The following table delineates the path of the Moon's antumbral shadow during the Annular Solar Eclipse of 2035 Mar 09. 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 42 57.0S 127 14.9E 43 47.4S 126 56.4E 43 22.1S 127 05.7E 0.976 0 - 95 01m25.9s
21:26 43 25.5S 134 37.9E - - 43 40.7S 131 45.9E 0.977 3 93 91 01m24.6s
21:28 43 39.9S 142 37.8E 44 22.5S 140 30.6E 44 01.1S 141 38.0E 0.979 11 85 82 01m21.3s
21:30 43 39.3S 147 34.3E 44 21.9S 146 12.9E 44 00.4S 146 55.1E 0.981 15 81 76 01m19.3s
21:32 43 33.3S 151 25.5E 44 14.7S 150 26.0E 43 53.9S 150 56.6E 0.982 18 78 72 01m17.7s
21:34 43 24.2S 154 39.8E 44 04.3S 153 53.8E 43 44.1S 154 17.3E 0.982 21 75 69 01m16.2s
21:36 43 13.0S 157 29.4E 43 51.8S 156 52.9E 43 32.3S 157 11.5E 0.983 23 73 66 01m14.9s
21:38 43 00.3S 160 01.0E 43 37.9S 159 31.5E 43 19.0S 159 46.5E 0.984 26 70 64 01m13.6s
21:40 42 46.5S 162 18.7E 43 22.8S 161 54.7E 43 04.5S 162 06.9E 0.984 28 68 62 01m12.5s
21:42 42 31.7S 164 25.2E 43 06.8S 164 05.7E 42 49.2S 164 15.6E 0.985 30 66 60 01m11.3s
21:44 42 16.3S 166 22.5E 42 50.2S 166 06.7E 42 33.1S 166 14.7E 0.985 31 64 58 01m10.3s
21:46 42 00.1S 168 12.0E 42 33.0S 167 59.2E 42 16.5S 168 05.7E 0.985 33 62 56 01m09.2s
21:48 41 43.5S 169 54.7E 42 15.3S 169 44.6E 41 59.3S 169 49.7E 0.986 35 60 54 01m08.2s
21:50 41 26.4S 171 31.7E 41 57.2S 171 23.7E 41 41.7S 171 27.8E 0.986 36 58 53 01m07.2s
21:52 41 08.9S 173 03.5E 41 38.8S 172 57.5E 41 23.8S 173 00.5E 0.987 38 57 51 01m06.3s
21:54 40 51.0S 174 30.7E 41 20.0S 174 26.3E 41 05.5S 174 28.6E 0.987 39 55 50 01m05.4s
21:56 40 32.9S 175 53.8E 41 01.0S 175 50.9E 40 46.9S 175 52.4E 0.987 40 53 49 01m04.5s
21:58 40 14.5S 177 13.3E 40 41.8S 177 11.7E 40 28.1S 177 12.5E 0.988 42 51 48 01m03.6s
22:00 39 55.8S 178 29.3E 40 22.4S 178 28.9E 40 09.0S 178 29.1E 0.988 43 50 46 01m02.8s
22:02 39 36.9S 179 42.4E 40 02.7S 179 42.9E 39 49.8S 179 42.6E 0.988 44 48 45 01m02.0s
22:04 39 17.8S 179 07.4W 39 42.9S 179 06.0W 39 30.3S 179 06.7W 0.988 45 46 44 01m01.2s
22:06 38 58.6S 177 59.8W 39 23.0S 177 57.5W 39 10.8S 177 58.6W 0.989 46 45 43 01m00.4s
22:08 38 39.2S 176 54.5W 39 03.0S 176 51.5W 38 51.0S 176 53.0W 0.989 47 43 43 00m59.7s
22:10 38 19.6S 175 51.4W 38 42.8S 175 47.8W 38 31.2S 175 49.6W 0.989 48 41 42 00m58.9s
22:12 37 59.9S 174 50.3W 38 22.5S 174 46.2W 38 11.2S 174 48.3W 0.989 49 39 41 00m58.2s
22:14 37 40.1S 173 51.2W 38 02.1S 173 46.5W 37 51.1S 173 48.9W 0.989 50 38 40 00m57.5s
