The following table delineates the path of the Moon's umbral shadow during the Total Solar Eclipse of 2037 Jul 13. 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 .
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 39 09.7S 089 05.2E 40 15.7S 089 30.3E 39 42.5S 089 17.6E 1.029 0 - 124 01m49.6s
01:28 34 19.3S 100 12.7E 37 15.4S 096 36.0E 35 41.1S 098 39.8E 1.031 9 55 136 02m09.3s
01:30 32 51.0S 103 36.8E 35 14.4S 101 21.6E 34 00.5S 102 34.7E 1.032 13 52 141 02m19.1s
01:32 31 44.3S 106 13.3E 33 55.3S 104 30.7E 32 48.5S 105 25.3E 1.033 16 50 146 02m26.8s
01:34 30 49.8S 108 23.6E 32 53.9S 106 59.8E 31 51.0S 107 44.0E 1.034 18 49 149 02m33.5s
01:36 30 03.4S 110 16.9E 32 03.3S 109 05.7E 31 02.6S 109 43.1E 1.035 20 47 153 02m39.6s
01:38 29 22.9S 111 57.9E 31 19.9S 110 55.9E 30 20.8S 111 28.4E 1.035 22 46 156 02m45.1s
01:40 28 47.2S 113 29.7E 30 42.1S 112 34.8E 29 44.1S 113 03.5E 1.036 24 44 159 02m50.3s
01:42 28 15.2S 114 54.3E 30 08.5S 114 04.9E 29 11.4S 114 30.7E 1.036 25 43 162 02m55.1s
01:44 27 46.3S 116 13.0E 29 38.5S 115 28.2E 28 42.0S 115 51.5E 1.037 27 41 164 02m59.7s
01:46 27 20.1S 117 26.7E 29 11.4S 116 45.8E 28 15.4S 117 07.1E 1.037 28 40 167 03m04.0s
01:48 26 56.3S 118 36.4E 28 46.9S 117 58.7E 27 51.3S 118 18.3E 1.037 29 39 169 03m08.1s
01:50 26 34.6S 119 42.5E 28 24.6S 119 07.6E 27 29.3S 119 25.7E 1.038 30 38 172 03m12.1s
01:52 26 14.7S 120 45.5E 28 04.3S 120 13.1E 27 09.2S 120 30.0E 1.038 32 36 174 03m15.8s
01:54 25 56.6S 121 45.9E 27 45.8S 121 15.7E 26 50.9S 121 31.4E 1.038 33 35 176 03m19.3s
01:56 25 39.9S 122 44.0E 27 28.9S 122 15.7E 26 34.1S 122 30.4E 1.039 34 34 178 03m22.7s
01:58 25 24.7S 123 40.0E 27 13.5S 123 13.4E 26 18.8S 123 27.2E 1.039 35 33 180 03m25.9s
02:00 25 10.8S 124 34.2E 26 59.4S 124 09.1E 26 04.9S 124 22.1E 1.039 35 31 182 03m29.0s
02:02 24 58.1S 125 26.7E 26 46.6S 125 03.1E 25 52.2S 125 15.3E 1.039 36 30 184 03m31.9s
02:04 24 46.6S 126 17.8E 26 35.1S 125 55.4E 25 40.6S 126 07.0E 1.040 37 29 186 03m34.6s
02:06 24 36.2S 127 07.5E 26 24.6S 126 46.3E 25 30.2S 126 57.3E 1.040 38 27 187 03m37.2s
02:08 24 26.9S 127 56.1E 26 15.2S 127 36.0E 25 20.8S 127 46.4E 1.040 38 26 189 03m39.6s
02:10 24 18.5S 128 43.6E 26 06.8S 128 24.5E 25 12.4S 128 34.4E 1.040 39 25 191 03m41.9s
02:12 24 11.1S 129 30.2E 25 59.4S 129 12.0E 25 05.0S 129 21.4E 1.040 40 23 192 03m44.1s
02:14 24 04.6S 130 15.9E 25 52.9S 129 58.5E 24 58.5S 130 07.5E 1.040 40 22 193 03m46.1s
02:16 23 59.0S 131 00.8E 25 47.3S 130 44.3E 24 52.9S 130 52.8E 1.041 41 20 195 03m47.9s
