The following table delineates the path of the Moon's umbral shadow during the Total Solar Eclipse of 2041 Apr 30. 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 48 25.1S 046 46.5W 48 33.3S 046 42.7W 48 29.2S 046 44.6W 1.004 0 - 16 00m15.8s
10:16 44 20.4S 034 45.3W 44 44.5S 035 06.6W 44 32.4S 034 55.7W 1.007 9 58 26 00m27.8s
10:18 42 08.6S 029 38.4W 42 32.2S 029 48.2W 42 20.4S 029 43.1W 1.008 14 54 30 00m34.3s
10:20 40 26.2S 026 06.8W 40 50.1S 026 11.0W 40 38.1S 026 08.7W 1.009 17 51 34 00m39.3s
10:22 38 58.4S 023 20.5W 39 22.6S 023 21.0W 39 10.5S 023 20.6W 1.010 20 49 36 00m43.6s
10:24 37 39.8S 021 02.1W 38 04.4S 020 59.6W 37 52.1S 021 00.8W 1.011 23 47 39 00m47.4s
10:26 36 27.9S 019 02.7W 36 52.7S 018 58.0W 36 40.3S 019 00.2W 1.011 25 45 41 00m51.0s
10:28 35 20.9S 017 17.3W 35 46.1S 017 10.7W 35 33.5S 017 13.9W 1.012 27 44 43 00m54.2s
10:30 34 18.0S 015 42.8W 34 43.5S 015 34.6W 34 30.7S 015 38.6W 1.012 29 42 44 00m57.3s
10:32 33 18.5S 014 17.0W 33 44.2S 014 07.3W 33 31.3S 014 12.1W 1.013 31 41 46 01m00.2s
10:34 32 21.7S 012 58.3W 32 47.6S 012 47.4W 32 34.6S 012 52.8W 1.013 33 39 48 01m02.9s
10:36 31 27.3S 011 45.5W 31 53.5S 011 33.5W 31 40.4S 011 39.4W 1.014 34 38 49 01m05.5s
10:38 30 35.1S 010 37.7W 31 01.5S 010 24.7W 30 48.2S 010 31.2W 1.014 36 37 50 01m08.0s
10:40 29 44.7S 009 34.3W 30 11.3S 009 20.3W 29 58.0S 009 27.3W 1.014 37 36 51 01m10.4s
10:42 28 56.0S 008 34.6W 29 22.8S 008 19.8W 29 09.3S 008 27.1W 1.015 39 34 53 01m12.7s
10:44 28 08.8S 007 38.2W 28 35.7S 007 22.6W 28 22.2S 007 30.4W 1.015 40 33 54 01m14.9s
10:46 27 23.0S 006 44.7W 27 50.1S 006 28.4W 27 36.5S 006 36.5W 1.015 41 32 55 01m17.0s
10:48 26 38.4S 005 53.7W 27 05.7S 005 36.8W 26 52.0S 005 45.2W 1.016 43 31 56 01m19.0s
10:50 25 55.0S 005 05.1W 26 22.4S 004 47.5W 26 08.7S 004 56.2W 1.016 44 30 57 01m21.0s
10:52 25 12.7S 004 18.4W 25 40.3S 004 00.3W 25 26.5S 004 09.3W 1.016 45 28 57 01m22.9s
10:54 24 31.4S 003 33.7W 24 59.1S 003 15.0W 24 45.2S 003 24.3W 1.016 46 27 58 01m24.7s
10:56 23 51.0S 002 50.6W 24 18.8S 002 31.4W 24 04.9S 002 41.0W 1.017 47 26 59 01m26.5s
10:58 23 11.5S 002 09.0W 23 39.5S 001 49.4W 23 25.5S 001 59.1W 1.017 48 25 60 01m28.1s
11:00 22 32.8S 001 28.7W 23 00.9S 001 08.7W 22 46.8S 001 18.7W 1.017 49 23 61 01m29.8s
11:02 21 54.9S 000 49.7W 22 23.1S 000 29.3W 22 09.0S 000 39.5W 1.017 50 22 61 01m31.3s
