  57 12.2N 008 27.1W  1.063  47 154  241  04m18.7s
 11:28   57 52.4N 006 25.7W  55 38.8N 007 09.5W  56 45.2N 006 47.4W  1.064  48 157  241  04m20.7s
 11:30   57 23.9N 004 45.8W  55 11.6N 005 38.0W  56 17.3N 005 11.9W  1.064  49 160  242  04m22.6s
 11:32   56 54.6N 003 10.1W  54 43.6N 004 10.1W  55 48.7N 003 40.3W  1.064  49 163  242  04m24.4s
 11:34   56 24.6N 001 38.5W  54 15.1N 002 45.6W  55 19.5N 002 12.3W  1.064  50 165  243  04m26.0s
 11:36   55 54.0N 000 10.6W  53 45.9N 001 24.3W  54 49.6N 000 47.8W  1.064  51 168  243  04m27.6s
 11:38   55 22.8N 001 13.8E  53 16.2N 000 05.9W  54 19.2N 000 33.4E  1.064  52 171  244  04m29.0s
 11:40   54 51.1N 002 34.8E  52 46.0N 001 09.6E  53 48.3N 001 51.7E  1.064  52 173  244  04m30.3s

 11:42   54 18.9N 003 52.8E  52 15.4N 002 22.5E  53 16.9N 003 07.0E  1.065  53 176  245  04m31.5s
 11:44   53 46.2N 005 07.9E  51 44.3N 003 32.9E  52 45.0N 004 19.7E  1.065  53 179  245  04m32.6s
 11:46   53 13.1N 006 20.3E  51 12.8N 004 40.9E  52 12.7N 005 29.8E  1.065  54 182  246  04m33.6s
 11:48   52 39.6N 007 30.1E  50 41.0N 005 46.8E  51 40.1N 006 37.6E  1.065  54 184  247  04m34.5s
 11:50   52 05.8N 008 37.5E  50 08.7N 006 50.6E  51 07.1N 007 43.2E  1.065  55 187  247  04m35.3s
 11:52   51 31.6N 009 42.8E  49 36.2N 007 52.5E  50 33.7N 008 46.7E  1.065  55 190  248  04m36.0s
 11:54   50 57.1N 010 45.9E  49 03.3N 008 52.5E  50 00.0N 009 48.3E  1.065  56 192  248  04m36.6s
 11:56   50 22.3N 011 47.1E  48 30.1N 009 50.9E  49 26.1N 010 48.0E  1.065  56 195  249  04m37.0s
 11:58   49 47.2N 012 46.4E  47 56.7N 010 47.6E  48 51.8N 011 46.1E  1.065  56 198  249  04m37.4s
 12:00   49 11.8N 013 44.1E  47 22.9N 011 42.9E  48 17.3N 012 42.5E  1.065  56 201  250  04m37.7s

 12:02   48 36.2N 014 40.2E  46 48.9N 012 36.8E  47 42.5N 013 37.5E  1.065  57 203  251  04m37.9s
 12:04   48 00.4N 015 34.8E  46 14.6N 013 29.3E  47 07.4N 014 31.1E  1.065  57 206  251  04m38.0s
 12:06   47 24.3N 016 28.1E  45 40.1N 014 20.7E  46 32.1N 015 23.4E  1.065  57 209  252  04m37.9s
 12:08   46 47.9N 017 20.0E  45 05.3N 015 11.0E  45 56.6N 016 14.5E  1.065  57 211  252  04m37.8s
 12:10   46 11.3N 018 10.9E  44 30.3N 016 00.2E  45 20.8N 017 04.6E  1.065  57 214  253  04m37.6s
 12:12   45 34.6N 019 00.6E  43 55.0N 016 48.5E  44 44.8N 017 53.6E  1.065  57 217  253  04m37.3s
 12:14   44 57.5N 019 49.4E  43 19.5N 017 35.9E  44 08.6N 018 41.7E  1.065  57 219  254  04m36.9s
 12:16   44 20.3N 020 37.3E  42 43.8N 018 22.5E  43 32.1N 019 28.9E  1.065  57 222  255  04m36.4s
 12:18   43 42.8N 021 24.3E  42 07.8N 019 08.3E  42 55.4N 020 15.4E  1.065  56 224  255  04m35.8s
 12:20   43 05.1N 022 10.7E  41 31.6N 019 53.5E  42 18.4N 021 01.2E  1.065  56 227  256  04m35.1s

 12:22   42 27.2N 022 56.4E  40 55.2N 020 38.2E  41 41.3N 021 46.3E  1.065  56 229  256  04m34.4s
 12:24   41 49.1N 023 41.5E  40 18.5N 021 22.3E  41 03.9N 022 31.0E  1.065  56 232  257  04m33.5s
 12:26   41 10.7N 024 26.1E  39 41.6N 022 06.0E  40 26.2N 023 15.1E  1.065  55 234  258  04m32.5s
 12:28   40 32.1N 025 10.3E  39 04.4N 022 49.3E  39 48.3N 023 58.9E  1.065  55 236  258  04m31.5s
 12:30   39 53.2N 025 54.1E  38 26.9N 023 32.3E  39 10.2N 024 42.3E  1.065  54 239  259  04m30.3s
 12:32   39 14.1N 026 37.7E  37 49.2N 024 15.1E  38 31.8N 025 25.5E  1.065  54 241  259  04m29.1s
 12:34   38 34.7N 027 21.2E  37 11.2N 024 57.7E  37 53.1N 026 08.5E  1.064  53 243  260  04m27.8s
 12:36   37 55.0N 028 04.4E  36 32.9N 025 40.2E  37 14.1N 026 51.4E  1.064  53 245  260  04m26.4s
 12:38   37 15.1N 028 47.7E  35 54.3N 026 22.7E  36 34.9N 027 34.3E  1.064  52 247  261  04m24.9s
 12:40   36 34.8N 029 31.0E  35 15.4N 027 05.3E  35 55.3N 028 17.3E  1.064  51 249  261  04m23.3s