22:16 37 20.1S 172 53.8W 37 41.7S 172 48.7W 37 30.9S 172 51.2W 0.990 51 36 39 00m56.9s
22:18 37 00.1S 171 58.0W 37 21.1S 171 52.5W 37 10.6S 171 55.3W 0.990 52 34 39 00m56.2s
22:20 36 40.0S 171 03.8W 37 00.5S 170 57.9W 36 50.2S 171 00.8W 0.990 53 32 38 00m55.6s
22:22 36 19.7S 170 11.0W 36 39.8S 170 04.7W 36 29.7S 170 07.9W 0.990 54 30 37 00m55.0s
22:24 35 59.4S 169 19.5W 36 19.1S 169 13.0W 36 09.2S 169 16.3W 0.990 55 28 37 00m54.4s
22:26 35 39.0S 168 29.3W 35 58.3S 168 22.5W 35 48.6S 168 25.9W 0.990 56 26 36 00m53.9s
22:28 35 18.6S 167 40.3W 35 37.4S 167 33.2W 35 28.0S 167 36.8W 0.991 57 24 36 00m53.3s
22:30 34 58.1S 166 52.4W 35 16.5S 166 45.0W 35 07.3S 166 48.7W 0.991 57 22 35 00m52.8s
22:32 34 37.5S 166 05.5W 34 55.6S 165 57.9W 34 46.5S 166 01.7W 0.991 58 20 35 00m52.3s
22:34 34 16.8S 165 19.6W 34 34.6S 165 11.8W 34 25.7S 165 15.7W 0.991 59 18 34 00m51.9s
22:36 33 56.1S 164 34.6W 34 13.5S 164 26.6W 34 04.8S 164 30.6W 0.991 59 16 34 00m51.4s
22:38 33 35.3S 163 50.4W 33 52.5S 163 42.3W 33 43.9S 163 46.3W 0.991 60 14 34 00m51.0s
22:40 33 14.5S 163 07.0W 33 31.4S 162 58.7W 33 22.9S 163 02.9W 0.991 60 11 33 00m50.6s
22:42 32 53.6S 162 24.4W 33 10.2S 162 15.9W 33 01.9S 162 20.2W 0.991 61 9 33 00m50.2s
22:44 32 32.7S 161 42.5W 32 49.0S 161 33.9W 32 40.9S 161 38.2W 0.991 61 7 33 00m49.8s
22:46 32 11.7S 161 01.2W 32 27.8S 160 52.4W 32 19.8S 160 56.8W 0.991 62 4 33 00m49.5s
22:48 31 50.7S 160 20.5W 32 06.6S 160 11.6W 31 58.6S 160 16.1W 0.992 62 2 32 00m49.2s
22:50 31 29.7S 159 40.4W 31 45.3S 159 31.4W 31 37.5S 159 35.9W 0.992 63 359 32 00m48.9s
22:52 31 08.5S 159 00.8W 31 24.1S 158 51.7W 31 16.3S 158 56.2W 0.992 63 357 32 00m48.7s
22:54 30 47.4S 158 21.7W 31 02.7S 158 12.4W 30 55.0S 158 17.1W 0.992 63 354 32 00m48.4s
22:56 30 26.2S 157 43.0W 30 41.4S 157 33.6W 30 33.8S 157 38.3W 0.992 63 352 32 00m48.2s
22:58 30 05.0S 157 04.7W 30 20.0S 156 55.2W 30 12.5S 157 00.0W 0.992 64 349 32 00m48.0s
23:00 29 43.7S 156 26.8W 29 58.6S 156 17.2W 29 51.1S 156 22.0W 0.992 64 346 32 00m47.8s
23:02 29 22.4S 155 49.2W 29 37.2S 155 39.5W 29 29.8S 155 44.3W 0.992 64 344 31 00m47.7s
23:04 29 01.0S 155 11.9W 29 15.7S 155 02.0W 29 08.3S 155 07.0W 0.992 64 341 31 00m47.6s
23:06 28 39.6S 154 34.9W 28 54.2S 154 24.9W 28 46.9S 154 29.9W 0.992 64 338 31 00m47.5s
23:08 28 18.2S 153 58.1W 28 32.7S 153 47.9W 28 25.4S 153 53.0W 0.992 64 336 32 00m47.4s