11:04 21 17.8S 000 11.9W 21 46.1S 000 08.9E 21 31.9S 000 01.5W 1.017 51 21 62 01m32.8s
11:06 20 41.3S 000 25.0E 21 09.8S 000 46.1E 20 55.5S 000 35.6E 1.017 52 19 63 01m34.2s
11:08 20 05.5S 001 00.9E 20 34.1S 001 22.3E 20 19.8S 001 11.6E 1.018 53 18 63 01m35.6s
11:10 19 30.4S 001 36.0E 19 59.1S 001 57.7E 19 44.7S 001 46.8E 1.018 54 17 64 01m36.9s
11:12 18 55.9S 002 10.2E 19 24.7S 002 32.2E 19 10.3S 002 21.3E 1.018 55 15 65 01m38.2s
11:14 18 21.9S 002 43.8E 18 50.9S 003 06.0E 18 36.4S 002 55.0E 1.018 56 14 65 01m39.4s
11:16 17 48.6S 003 16.8E 18 17.6S 003 39.2E 18 03.1S 003 28.0E 1.018 56 12 66 01m40.5s
11:18 17 15.8S 003 49.1E 17 44.9S 004 11.8E 17 30.3S 004 00.5E 1.018 57 10 66 01m41.6s
11:20 16 43.5S 004 21.0E 17 12.7S 004 43.8E 16 58.1S 004 32.4E 1.018 58 9 67 01m42.6s
11:22 16 11.7S 004 52.3E 16 41.0S 005 15.4E 16 26.4S 005 03.9E 1.018 58 7 67 01m43.5s
11:24 15 40.4S 005 23.3E 16 09.9S 005 46.5E 15 55.1S 005 34.9E 1.018 59 5 68 01m44.4s
11:26 15 09.6S 005 53.9E 15 39.2S 006 17.2E 15 24.4S 006 05.6E 1.019 60 3 68 01m45.3s
11:28 14 39.2S 006 24.1E 15 08.9S 006 47.6E 14 54.1S 006 35.9E 1.019 60 1 68 01m46.0s
11:30 14 09.4S 006 54.1E 14 39.2S 007 17.7E 14 24.2S 007 05.9E 1.019 61 359 69 01m46.7s
11:32 13 39.9S 007 23.8E 14 09.8S 007 47.5E 13 54.9S 007 35.7E 1.019 61 357 69 01m47.4s
11:34 13 10.9S 007 53.3E 13 40.9S 008 17.1E 13 25.9S 008 05.2E 1.019 62 355 70 01m48.0s
11:36 12 42.3S 008 22.6E 13 12.4S 008 46.5E 12 57.4S 008 34.6E 1.019 62 353 70 01m48.5s
11:38 12 14.2S 008 51.8E 12 44.4S 009 15.8E 12 29.3S 009 03.8E 1.019 62 351 70 01m49.0s
11:40 11 46.4S 009 20.9E 12 16.7S 009 44.9E 12 01.6S 009 32.9E 1.019 63 349 70 01m49.4s
11:42 11 19.1S 009 49.9E 11 49.5S 010 14.0E 11 34.3S 010 02.0E 1.019 63 347 71 01m49.8s
11:44 10 52.1S 010 18.9E 11 22.6S 010 43.0E 11 07.4S 010 30.9E 1.019 63 345 71 01m50.1s
11:46 10 25.6S 010 47.8E 10 56.1S 011 11.9E 10 40.9S 010 59.9E 1.019 63 342 71 01m50.3s
11:48 09 59.4S 011 16.8E 10 30.1S 011 40.9E 10 14.7S 011 28.9E 1.019 63 340 71 01m50.4s
11:50 09 33.6S 011 45.9E 10 04.4S 012 09.9E 09 49.0S 011 57.9E 1.019 63 338 72 01m50.5s
11:52 09 08.2S 012 15.0E 09 39.0S 012 39.0E 09 23.6S 012 27.0E 1.019 63 335 72 01m50.6s
11:54 08 43.2S 012 44.2E 09 14.1S 013 08.2E 08 58.7S 012 56.2E 1.019 63 333 72 01m50.5s
11:56 08 18.6S 013 13.6E 08 49.5S 013 37.6E 08 34.1S 013 25.6E 1.019 63 331 72 01m50.4s
