The following table delineates the path of the Moon's umbral shadow during the Total Solar Eclipse of -1301 Jun 05 . 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 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 10 59.9N 074 57.0E 09 12.4N 076 01.2E 10 06.0N 075 29.4E 1.062 0 - 227 03m06.9s
00:34 12 57.6N 079 50.8E 13 19.5N 086 12.3E 13 20.2N 083 30.0E 1.065 9 71 238 03m27.1s
00:36 15 34.8N 085 52.5E 15 04.4N 090 07.5E 15 22.9N 088 07.5E 1.067 14 72 244 03m40.5s
00:38 17 14.2N 089 27.3E 16 25.9N 093 03.1E 16 52.0N 091 19.6E 1.068 18 73 249 03m50.6s
00:40 18 34.0N 092 13.6E 17 35.1N 095 28.3E 18 06.1N 093 54.2E 1.069 21 74 252 03m59.2s
00:42 19 42.8N 094 33.5E 18 36.5N 097 34.4E 19 10.9N 096 06.5E 1.070 24 75 255 04m06.9s
00:44 20 44.3N 096 36.1E 19 32.2N 099 27.0E 20 09.3N 098 03.8E 1.071 26 76 257 04m14.0s
00:46 21 40.3N 098 26.4E 20 23.5N 101 09.7E 21 02.8N 099 50.0E 1.071 29 77 259 04m20.6s
00:48 22 32.2N 100 07.5E 21 11.3N 102 44.6E 21 52.5N 101 27.8E 1.072 31 78 261 04m26.9s
00:50 23 20.6N 101 41.3E 21 56.2N 104 13.3E 22 39.1N 102 59.0E 1.073 33 79 262 04m32.8s
00:52 24 06.3N 103 09.3E 22 38.6N 105 36.8E 23 23.1N 104 24.6E 1.073 35 80 263 04m38.4s
00:54 24 49.4N 104 32.5E 23 18.9N 106 56.1E 24 04.8N 105 45.8E 1.074 36 81 265 04m43.8s
00:56 25 30.5N 105 51.7E 23 57.2N 108 11.7E 24 44.4N 107 03.1E 1.074 38 82 266 04m49.0s
00:58 26 09.7N 107 07.4E 24 33.9N 109 24.3E 25 22.3N 108 17.2E 1.075 40 84 266 04m54.0s
01:00 26 47.2N 108 20.3E 25 09.1N 110 34.1E 25 58.6N 109 28.5E 1.075 41 85 267 04m58.8s
01:02 27 23.2N 109 30.6E 25 42.9N 111 41.6E 26 33.5N 110 37.4E 1.075 43 86 268 05m03.5s
01:04 27 57.9N 110 38.7E 26 15.4N 112 47.1E 27 07.0N 111 44.2E 1.076 44 87 269 05m08.0s
01:06 28 31.2N 111 44.9E 26 46.7N 113 50.7E 27 39.3N 112 49.0E 1.076 46 88 269 05m12.4s
01:08 29 03.4N 112 49.4E 27 16.9N 114 52.7E 28 10.5N 113 52.3E 1.076 47 89 270 05m16.6s
01:10 29 34.5N 113 52.4E 27 46.1N 115 53.4E 28 40.6N 114 54.1E 1.077 48 91 270 05m20.7s
01:12 30 04.5N 114 54.2E 28 14.3N 116 52.7E 29 09.7N 115 54.6E 1.077 50 92 271 05m24.6s
01:14 30 33.5N 115 54.7E 28 41.6N 117 51.0E 29 37.9N 116 54.0E 1.077 51 93 271 05m28.4s
01:16 31 01.6N 116 54.3E 29 08.0N 118 48.2E 30 05.1N 117 52.4E 1.077 52 95 271 05m32.1s
01:18 31 28.9N 117 53.0E 29 33.6N 119 44.6E 30 31.5N 118 49.9E 1.078 53 96 272 05m35.7s
