Path of the Total Solar Eclipse of 2010 Jul 11

Fred Espenak

The following table delineates the path of the Moon's umbral shadow during the Total Solar Eclipse of 2010 Jul 11. 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 an Google Map .


Total Solar Eclipse of 2010 Jul 11

  
                                                                      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  26 02.9S 171 10.6W  27 40.6S 170 48.1W  26 51.4S 170 59.4W  1.044   0   -  179  02m42.4s
 18:18   22 09.2S 161 31.8W  26 31.1S 167 56.9W  23 58.1S 163 49.7W  1.046   7  62  190  03m01.5s
 18:20   20 50.6S 157 58.7W  23 56.9S 161 16.7W  22 19.5S 159 27.0W  1.048  12  60  197  03m15.2s

 18:22   19 55.3S 155 19.1W  22 42.9S 157 48.9W  21 16.9S 156 28.3W  1.049  15  58  203  03m25.3s
 18:24   19 12.5S 153 07.3W  21 50.8S 155 12.0W  20 30.1S 154 05.8W  1.050  18  57  207  03m33.9s
 18:26   18 37.8S 151 13.2W  21 10.4S 153 02.1W  19 53.0S 152 04.7W  1.051  20  56  212  03m41.6s
 18:28   18 09.0S 149 31.5W  20 37.8S 151 09.4W  19 22.5S 150 18.1W  1.051  22  55  216  03m48.6s
 18:30   17 44.7S 147 59.3W  20 10.8S 149 29.0W  18 57.0S 148 42.1W  1.052  24  54  219  03m55.0s
 18:32   17 24.1S 146 34.4W  19 48.2S 147 57.8W  18 35.4S 147 14.4W  1.052  26  53  223  04m01.1s
 18:34   17 06.5S 145 15.5W  19 29.1S 146 34.0W  18 17.2S 145 53.2W  1.053  28  52  226  04m06.8s
 18:36   16 51.5S 144 01.6W  19 12.9S 145 16.0W  18 01.7S 144 37.4W  1.053  29  51  229  04m12.2s
 18:38   16 38.9S 142 51.9W  18 59.2S 144 02.9W  17 48.5S 143 26.1W  1.054  30  50  232  04m17.3s
 18:40   16 28.2S 141 45.7W  18 47.8S 142 54.0W  17 37.5S 142 18.7W  1.054  32  49  235  04m22.2s

 18:42   16 19.3S 140 42.7W  18 38.3S 141 48.6W  17 28.3S 141 14.6W  1.054  33  48  238  04m26.8s
 18:44   16 12.1S 139 42.5W  18 30.5S 140 46.3W  17 20.8S 140 13.4W  1.055  34  47  240  04m31.2s
 18:46   16 06.3S 138 44.6W  18 24.3S 139 46.7W  17 14.9S 139 14.7W  1.055  35  46  243  04m35.4s
 18:48   16 01.9S 137 48.9W  18 19.5S 138 49.4W  17 10.3S 138 18.3W  1.055  36  45  245  04m39.3s
 18:50   15 58.8S 136 55.1W  18 16.1S 137 54.3W  17 07.1S 137 23.9W  1.055  37  43  247  04m43.1s
 18:52   15 56.9S 136 03.0W  18 13.9S 137 01.1W  17 05.0S 136 31.3W  1.056  38  42  249  04m46.7s
 18:54   15 56.2S 135 12.5W  18 12.8S 136 09.6W  17 04.1S 135 40.4W  1.056  39  41  251  04m50.1s
 18:56   15 56.5S 134 23.4W  18 12.9S 135 19.6W  17 04.3S 134 50.9W  1.056  40  40  253  04m53.3s
 18:58   15 57.8S 133 35.6W  18 14.0S 134 31.0W  17 05.5S 134 02.7W  1.056  41  39  254  04m56.3s
 19:00   16 00.1S 132 48.9W  18 16.0S 133 43.6W  17 07.7S 133 15.7W  1.057  41  38  256  04m59.1s

