The following table delineates the path of the Moon's umbral shadow during the Total Solar Eclipse of 1910 May 09 . The geographic coordinates (WGS 84) of the northern and southern limits and the central line are listed at 60-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 .
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 72 52.1S 105 03.0E 72 00.0S 119 16.3E 72 37.7S 111 54.5E 1.054 0 - 486 03m17.2s
05:09 63 18.1S 107 42.1E - - 71 47.6S 111 30.4E 1.054 1 351 484 03m19.5s
05:10 62 11.6S 108 20.2E - - 68 01.3S 111 02.6E 1.055 5 351 481 03m29.9s
05:11 61 12.0S 108 56.6E - - 66 09.5S 111 22.8E 1.056 6 350 482 03m35.1s
05:12 60 17.6S 109 31.5E - - 64 43.7S 111 49.1E 1.056 8 350 483 03m39.1s
05:13 59 27.5S 110 05.1E - - 63 31.6S 112 17.2E 1.057 9 349 485 03m42.5s
05:14 58 40.7S 110 37.7E 69 09.3S 117 28.9E 62 28.3S 112 45.9E 1.057 10 348 487 03m45.4s
05:15 57 56.7S 111 09.2E 67 00.5S 117 05.2E 61 31.4S 113 14.6E 1.057 11 347 490 03m48.1s
05:16 57 15.3S 111 40.0E 65 30.1S 117 09.0E 60 39.5S 113 43.2E 1.058 11 347 492 03m50.5s
05:17 56 35.9S 112 10.0E 64 16.4S 117 22.0E 59 51.4S 114 11.6E 1.058 12 346 495 03m52.7s
05:18 55 58.4S 112 39.3E 63 12.7S 117 39.5E 59 06.5S 114 39.6E 1.058 13 345 498 03m54.7s
05:19 55 22.6S 113 08.1E 62 15.9S 117 59.6E 58 24.3S 115 07.3E 1.058 13 345 501 03m56.6s
05:20 54 48.3S 113 36.4E 61 24.4S 118 21.2E 57 44.5S 115 34.8E 1.058 14 344 505 03m58.3s
05:21 54 15.4S 114 04.2E 60 36.9S 118 43.8E 57 06.7S 116 02.0E 1.059 14 343 508 03m59.9s
05:22 53 43.7S 114 31.7E 59 52.8S 119 07.1E 56 30.7S 116 28.9E 1.059 15 342 512 04m01.4s
05:23 53 13.2S 114 58.7E 59 11.4S 119 30.8E 55 56.3S 116 55.6E 1.059 15 342 515 04m02.9s
05:24 52 43.7S 115 25.5E 58 32.5S 119 54.9E 55 23.4S 117 22.1E 1.059 16 341 519 04m04.2s
05:25 52 15.2S 115 52.0E 57 55.6S 120 19.3E 54 51.8S 117 48.4E 1.059 16 340 523 04m05.4s
05:26 51 47.7S 116 18.3E 57 20.6S 120 43.9E 54 21.5S 118 14.6E 1.059 16 339 527 04m06.5s
05:27 51 21.0S 116 44.4E 56 47.2S 121 08.7E 53 52.2S 118 40.7E 1.059 17 339 531 04m07.6s
05:28 50 55.1S 117 10.3E 56 15.3S 121 33.7E 53 24.0S 119 06.7E 1.059 17 338 535 04m08.6s
05:29 50 30.0S 117 36.1E 55 44.8S 121 58.8E 52 56.8S 119 32.6E 1.060 17 337 539 04m09.5s
05:30 50 05.6S 118 01.7E 55 15.5S 122 24.0E 52 30.4S 119 58.4E 1.060 17 337 543 04m10.3s
05:31 49 41.9S 118 27.3E 54 47.3S 122 49.5E 52 05.0S 120 24.2E 1.060 18 336 548 04m11.1s
05:32 49 18.9S 118 52.8E 54 20.2S 123 15.1E 51 40.3S 120 50.1E 1.060 18 335 552 04m11.8s
05:33 48 56.5S 119 18.3E 53 54.1S 123 40.8E 51 16.4S 121 15.9E 1.060 18 334 556 04m12.4s
05:34 48 34.7S 119 43.7E 53 29.0S 124 06.8E 50 53.3S 121 41.8E 1.060 18 334 561 04m13.0s
05:35 48 13.5S 120 09.2E 53 04.7S 124 32.9E 50 30.8S 122 07.8E 1.060 18 333 565 04m13.5s
05:36 47 52.9S 120 34.7E 52 41.2S 124 59.3E 50 09.0S 122 33.9E 1.060 18 332 569 04m14.0s
05:37 47 32.8S 121 00.2E 52 18.6S 125 25.9E 49 47.9S 123 00.0E 1.060 19 332 574 04m14.3s
05:38 47 13.2S 121 25.9E 51 56.8S 125 52.8E 49 27.4S 123 26.4E 1.060 19 331 578 04m14.6s
05:39 46 54.2S 121 51.6E 51 35.6S 126 20.0E 49 07.5S 123 52.8E 1.060 19 330 582 04m14.9s
05:40 46 35.7S 122 17.5E 51 15.2S 126 47.4E 48 48.1S 124 19.5E 1.060 19 329 586 04m15.1s
05:41 46 17.7S 122 43.5E 50 55.5S 127 15.2E 48 29.4S 124 46.4E 1.060 19 329 590 04m15.2s