01:20 31 55.3N 118 50.8E 29 58.4N 120 40.1E 30 57.1N 119 46.6E 1.078 55 98 272 05m39.2s
01:22 32 20.8N 119 48.0E 30 22.4N 121 35.0E 31 21.8N 120 42.6E 1.078 56 99 272 05m42.5s
01:24 32 45.6N 120 44.6E 30 45.7N 122 29.2E 31 45.8N 121 37.9E 1.078 57 101 272 05m45.7s
01:26 33 09.6N 121 40.6E 31 08.2N 123 22.9E 32 09.1N 122 32.8E 1.079 58 103 272 05m48.8s
01:28 33 32.9N 122 36.2E 31 30.1N 124 16.1E 32 31.7N 123 27.1E 1.079 59 105 272 05m51.7s
01:30 33 55.5N 123 31.3E 31 51.3N 125 08.8E 32 53.5N 124 21.1E 1.079 60 106 273 05m54.6s
01:32 34 17.3N 124 26.2E 32 11.8N 126 01.2E 33 14.7N 125 14.7E 1.079 61 108 273 05m57.3s
01:34 34 38.5N 125 20.7E 32 31.6N 126 53.3E 33 35.2N 126 07.9E 1.079 62 111 273 05m59.9s
01:36 34 59.0N 126 15.0E 32 50.9N 127 45.1E 33 55.1N 127 01.0E 1.079 63 113 273 06m02.4s
01:38 35 18.9N 127 09.2E 33 09.5N 128 36.6E 34 14.3N 127 53.8E 1.079 64 115 273 06m04.7s
01:40 35 38.1N 128 03.1E 33 27.5N 129 28.0E 34 32.9N 128 46.4E 1.080 65 117 273 06m06.9s
01:42 35 56.7N 128 57.0E 33 44.9N 130 19.2E 34 50.8N 129 39.0E 1.080 66 120 273 06m09.0s
01:44 36 14.6N 129 50.9E 34 01.7N 131 10.3E 35 08.2N 130 31.4E 1.080 67 123 273 06m11.0s
01:46 36 31.9N 130 44.7E 34 17.9N 132 01.4E 35 24.9N 131 23.8E 1.080 67 125 273 06m12.9s
01:48 36 48.6N 131 38.5E 34 33.6N 132 52.4E 35 41.1N 132 16.1E 1.080 68 128 273 06m14.6s
01:50 37 04.7N 132 32.3E 34 48.7N 133 43.3E 35 56.7N 133 08.5E 1.080 69 132 273 06m16.2s
01:52 37 20.2N 133 26.2E 35 03.2N 134 34.3E 36 11.6N 134 00.9E 1.080 69 135 273 06m17.6s
01:54 37 35.0N 134 20.2E 35 17.1N 135 25.3E 36 26.0N 134 53.4E 1.080 70 138 273 06m18.9s
01:56 37 49.3N 135 14.3E 35 30.4N 136 16.4E 36 39.8N 135 46.0E 1.080 70 142 273 06m20.1s
01:58 38 02.9N 136 08.6E 35 43.2N 137 07.6E 36 53.0N 136 38.6E 1.080 71 146 273 06m21.2s
02:00 38 15.9N 137 03.1E 35 55.5N 137 58.8E 37 05.6N 137 31.5E 1.080 71 149 273 06m22.1s
02:02 38 28.4N 137 57.7E 36 07.1N 138 50.3E 37 17.7N 138 24.5E 1.080 72 153 273 06m22.9s
02:04 38 40.2N 138 52.6E 36 18.3N 139 41.8E 37 29.1N 139 17.6E 1.080 72 158 272 06m23.5s
02:06 38 51.4N 139 47.7E 36 28.8N 140 33.6E 37 40.0N 140 11.0E 1.080 72 162 272 06m24.1s
02:08 39 02.0N 140 43.0E 36 38.8N 141 25.6E 37 50.3N 141 04.6E 1.080 72 166 272 06m24.4s
02:10 39 12.0N 141 38.7E 36 48.2N 142 17.8E 38 00.0N 141 58.5E 1.080 72 171 272 06m24.7s