02:18 23 54.2S 131 45.0E 25 42.5S 131 29.3E 24 48.2S 131 37.4E 1.041 41 19 196 03m49.6s
02:20 23 50.3S 132 28.7E 25 38.6S 132 13.6E 24 44.3S 132 21.3E 1.041 42 18 197 03m51.1s
02:22 23 47.2S 133 11.7E 25 35.6S 132 57.4E 24 41.2S 133 04.7E 1.041 42 16 198 03m52.5s
02:24 23 44.8S 133 54.3E 25 33.3S 133 40.6E 24 38.9S 133 47.7E 1.041 42 15 198 03m53.8s
02:26 23 43.3S 134 36.5E 25 31.7S 134 23.5E 24 37.3S 134 30.2E 1.041 42 13 199 03m54.9s
02:28 23 42.5S 135 18.4E 25 31.0S 135 05.9E 24 36.6S 135 12.3E 1.041 43 12 200 03m55.8s
02:30 23 42.5S 135 59.9E 25 31.0S 135 48.0E 24 36.6S 135 54.1E 1.041 43 10 200 03m56.6s
02:32 23 43.2S 136 41.2E 25 31.8S 136 29.9E 24 37.3S 136 35.6E 1.041 43 9 200 03m57.3s
02:34 23 44.7S 137 22.3E 25 33.3S 137 11.6E 24 38.8S 137 17.0E 1.041 43 7 201 03m57.8s
02:36 23 46.9S 138 03.2E 25 35.5S 137 53.1E 24 41.0S 137 58.2E 1.041 43 6 201 03m58.1s
02:38 23 49.8S 138 44.1E 25 38.4S 138 34.5E 24 43.9S 138 39.3E 1.041 43 4 201 03m58.3s
02:40 23 53.5S 139 24.9E 25 42.1S 139 15.9E 24 47.6S 139 20.4E 1.041 43 3 201 03m58.4s
02:42 23 57.9S 140 05.7E 25 46.6S 139 57.3E 24 52.0S 140 01.5E 1.041 43 1 200 03m58.3s
02:44 24 03.0S 140 46.6E 25 51.7S 140 38.8E 24 57.2S 140 42.7E 1.041 43 360 200 03m58.0s
02:46 24 08.9S 141 27.6E 25 57.6S 141 20.3E 25 03.1S 141 23.9E 1.041 43 358 200 03m57.7s
02:48 24 15.5S 142 08.7E 26 04.2S 142 02.1E 25 09.7S 142 05.4E 1.041 43 357 199 03m57.1s
02:50 24 22.9S 142 50.1E 26 11.6S 142 44.1E 25 17.1S 142 47.0E 1.041 43 355 198 03m56.4s
02:52 24 31.0S 143 31.7E 26 19.8S 143 26.4E 25 25.2S 143 29.0E 1.041 43 354 198 03m55.6s
02:54 24 39.9S 144 13.7E 26 28.7S 144 09.0E 25 34.1S 144 11.2E 1.041 42 352 197 03m54.6s
02:56 24 49.6S 144 56.0E 26 38.5S 144 52.1E 25 43.8S 144 53.9E 1.041 42 351 196 03m53.4s
02:58 25 00.1S 145 38.8E 26 49.0S 145 35.6E 25 54.4S 145 37.0E 1.041 42 349 195 03m52.2s
03:00 25 11.5S 146 22.1E 27 00.4S 146 19.7E 26 05.7S 146 20.7E 1.041 41 348 194 03m50.7s
03:02 25 23.7S 147 05.9E 27 12.7S 147 04.4E 26 17.9S 147 05.0E 1.041 41 346 192 03m49.1s
03:04 25 36.7S 147 50.5E 27 25.8S 147 49.8E 26 31.0S 147 49.9E 1.041 40 345 191 03m47.4s
03:06 25 50.7S 148 35.7E 27 39.9S 148 36.0E 26 45.0S 148 35.6E 1.041 40 343 190 03m45.6s
03:08 26 05.6S 149 21.8E 27 54.9S 149 23.2E 27 00.0S 149 22.2E 1.041 39 342 188 03m43.5s
03:10 26 21.5S 150 08.8E 28 10.9S 150 11.3E 27 16.0S 150 09.8E 1.040 39 341 187 03m41.4s
03:12 26 38.5S 150 56.9E 28 28.0S 151 00.5E 27 32.9S 150 58.4E 1.040 38 339 185 03m39.1s