05:42 46 00.1S 123 09.6E 50 36.4S 127 43.4E 48 11.2S 125 13.5E 1.060 19 328 594 04m15.3s
05:43 45 43.1S 123 36.0E 50 18.0S 128 12.0E 47 53.6S 125 40.9E 1.060 19 327 598 04m15.3s
05:44 45 26.5S 124 02.5E 50 00.3S 128 41.0E 47 36.5S 126 08.5E 1.060 19 327 602 04m15.2s
05:45 45 10.3S 124 29.3E 49 43.2S 129 10.4E 47 19.9S 126 36.5E 1.060 19 326 605 04m15.1s
05:46 44 54.6S 124 56.4E 49 26.7S 129 40.4E 47 03.8S 127 04.8E 1.060 19 325 609 04m14.9s
05:47 44 39.4S 125 23.8E 49 10.8S 130 10.9E 46 48.3S 127 33.6E 1.060 19 324 612 04m14.7s
05:48 44 24.7S 125 51.4E 48 55.6S 130 42.0E 46 33.3S 128 02.7E 1.060 19 324 615 04m14.4s
05:49 44 10.3S 126 19.5E 48 40.9S 131 13.8E 46 18.8S 128 32.3E 1.060 18 323 617 04m14.0s
05:50 43 56.5S 126 47.9E 48 26.9S 131 46.2E 46 04.8S 129 02.4E 1.060 18 322 620 04m13.6s
05:51 43 43.0S 127 16.7E 48 13.6S 132 19.5E 45 51.4S 129 33.0E 1.060 18 322 622 04m13.1s
05:52 43 30.1S 127 45.9E 48 00.8S 132 53.6E 45 38.5S 130 04.2E 1.060 18 321 623 04m12.5s
05:53 43 17.6S 128 15.7E 47 48.8S 133 28.5E 45 26.1S 130 36.1E 1.060 18 320 624 04m11.9s
05:54 43 05.5S 128 45.9E 47 37.4S 134 04.5E 45 14.2S 131 08.6E 1.060 18 319 625 04m11.2s
05:55 42 54.0S 129 16.8E 47 26.7S 134 41.7E 45 02.9S 131 42.0E 1.060 17 319 626 04m10.4s
05:56 42 42.9S 129 48.2E 47 16.7S 135 20.0E 44 52.2S 132 16.1E 1.059 17 318 626 04m09.6s
05:57 42 32.3S 130 20.4E 47 07.5S 135 59.7E 44 42.1S 132 51.1E 1.059 17 317 625 04m08.6s
05:58 42 22.2S 130 53.2E 46 59.1S 136 41.0E 44 32.5S 133 27.2E 1.059 17 316 624 04m07.6s
05:59 42 12.6S 131 26.9E 46 51.6S 137 24.0E 44 23.6S 134 04.3E 1.059 16 316 623 04m06.5s
06:00 42 03.5S 132 01.4E 46 45.0S 138 09.0E 44 15.4S 134 42.6E 1.059 16 315 621 04m05.3s
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
06:01 41 55.0S 132 36.8E 46 39.4S 138 56.2E 44 07.8S 135 22.3E 1.059 15 314 618 04m04.1s
06:02 41 47.1S 133 13.3E 46 34.9S 139 46.1E 44 01.1S 136 03.5E 1.059 15 313 615 04m02.7s
06:03 41 39.8S 133 50.9E 46 31.8S 140 39.1E 43 55.1S 136 46.4E 1.059 15 312 611 04m01.2s
06:04 41 33.2S 134 29.8E 46 30.1S 141 35.8E 43 50.0S 137 31.1E 1.058 14 312 606 03m59.7s
06:05 41 27.2S 135 10.1E 46 30.2S 142 37.1E 43 45.8S 138 18.1E 1.058 14 311 601 03m57.9s
06:06 41 22.0S 135 52.0E 46 32.4S 143 44.2E 43 42.7S 139 07.6E 1.058 13 310 596 03m56.1s
06:07 41 17.6S 136 35.6E 46 37.4S 144 59.0E 43 40.9S 140 00.0E 1.058 12 309 589 03m54.1s
06:08 41 14.1S 137 21.2E 46 46.2S 146 24.6E 43 40.4S 140 55.9E 1.058 12 308 582 03m52.0s
06:09 41 11.5S 138 09.0E 47 00.8S 148 07.1E 43 41.5S 141 56.1E 1.057 11 307 574 03m49.6s
06:10 41 10.0S 138 59.5E 47 26.2S 150 22.1E 43 44.6S 143 01.6E 1.057 10 306 566 03m47.0s
06:11 41 09.7S 139 53.1E 48 42.9S 155 13.3E 43 50.2S 144 14.0E 1.057 9 305 556 03m44.2s
06:12 41 10.9S 140 50.4E - - 43 59.1S 145 35.8E 1.057 8 304 546 03m40.9s
06:13 41 13.8S 141 52.2E - - 44 12.7S 147 11.4E 1.056 7 302 534 03m37.2s
06:14 41 18.7S 142 59.6E - - 44 34.4S 149 10.7E 1.056 6 301 520 03m32.5s
06:15 41 26.2S 144 14.3E - - 45 14.9S 152 07.0E 1.055 3 298 501 03m25.8s
Limits 44 21.0S 156 42.6E 48 51.3S 155 40.5E 46 28.1S 156 16.7E 1.054 0 - 480 03m16.8s
Predictions for the Total Solar Eclipse of 1910 May 09 were generated using the VSOP87/ELP2000-82 solar and lunar ephemerides and a value of ΔT = 10.8 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