02:12 39 21.3N 142 34.6E 36 57.0N 143 10.2E 38 09.1N 142 52.6E 1.080 72 175 272 06m24.8s
02:14 39 30.1N 143 30.9E 37 05.3N 144 02.9E 38 17.6N 143 47.1E 1.080 72 179 272 06m24.7s
02:16 39 38.2N 144 27.5E 37 13.0N 144 55.9E 38 25.4N 144 41.8E 1.080 72 184 272 06m24.6s
02:18 39 45.6N 145 24.5E 37 20.1N 145 49.2E 38 32.7N 145 36.9E 1.080 72 188 272 06m24.2s
02:20 39 52.5N 146 21.8E 37 26.6N 146 42.8E 38 39.4N 146 32.3E 1.080 72 192 271 06m23.8s
02:22 39 58.6N 147 19.5E 37 32.6N 147 36.7E 38 45.5N 147 28.1E 1.080 71 196 271 06m23.2s
02:24 40 04.2N 148 17.7E 37 37.9N 148 31.1E 38 50.9N 148 24.3E 1.080 71 200 271 06m22.4s
02:26 40 09.0N 149 16.3E 37 42.6N 149 25.8E 38 55.7N 149 20.9E 1.080 70 204 271 06m21.6s
02:28 40 13.2N 150 15.3E 37 46.8N 150 20.9E 38 59.9N 150 17.9E 1.080 70 207 271 06m20.5s
02:30 40 16.7N 151 14.8E 37 50.3N 151 16.5E 39 03.4N 151 15.4E 1.080 69 211 271 06m19.4s
02:32 40 19.6N 152 14.8E 37 53.2N 152 12.5E 39 06.2N 152 13.3E 1.080 69 214 270 06m18.1s
02:34 40 21.7N 153 15.3E 37 55.4N 153 08.9E 39 08.4N 153 11.7E 1.080 68 217 270 06m16.6s
02:36 40 23.1N 154 16.3E 37 57.0N 154 05.9E 39 09.9N 154 10.7E 1.080 67 220 270 06m15.1s
02:38 40 23.8N 155 17.9E 37 57.9N 155 03.4E 39 10.7N 155 10.1E 1.080 66 223 270 06m13.3s
02:40 40 23.7N 156 20.1E 37 58.2N 156 01.5E 39 10.8N 156 10.2E 1.080 66 226 269 06m11.5s
02:42 40 22.9N 157 22.9E 37 57.8N 157 00.1E 39 10.2N 157 10.9E 1.079 65 229 269 06m09.5s
02:44 40 21.3N 158 26.3E 37 56.7N 157 59.3E 39 08.9N 158 12.1E 1.079 64 231 269 06m07.3s
02:46 40 19.0N 159 30.4E 37 54.8N 158 59.2E 39 06.8N 159 14.0E 1.079 63 234 269 06m05.1s
02:48 40 15.8N 160 35.2E 37 52.3N 159 59.8E 39 03.9N 160 16.7E 1.079 62 236 268 06m02.7s
02:50 40 11.8N 161 40.8E 37 49.0N 161 01.1E 39 00.3N 161 20.0E 1.079 61 239 268 06m00.1s
02:52 40 06.9N 162 47.1E 37 44.9N 162 03.1E 38 55.9N 162 24.1E 1.079 60 241 268 05m57.4s
02:54 40 01.2N 163 54.2E 37 40.0N 163 05.9E 38 50.6N 163 29.1E 1.079 59 243 267 05m54.6s
02:56 39 54.6N 165 02.3E 37 34.3N 164 09.6E 38 44.5N 164 34.8E 1.078 58 245 267 05m51.6s
02:58 39 47.1N 166 11.2E 37 27.8N 165 14.2E 38 37.5N 165 41.5E 1.078 57 247 267 05m48.6s
03:00 39 38.6N 167 21.1E 37 20.5N 166 19.7E 38 29.6N 166 49.2E 1.078 56 249 266 05m45.3s
03:02 39 29.2N 168 32.1E 37 12.2N 167 26.3E 38 20.7N 167 57.9E 1.078 54 251 266 05m42.0s
03:04 39 18.7N 169 44.2E 37 03.0N 168 34.0E 38 10.9N 169 07.8E 1.077 53 252 266 05m38.5s