03:14 26 56.5S 151 46.1E 28 46.2S 151 51.0E 27 51.0S 151 48.2E 1.040 37 338 184 03m36.6s
03:16 27 15.6S 152 36.6E 29 05.5S 152 43.0E 28 10.3S 152 39.4E 1.040 36 337 182 03m34.0s
03:18 27 35.9S 153 28.5E 29 26.1S 153 36.5E 28 30.7S 153 32.1E 1.040 36 335 180 03m31.3s
03:20 27 57.6S 154 22.1E 29 48.1S 154 31.7E 28 52.5S 154 26.4E 1.039 35 334 179 03m28.4s
03:22 28 20.6S 155 17.4E 30 11.5S 155 29.0E 29 15.7S 155 22.7E 1.039 34 332 177 03m25.3s
03:24 28 45.0S 156 14.8E 30 36.4S 156 28.5E 29 40.4S 156 21.1E 1.039 33 331 175 03m22.1s
03:26 29 11.1S 157 14.5E 31 03.1S 157 30.6E 30 06.7S 157 22.0E 1.039 32 330 173 03m18.7s
03:28 29 39.0S 158 16.9E 31 31.6S 158 35.7E 30 34.9S 158 25.6E 1.038 31 328 171 03m15.1s
03:30 30 08.8S 159 22.3E 32 02.2S 159 44.1E 31 05.1S 159 32.5E 1.038 30 327 169 03m11.4s
03:32 30 40.7S 160 31.1E 32 35.2S 160 56.5E 31 37.5S 160 43.0E 1.038 28 326 167 03m07.4s
03:34 31 15.1S 161 44.1E 33 10.8S 162 13.7E 32 12.5S 161 58.0E 1.037 27 324 164 03m03.3s
03:36 31 52.4S 163 02.0E 33 49.6S 163 36.4E 32 50.5S 163 18.1E 1.037 26 323 162 02m58.9s
03:38 32 32.9S 164 25.6E 34 32.1S 165 06.1E 33 31.9S 164 44.7E 1.037 24 321 160 02m54.2s
03:40 33 17.3S 165 56.5E 35 19.1S 166 44.4E 34 17.5S 166 19.0E 1.036 22 320 157 02m49.2s
03:42 34 06.5S 167 36.5E 36 11.8S 168 34.0E 35 08.3S 168 03.4E 1.036 20 318 154 02m43.9s
03:44 35 01.9S 169 28.4E 37 12.0S 170 38.8E 36 05.9S 170 01.3E 1.035 18 317 151 02m38.1s
03:46 36 05.5S 171 36.9E 38 23.1S 173 06.2E 37 12.8S 172 18.3E 1.034 16 315 148 02m31.6s
03:48 37 21.2S 174 10.1E 39 51.5S 176 11.1E 38 34.0S 175 05.2E 1.034 13 312 145 02m24.2s
03:50 38 57.2S 177 26.5E 41 57.4S 179 21.6W 40 21.7S 178 49.4E 1.032 10 310 140 02m15.0s
03:52 41 23.0S 177 28.8W - - 43 48.5S 173 45.2W 1.030 3 304 132 01m59.3s
Limits 44 45.0S 170 06.9W 45 51.0S 170 42.3W 45 17.9S 170 24.3W 1.030 0 - 128 01m53.2s
Instant of Greatest Eclipse: Time = 02:39:13.3 UT Lat = 24°46.1'S Long = 139°04.5'E (GE) Sun Altitude = 43.4° Path Width = 200.7 km Sun Azimuth = 3.3° Central Duration = 03m58.4s Instant of Greatest Duration: Time = 02:39:41 UT Lat = 24°47'S Long = 139°14'E (GD) Sun Altitude = 43.4° Path Width = 200.6 km Sun Azimuth = 2.9° Central Duration = 03m58.4s
Predictions for the Total Solar Eclipse of 2037 Jul 13 were generated using the VSOP87/ELP2000-85 solar and lunar ephemerides and a value of ΔT = 81.9 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,
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