 19:02   16 03.3S 132 03.3W  18 19.0S 132 57.4W  17 10.8S 132 29.9W  1.057  42  36  257  05m01.8s
 19:04   16 07.4S 131 18.7W  18 23.0S 132 12.2W  17 14.8S 131 45.0W  1.057  43  35  258  05m04.2s
 19:06   16 12.3S 130 35.0W  18 27.7S 131 27.9W  17 19.7S 131 01.0W  1.057  43  34  259  05m06.5s
 19:08   16 18.1S 129 52.0W  18 33.4S 130 44.5W  17 25.4S 130 17.9W  1.057  44  32  260  05m08.6s
 19:10   16 24.7S 129 09.8W  18 39.8S 130 01.9W  17 31.9S 129 35.5W  1.057  44  31  261  05m10.6s
 19:12   16 32.1S 128 28.3W  18 47.0S 129 19.9W  17 39.3S 128 53.7W  1.057  45  30  261  05m12.3s
 19:14   16 40.3S 127 47.3W  18 55.1S 128 38.6W  17 47.3S 128 12.6W  1.057  45  28  262  05m13.9s
 19:16   16 49.3S 127 06.9W  19 03.8S 127 57.8W  17 56.2S 127 32.1W  1.058  46  27  262  05m15.3s
 19:18   16 58.9S 126 27.0W  19 13.4S 127 17.6W  18 05.8S 126 52.0W  1.058  46  25  262  05m16.5s
 19:20   17 09.4S 125 47.5W  19 23.6S 126 37.8W  18 16.1S 126 12.4W  1.058  46  24  262  05m17.6s

 19:22   17 20.5S 125 08.4W  19 34.6S 125 58.4W  18 27.2S 125 33.2W  1.058  46  22  262  05m18.5s
 19:24   17 32.4S 124 29.7W  19 46.3S 125 19.3W  18 39.0S 124 54.3W  1.058  47  21  262  05m19.2s
 19:26   17 45.0S 123 51.2W  19 58.7S 124 40.5W  18 51.5S 124 15.7W  1.058  47  19  261  05m19.7s
 19:28   17 58.2S 123 13.0W  20 11.9S 124 02.0W  19 04.7S 123 37.3W  1.058  47  18  261  05m20.1s
 19:30   18 12.2S 122 35.0W  20 25.7S 123 23.7W  19 18.6S 122 59.2W  1.058  47  16  260  05m20.3s
 19:32   18 27.0S 121 57.1W  20 40.3S 122 45.5W  19 33.2S 122 21.2W  1.058  47  15  259  05m20.3s
 19:34   18 42.4S 121 19.4W  20 55.6S 122 07.4W  19 48.6S 121 43.3W  1.058  47  13  258  05m20.2s
 19:36   18 58.5S 120 41.7W  21 11.6S 121 29.3W  20 04.6S 121 05.4W  1.058  47  12  257  05m19.9s
 19:38   19 15.3S 120 04.0W  21 28.3S 120 51.3W  20 21.4S 120 27.6W  1.058  47  10  256  05m19.4s
 19:40   19 32.9S 119 26.3W  21 45.8S 120 13.2W  20 38.9S 119 49.8W  1.058  47   8  255  05m18.8s

 19:42   19 51.2S 118 48.6W  22 04.0S 119 35.1W  20 57.2S 119 11.8W  1.058  47   7  254  05m18.0s
 19:44   20 10.2S 118 10.8W  22 23.0S 118 56.7W  21 16.1S 118 33.8W  1.058  47   5  253  05m17.1s
 19:46   20 30.0S 117 32.7W  22 42.7S 118 18.2W  21 35.9S 117 55.5W  1.058  46   4  252  05m16.0s
 19:48   20 50.6S 116 54.5W  23 03.2S 117 39.5W  21 56.4S 117 17.1W  1.058  46   2  250  05m14.7s
 19:50   21 11.9S 116 16.0W  23 24.5S 117 00.4W  22 17.7S 116 38.3W  1.058  46   1  249  05m13.3s
 19:52   21 34.0S 115 37.2W  23 46.6S 116 21.0W  22 39.8S 115 59.2W  1.058  45 359  247  05m11.7s
 19:54   21 56.9S 114 58.1W  24 09.6S 115 41.2W  23 02.8S 115 19.8W  1.058  45 358  246  05m10.0s
 19:56   22 20.7S 114 18.5W  24 33.4S 115 00.9W  23 26.6S 114 39.8W  1.058  44 356  244  05m08.1s
 19:58   22 45.4S 113 38.3W  24 58.2S 114 20.0W  23 51.2S 113 59.3W  1.057  44 355  243  05m06.1s
 20:00   23 10.9S 112 57.7W  25 23.8S 113 38.5W  24 16.8S 113 18.3W  1.057  43 353  241  05m03.9s