11:58 07 54.3S 013 43.1E 08 25.3S 014 07.1E 08 09.8S 013 55.1E 1.019 63 329 72 01m50.3s
12:00 07 30.4S 014 12.9E 08 01.5S 014 36.8E 07 46.0S 014 24.8E 1.019 63 327 72 01m50.1s
12:02 07 06.9S 014 42.9E 07 38.0S 015 06.7E 07 22.5S 014 54.8E 1.019 63 324 72 01m49.8s
12:04 06 43.8S 015 13.1E 07 14.9S 015 36.8E 06 59.4S 015 25.0E 1.019 62 322 72 01m49.4s
12:06 06 21.0S 015 43.7E 06 52.2S 016 07.3E 06 36.6S 015 55.5E 1.019 62 320 72 01m49.0s
12:08 05 58.6S 016 14.5E 06 29.8S 016 38.0E 06 14.2S 016 26.3E 1.019 62 318 72 01m48.5s
12:10 05 36.6S 016 45.7E 06 07.9S 017 09.1E 05 52.3S 016 57.4E 1.018 61 316 72 01m47.9s
12:12 05 15.0S 017 17.4E 05 46.3S 017 40.6E 05 30.6S 017 29.0E 1.018 61 315 72 01m47.3s
12:14 04 53.7S 017 49.4E 05 25.0S 018 12.5E 05 09.4S 018 01.0E 1.018 60 313 72 01m46.6s
12:16 04 32.9S 018 21.9E 05 04.2S 018 44.9E 04 48.6S 018 33.4E 1.018 60 311 71 01m45.8s
12:18 04 12.5S 018 54.9E 04 43.7S 019 17.7E 04 28.1S 019 06.3E 1.018 59 309 71 01m45.0s
12:20 03 52.4S 019 28.5E 04 23.7S 019 51.1E 04 08.1S 019 39.8E 1.018 58 308 71 01m44.1s
12:22 03 32.8S 020 02.6E 04 04.0S 020 25.0E 03 48.4S 020 13.8E 1.018 58 306 70 01m43.1s
12:24 03 13.6S 020 37.4E 03 44.7S 020 59.6E 03 29.2S 020 48.5E 1.018 57 305 70 01m42.0s
12:26 02 54.8S 021 12.8E 03 25.9S 021 34.8E 03 10.4S 021 23.8E 1.018 56 303 70 01m40.9s
12:28 02 36.4S 021 48.9E 03 07.5S 022 10.8E 02 52.0S 021 59.8E 1.017 56 302 69 01m39.7s
12:30 02 18.5S 022 25.8E 02 49.5S 022 47.5E 02 34.0S 022 36.6E 1.017 55 301 69 01m38.5s
12:32 02 01.1S 023 03.6E 02 31.9S 023 25.0E 02 16.5S 023 14.3E 1.017 54 300 68 01m37.1s
12:34 01 44.1S 023 42.2E 02 14.8S 024 03.3E 01 59.5S 023 52.7E 1.017 53 299 67 01m35.7s
12:36 01 27.6S 024 21.8E 01 58.2S 024 42.7E 01 43.0S 024 32.2E 1.017 52 297 67 01m34.2s
12:38 01 11.6S 025 02.3E 01 42.1S 025 23.0E 01 26.9S 025 12.6E 1.017 51 296 66 01m32.7s
12:40 00 56.2S 025 44.0E 01 26.5S 026 04.4E 01 11.4S 025 54.2E 1.016 50 295 65 01m31.1s
12:42 00 41.3S 026 26.8E 01 11.4S 026 47.0E 00 56.4S 026 36.9E 1.016 49 295 64 01m29.4s
12:44 00 27.0S 027 10.9E 00 56.8S 027 30.8E 00 41.9S 027 20.9E 1.016 48 294 64 01m27.6s
12:46 00 13.2S 027 56.4E 00 42.9S 028 16.0E 00 28.1S 028 06.2E 1.016 47 293 63 01m25.7s
12:48 00 00.1S 028 43.4E 00 29.5S 029 02.7E 00 14.8S 028 53.0E 1.016 46 292 62 01m23.8s