03:06 39 07.1N 170 57.6E 36 52.8N 169 42.8E 38 00.1N 170 18.8E 1.077 52 254 265 05m34.8s
03:08 38 54.4N 172 12.2E 36 41.6N 170 53.0E 37 48.2N 171 31.1E 1.077 51 256 265 05m31.0s
03:10 38 40.6N 173 28.3E 36 29.4N 172 04.5E 37 35.2N 172 44.9E 1.077 49 258 264 05m27.1s
03:12 38 25.6N 174 45.9E 36 16.1N 173 17.5E 37 21.0N 174 00.1E 1.076 48 259 264 05m23.0s
03:14 38 09.2N 176 05.2E 36 01.5N 174 32.1E 37 05.6N 175 17.1E 1.076 47 261 263 05m18.8s
03:16 37 51.5N 177 26.4E 35 45.8N 175 48.6E 36 48.9N 176 35.8E 1.076 45 262 262 05m14.5s
03:18 37 32.3N 178 49.7E 35 28.7N 177 07.0E 36 30.8N 177 56.6E 1.075 44 264 262 05m09.9s
03:20 37 11.6N 179 44.7W 35 10.2N 178 27.6E 36 11.2N 179 19.6E 1.075 42 266 261 05m05.3s
03:22 36 49.1N 178 16.5W 34 50.2N 179 50.7E 35 50.0N 179 14.8W 1.075 41 267 260 05m00.4s
03:24 36 24.8N 176 45.3W 34 28.6N 178 43.5W 35 27.1N 177 46.4W 1.074 39 269 260 04m55.4s
03:26 35 58.5N 175 10.8W 34 05.1N 177 14.6W 35 02.3N 176 14.8W 1.074 38 270 259 04m50.2s
03:28 35 30.0N 173 32.4W 33 39.7N 175 42.2W 34 35.4N 174 39.4W 1.073 36 272 258 04m44.8s
03:30 34 58.9N 171 49.5W 33 12.1N 174 05.6W 34 06.1N 172 59.8W 1.073 34 273 257 04m39.1s
03:32 34 24.9N 170 01.1W 32 41.9N 172 24.2W 33 34.1N 171 15.0W 1.072 32 275 256 04m33.2s
03:34 33 47.6N 168 06.2W 32 08.9N 170 37.1W 32 59.0N 169 24.2W 1.072 30 276 254 04m27.0s
03:36 33 06.2N 166 03.2W 31 32.5N 168 42.9W 32 20.3N 167 25.8W 1.071 28 278 253 04m20.5s
03:38 32 19.9N 163 49.7W 30 52.0N 166 40.1W 31 37.0N 165 18.0W 1.070 26 279 251 04m13.6s
03:40 31 27.2N 161 22.4W 30 06.5N 164 26.1W 30 48.2N 162 57.7W 1.070 23 281 249 04m06.1s
03:42 30 25.8N 158 35.1W 29 14.3N 161 56.8W 29 51.7N 160 20.2W 1.069 20 283 247 03m58.0s
03:44 29 10.9N 155 16.4W 28 12.8N 159 05.4W 28 44.3N 157 16.7W 1.068 17 285 244 03m48.8s
03:46 27 30.8N 150 56.6W 26 56.5N 155 37.8W 27 18.0N 153 27.4W 1.066 13 287 240 03m37.9s
03:48 23 53.1N 141 39.8W 25 09.6N 150 52.9W 25 04.1N 147 38.2W 1.064 7 290 234 03m22.5s
Limits 23 17.8N 140 09.3W 21 31.9N 141 19.0W 22 24.8N 140 44.6W 1.062 0 - 226 03m06.3s
Return To Solar Eclipses of Historical Interest
Predictions for the Total Solar Eclipse of -1301 Jun 05 were generated using the VSOP87/ELP2000-82 solar and lunar ephemerides and a value of ΔT = 31004.5 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