23:10 27 56.7S 153 21.5W 28 11.2S 153 11.2W 28 03.9S 153 16.3W 0.992 64 333 32 00m47.4s
23:12 27 35.2S 152 45.0W 27 49.6S 152 34.5W 27 42.3S 152 39.8W 0.992 64 330 32 00m47.4s
23:14 27 13.6S 152 08.7W 27 28.0S 151 58.1W 27 20.7S 152 03.4W 0.992 63 328 32 00m47.4s
23:16 26 52.0S 151 32.4W 27 06.3S 151 21.6W 26 59.1S 151 27.0W 0.992 63 325 32 00m47.4s
23:18 26 30.3S 150 56.2W 26 44.6S 150 45.3W 26 37.4S 150 50.8W 0.992 63 323 32 00m47.4s
23:20 26 08.6S 150 20.0W 26 22.9S 150 08.9W 26 15.7S 150 14.5W 0.992 63 320 32 00m47.5s
23:22 25 46.8S 149 43.8W 26 01.2S 149 32.6W 25 54.0S 149 38.2W 0.992 62 318 32 00m47.6s
23:24 25 25.0S 149 07.6W 25 39.4S 148 56.1W 25 32.2S 149 01.9W 0.992 62 316 33 00m47.7s
23:26 25 03.1S 148 31.2W 25 17.5S 148 19.6W 25 10.3S 148 25.4W 0.992 61 313 33 00m47.9s
23:28 24 41.2S 147 54.8W 24 55.7S 147 42.9W 24 48.4S 147 48.9W 0.992 61 311 33 00m48.1s
23:30 24 19.2S 147 18.2W 24 33.8S 147 06.1W 24 26.5S 147 12.2W 0.992 60 309 34 00m48.3s
23:32 23 57.2S 146 41.4W 24 11.8S 146 29.1W 24 04.5S 146 35.2W 0.992 60 307 34 00m48.5s
23:34 23 35.1S 146 04.3W 23 49.8S 145 51.8W 23 42.4S 145 58.0W 0.991 59 305 34 00m48.8s
23:36 23 12.9S 145 27.0W 23 27.7S 145 14.2W 23 20.3S 145 20.6W 0.991 58 303 35 00m49.0s
23:38 22 50.7S 144 49.3W 23 05.6S 144 36.2W 22 58.1S 144 42.8W 0.991 58 301 35 00m49.3s
23:40 22 28.4S 144 11.3W 22 43.4S 143 57.9W 22 35.9S 144 04.6W 0.991 57 300 36 00m49.7s
23:42 22 06.0S 143 32.8W 22 21.2S 143 19.1W 22 13.6S 143 26.0W 0.991 56 298 36 00m50.0s
23:44 21 43.6S 142 53.9W 21 58.9S 142 39.9W 21 51.2S 142 46.9W 0.991 56 296 37 00m50.4s
23:46 21 21.1S 142 14.4W 21 36.6S 142 00.1W 21 28.8S 142 07.3W 0.991 55 295 37 00m50.8s
23:48 20 58.4S 141 34.4W 21 14.1S 141 19.7W 21 06.3S 141 27.0W 0.991 54 293 38 00m51.2s
23:50 20 35.7S 140 53.7W 20 51.6S 140 38.6W 20 43.6S 140 46.2W 0.991 53 292 39 00m51.7s
23:52 20 12.9S 140 12.3W 20 29.0S 139 56.8W 20 20.9S 140 04.6W 0.990 52 290 39 00m52.2s
23:54 19 50.0S 139 30.1W 20 06.4S 139 14.1W 19 58.2S 139 22.1W 0.990 51 289 40 00m52.7s
23:56 19 27.0S 138 47.1W 19 43.6S 138 30.6W 19 35.3S 138 38.9W 0.990 50 288 41 00m53.2s
23:58 19 03.9S 138 03.1W 19 20.7S 137 46.1W 19 12.3S 137 54.6W 0.990 49 286 41 00m53.7s
00:00 18 40.6S 137 18.0W 18 57.8S 137 00.5W 18 49.2S 137 09.3W 0.990 48 285 42 00m54.3s
00:02 18 17.2S 136 31.8W 18 34.7S 136 13.7W 18 25.9S 136 22.8W 0.990 47 284 43 00m54.9s
00:04 17 53.7S 135 44.4W 18 11.5S 135 25.6W 18 02.5S 135 35.0W 0.989 46 283 44 00m55.6s