 12:42   35 54.2N 030 14.5E  34 36.2N 027 47.9E  35 15.4N 029 00.3E  1.064  51 251  262  04m21.6s
 12:44   35 13.3N 030 58.2E  33 56.7N 028 30.8E  34 35.2N 029 43.6E  1.064  50 253  262  04m19.8s
 12:46   34 32.0N 031 42.2E  33 16.8N 029 14.0E  33 54.6N 030 27.2E  1.064  49 255  263  04m17.9s
 12:48   33 50.3N 032 26.6E  32 36.5N 029 57.6E  33 13.6N 031 11.2E  1.063  48 256  263  04m16.0s
 12:50   33 08.3N 033 11.6E  31 55.8N 030 41.7E  32 32.3N 031 55.7E  1.063  48 258  263  04m13.9s
 12:52   32 25.8N 033 57.1E  31 14.7N 031 26.4E  31 50.5N 032 40.9E  1.063  47 260  264  04m11.7s
 12:54   31 42.8N 034 43.5E  30 33.1N 032 11.7E  31 08.2N 033 26.7E  1.063  46 261  264  04m09.5s
 12:56   30 59.3N 035 30.7E  29 51.1N 032 57.9E  30 25.5N 034 13.4E  1.062  45 263  264  04m07.1s
 12:58   30 15.3N 036 19.0E  29 08.5N 033 45.0E  29 42.2N 035 01.1E  1.062  44 264  264  04m04.6s
 13:00   29 30.7N 037 08.4E  28 25.4N 034 33.2E  28 58.4N 035 49.9E  1.062  43 266  264  04m02.0s

 13:02   28 45.4N 037 59.3E  27 41.7N 035 22.7E  28 13.9N 036 40.0E  1.062  41 267  264  03m59.3s
 13:04   27 59.5N 038 51.7E  26 57.3N 036 13.6E  27 28.7N 037 31.7E  1.061  40 268  264  03m56.5s
 13:06   27 12.8N 039 46.0E  26 12.2N 037 06.1E  26 42.9N 038 25.1E  1.061  39 270  263  03m53.6s
 13:08   26 25.2N 040 42.4E  25 26.3N 038 00.6E  25 56.2N 039 20.4E  1.061  38 271  263  03m50.5s
 13:10   25 36.7N 041 41.2E  24 39.6N 038 57.2E  25 08.5N 040 18.1E  1.060  36 272  262  03m47.3s
 13:12   24 47.1N 042 42.9E  23 51.9N 039 56.3E  24 19.9N 041 18.4E  1.060  35 273  261  03m44.0s
 13:14   23 56.2N 043 47.9E  23 03.1N 040 58.3E  23 30.1N 042 21.9E  1.060  34 274  260  03m40.5s
 13:16   23 04.0N 044 56.8E  22 13.0N 042 03.7E  22 39.0N 043 28.9E  1.059  32 275  259  03m36.8s
 13:18   22 10.1N 046 10.3E  21 21.6N 043 13.1E  21 46.4N 044 40.3E  1.059  30 276  258  03m32.9s
 13:20   21 14.3N 047 29.6E  20 28.5N 044 27.2E  20 52.0N 045 56.8E  1.058  29 278  256  03m28.8s

 13:22   20 16.1N 048 55.8E  19 33.5N 045 47.1E  19 55.5N 047 19.7E  1.058  27 279  254  03m24.4s
 13:24   19 15.0N 050 31.0E  18 36.1N 047 14.2E  18 56.4N 048 50.5E  1.057  25 280  251  03m19.8s
 13:26   18 10.1N 052 17.9E  17 35.8N 048 50.3E  17 53.9N 050 31.5E  1.056  23 281  248  03m14.7s
 13:28   17 00.0N 054 21.4E  16 31.7N 050 38.4E  16 47.1N 052 26.5E  1.056  20 281  244  03m09.1s
 13:30   15 42.0N 056 50.0E  15 22.3N 052 43.2E  15 34.0N 054 41.6E  1.055  17 282  240  03m02.9s
 13:32   14 10.2N 060 03.9E  14 05.2N 055 13.6E  14 10.8N 057 29.7E  1.054  14 283  234  02m55.5s
 13:34   11 59.1N 065 28.8E  12 34.2N 058 30.3E  12 26.8N 061 27.3E  1.052   9 285  226  02m45.9s

 Limits  10 21.3N 070 25.0E  08 40.6N 069 25.5E  09 30.7N 069 54.9E  1.049   0   -  209  02m28.1s

ΔT = 947.9 seconds


Return To Solar Eclipses of Historical Interest


Acknowledgments

Predictions for the Total Solar Eclipse of 1133 Aug 02 were generated using the VSOP87/ELP2000-82 solar and lunar ephemerides and a value of ΔT = 947.9 seconds. The accuracy of the northern and southern edges of the eclipse path are limited to approximately 1-2 kilometers due to the lunar limb profile.

All eclipse calculations are by Fred Espenak, and he assumes full responsibility for their accuracy. Permission is freely granted to reproduce this data when accompanied by an acknowledgment:

"Eclipse Predictions by Fred Espenak, NASA's GSFC"

For more information, see: NASA Copyright Information

2009 Jun 11