12:50 00 12.3N 029 31.9E 00 16.8S 029 50.9E 00 02.3S 029 41.4E 1.015 45 292 61 01m21.8s
12:52 00 24.1N 030 22.2E 00 04.7S 030 40.9E 00 09.6N 030 31.5E 1.015 44 291 59 01m19.7s
12:54 00 35.1N 031 14.4E 00 06.6N 031 32.8E 00 20.8N 031 23.6E 1.015 43 290 58 01m17.5s
12:56 00 45.3N 032 08.6E 00 17.2N 032 26.8E 00 31.2N 032 17.7E 1.014 41 290 57 01m15.3s
12:58 00 54.6N 033 05.2E 00 26.9N 033 23.1E 00 40.7N 033 14.1E 1.014 40 289 56 01m12.9s
13:00 01 03.0N 034 04.3E 00 35.7N 034 21.9E 00 49.3N 034 13.1E 1.014 39 289 54 01m10.5s
13:02 01 10.4N 035 06.3E 00 43.6N 035 23.5E 00 56.9N 035 14.9E 1.013 37 288 53 01m08.0s
13:04 01 16.6N 036 11.4E 00 50.3N 036 28.4E 01 03.4N 036 19.9E 1.013 36 288 51 01m05.3s
13:06 01 21.6N 037 20.1E 00 55.9N 037 36.9E 01 08.7N 037 28.5E 1.013 34 287 49 01m02.6s
13:08 01 25.3N 038 33.0E 01 00.1N 038 49.5E 01 12.7N 038 41.2E 1.012 33 287 48 00m59.7s
13:10 01 27.3N 039 50.7E 01 02.8N 040 07.0E 01 15.0N 039 58.8E 1.012 31 287 46 00m56.8s
13:12 01 27.5N 041 14.0E 01 03.8N 041 30.1E 01 15.6N 041 22.0E 1.011 29 286 44 00m53.6s
13:14 01 25.6N 042 44.1E 01 02.6N 043 00.0E 01 14.1N 042 52.0E 1.011 27 286 41 00m50.4s
13:16 01 21.1N 044 22.5E 00 59.0N 044 38.4E 01 10.0N 044 30.4E 1.010 25 286 39 00m46.9s
13:18 01 13.3N 046 11.6E 00 52.1N 046 27.4E 01 02.7N 046 19.4E 1.010 23 286 37 00m43.2s
13:20 01 01.3N 048 14.8E 00 41.2N 048 30.8E 00 51.2N 048 22.7E 1.009 20 286 34 00m39.1s
13:22 00 43.3N 050 38.2E 00 24.4N 050 54.7E 00 33.9N 050 46.4E 1.008 18 286 30 00m34.7s
13:24 00 16.0N 053 34.1E 00 01.5S 053 51.7E 00 07.2N 053 42.8E 1.007 14 285 27 00m29.5s
13:26 00 30.0S 057 36.1E 00 46.1S 057 56.9E 00 38.1S 057 46.4E 1.006 10 285 21 00m23.0s
Limits 02 42.2S 066 38.4E 02 48.1S 066 37.8E 02 45.1S 066 38.1E 1.003 0 - 11 00m10.8s
Instant of Greatest Eclipse: Time = 11:50:55.3 UT Lat = 09°37.3'S Long = 012°11.3'E (GE) Sun Altitude = 63.2° Path Width = 71.7 km Sun Azimuth = 336.7° Central Duration = 01m50.6s Instant of Greatest Duration: Time = 11:52:03 UT Lat = 09°23'S Long = 012°28'E (GD) Sun Altitude = 63.2° Path Width = 71.7 km Sun Azimuth = 335.4° Central Duration = 01m50.6s
Predictions for the Total Solar Eclipse of 2041 Apr 30 were generated using the VSOP87/ELP2000-85 solar and lunar ephemerides and a value of ΔT = 84.8 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