 20:02   23 37.4S 112 16.3W  25 50.5S 112 56.2W  24 43.4S 112 36.5W  1.057  43 352  239  05m01.6s
 20:04   24 04.8S 111 34.3W  26 18.2S 112 13.2W  25 10.9S 111 54.0W  1.057  42 350  238  04m59.1s
 20:06   24 33.3S 110 51.4W  26 46.9S 111 29.2W  25 39.5S 111 10.6W  1.057  42 349  236  04m56.5s
 20:08   25 02.8S 110 07.6W  27 16.7S 110 44.2W  26 09.1S 110 26.3W  1.057  41 348  234  04m53.7s
 20:10   25 33.4S 109 22.8W  27 47.7S 109 58.1W  26 39.9S 109 40.8W  1.057  40 346  233  04m50.8s
 20:12   26 05.2S 108 36.9W  28 20.0S 109 10.7W  27 11.9S 108 54.2W  1.056  39 345  231  04m47.7s
 20:14   26 38.3S 107 49.6W  28 53.6S 108 21.8W  27 45.2S 108 06.1W  1.056  38 343  229  04m44.4s
 20:16   27 12.7S 107 00.9W  29 28.6S 107 31.3W  28 19.9S 107 16.6W  1.056  38 342  227  04m41.0s
 20:18   27 48.5S 106 10.6W  30 05.2S 106 39.0W  28 56.1S 106 25.3W  1.056  37 341  226  04m37.5s
 20:20   28 25.8S 105 18.4W  30 43.4S 105 44.6W  29 33.8S 105 32.1W  1.056  36 339  224  04m33.7s

 20:22   29 04.8S 104 24.2W  31 23.4S 104 47.9W  30 13.3S 104 36.7W  1.055  34 338  222  04m29.8s
 20:24   29 45.6S 103 27.6W  32 05.5S 103 48.5W  30 54.6S 103 38.8W  1.055  33 337  220  04m25.7s
 20:26   30 28.4S 102 28.3W  32 49.7S 102 45.9W  31 38.1S 102 38.0W  1.055  32 335  218  04m21.5s
 20:28   31 13.4S 101 25.9W  33 36.4S 101 39.8W  32 23.9S 101 33.8W  1.054  31 334  216  04m17.0s
 20:30   32 00.8S 100 19.9W  34 25.9S 100 29.5W  33 12.3S 100 25.8W  1.054  30 332  214  04m12.3s
 20:32   32 51.1S 099 09.7W  35 18.7S 099 14.1W  34 03.7S 099 13.1W  1.054  28 331  212  04m07.4s
 20:34   33 44.6S 097 54.4W  36 15.2S 097 52.6W  34 58.6S 097 55.0W  1.053  27 330  210  04m02.2s
 20:36   34 41.9S 096 33.1W  37 16.2S 096 23.6W  35 57.6S 096 30.1W  1.053  25 328  208  03m56.6s
 20:38   35 43.8S 095 04.2W  38 22.8S 094 45.1W  37 01.6S 094 56.8W  1.052  23 327  206  03m50.8s
 20:40   36 51.1S 093 25.7W  39 36.4S 092 54.1W  38 11.8S 093 12.6W  1.052  21 325  204  03m44.4s

 20:42   38 05.7S 091 34.6W  40 59.5S 090 45.7W  39 30.2S 091 13.8W  1.051  19 323  201  03m37.6s
 20:44   39 29.8S 089 26.0W  42 36.5S 088 11.1W  40 59.9S 088 53.9W  1.050  17 321  198  03m29.9s
 20:46   41 08.0S 086 51.0W  44 36.7S 084 51.0W  42 47.1S 086 00.3W  1.049  14 318  195  03m21.1s
 20:48   43 09.9S 083 29.6W  47 32.1S 079 38.8W  45 08.0S 082 00.1W  1.048  10 315  191  03m10.0s
 20:50   46 09.8S 078 11.2W     -         -      50 28.5S 071 44.2W  1.045   1 307  183  02m46.9s

 Limits  50 07.6S 070 19.5W  51 35.5S 071 33.6W  50 51.4S 070 55.7W  1.045   0   -  183  02m45.4s

ΔT = 66.2 seconds


Greatest Eclipse and Greatest Duration


   Instant of 
Greatest Eclipse:       Time =  19:33:31.2 UT       Lat = 19°44.8'S      Long = 121°52.4'W
      (GE)               Sun Altitude =  47.1°          Path Width = 258.6 km
                          Sun Azimuth =  13.5°    Central Duration =   05m20.2s


   Instant of 
Greatest Duration:      Time =    19:31:25 UT       Lat =   19°29'S      Long =   122°32'W
      (GD)               Sun Altitude =  47.1°          Path Width = 259.5 km
                          Sun Azimuth =  15.1°    Central Duration =   05m20.3s


Links for the Total Solar Eclipse of 2010 Jul 11


Eclipse Predictions

Predictions for the Total Solar Eclipse of 2010 Jul 11 were generated using the VSOP87/ELP2000-85 solar and lunar ephemerides and a value of ΔT = 66.2 seconds.

The eclipse predictions presented here DO NOT include the effects of mountains and valleys along the edge of the Moon. Such corrections for the lunar limb profile may shift the limits of the eclipse path north or south by ~1-3 kilometers, and change the eclipse duration by ~1-3 seconds. More detailed predictions including the effects of the lunar limb profile are normally posted 12-18 months before each eclipse,

Acknowledgments

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


More Solar Eclipse Links

2014 Feb 26