00:06 17 30.0S 134 55.5W 17 48.1S 134 36.1W 17 39.0S 134 45.8W 0.989 45 282 45 00m56.2s
00:08 17 06.2S 134 05.1W 17 24.6S 133 45.0W 17 15.4S 133 55.1W 0.989 44 281 46 00m56.9s
00:10 16 42.2S 133 13.0W 17 01.0S 132 52.1W 16 51.5S 133 02.6W 0.989 42 280 47 00m57.6s
00:12 16 18.0S 132 19.0W 16 37.2S 131 57.2W 16 27.5S 132 08.2W 0.988 41 279 48 00m58.4s
00:14 15 53.5S 131 22.9W 16 13.2S 131 00.1W 16 03.3S 131 11.6W 0.988 40 278 49 00m59.2s
00:16 15 28.9S 130 24.4W 15 49.0S 130 00.6W 15 38.9S 130 12.6W 0.988 38 277 51 01m00.0s
00:18 15 04.0S 129 23.3W 15 24.5S 128 58.3W 15 14.2S 129 10.9W 0.988 37 276 52 01m00.8s
00:20 14 38.7S 128 19.1W 14 59.8S 127 52.8W 14 49.2S 128 06.0W 0.987 36 275 53 01m01.7s
00:22 14 13.2S 127 11.5W 14 34.8S 126 43.6W 14 23.9S 126 57.7W 0.987 34 275 55 01m02.6s
00:24 13 47.3S 125 59.9W 14 09.5S 125 30.3W 13 58.3S 125 45.2W 0.986 32 274 56 01m03.6s
00:26 13 20.9S 124 43.6W 13 43.7S 124 11.9W 13 32.3S 124 27.9W 0.986 31 273 58 01m04.6s
00:28 12 54.1S 123 21.7W 13 17.5S 122 47.7W 13 05.7S 123 04.9W 0.986 29 272 60 01m05.7s
00:30 12 26.6S 121 53.2W 12 50.8S 121 16.3W 12 38.6S 121 34.9W 0.985 27 272 62 01m06.8s
00:32 11 58.5S 120 16.4W 12 23.3S 119 35.8W 12 10.8S 119 56.3W 0.985 25 271 64 01m08.0s
00:34 11 29.4S 118 28.9W 11 55.0S 117 43.7W 11 42.1S 118 06.6W 0.984 23 270 66 01m09.3s
00:36 10 59.1S 116 27.4W 11 25.5S 115 35.7W 11 12.2S 116 01.9W 0.983 20 270 69 01m10.7s
00:38 10 27.1S 114 05.6W 10 54.2S 113 04.2W 10 40.5S 113 35.5W 0.983 17 269 72 01m12.2s
00:40 09 52.4S 111 11.6W 10 20.1S 109 53.1W 10 06.2S 110 33.5W 0.982 14 268 75 01m14.1s
00:42 09 12.5S 107 13.3W 09 39.4S 105 09.2W 09 25.9S 106 15.3W 0.980 9 267 80 01m16.5s
Limits 08 07.9S 097 45.2W 08 55.5S 097 30.9W 08 31.6S 097 38.1W 0.978 0 - 89 01m20.6s
Instant of Greatest Eclipse: Time = 23:04:32.7 UT Lat = 29°02.5'S Long = 154°56.9'W (GE) Sun Altitude = 63.9° Path Width = 31.5 km Sun Azimuth = 340.2° Central Duration = 00m47.6s Instant of Greatest Duration: Time = 21:25:47 UT Lat = 43°22'S Long = 127°06'E (GD) Sun Altitude = 0.0° Path Width = 95.5 km Sun Azimuth = 95.9° Central Duration = 01m25.9s
Predictions for the Annular Solar Eclipse of 2035 Mar 09 were generated using the VSOP87/ELP2000-85 solar and lunar ephemerides and a value of ΔT = 80.2 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,
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
