The following table delineates the path of the Moon's umbral shadow during the Total Solar Eclipse of 2030 Nov 25. 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 15 45.9S 001 54.4E 16 40.2S 001 18.4E 16 13.0S 001 36.5E 1.030 0 - 117 01m30.8s
05:16 19 05.8S 010 13.4E 18 25.3S 005 39.6E 18 52.8S 008 13.7E 1.032 7 110 126 01m42.2s
05:18 21 07.1S 014 51.8E 21 12.0S 012 04.4E 21 11.1S 013 31.1E 1.034 13 108 133 01m52.6s
05:20 22 35.5S 018 06.2E 22 53.9S 015 45.7E 22 45.6S 016 57.6E 1.035 17 106 138 01m59.9s
05:22 23 49.0S 020 43.4E 24 15.1S 018 36.7E 24 02.7S 019 41.2E 1.036 20 104 142 02m06.1s
05:24 24 53.2S 022 58.6E 25 24.8S 021 00.6E 25 09.6S 022 00.5E 1.037 23 103 145 02m11.5s
05:26 25 51.1S 024 58.9E 26 27.0S 023 06.9E 26 09.5S 024 03.7E 1.037 25 102 147 02m16.5s
05:28 26 44.2S 026 48.3E 27 23.6S 025 00.9E 27 04.3S 025 55.3E 1.038 28 100 149 02m21.1s
05:30 27 33.4S 028 29.3E 28 16.0S 026 45.6E 27 55.1S 027 38.1E 1.039 30 99 151 02m25.5s
05:32 28 19.5S 030 03.7E 29 04.8S 028 23.1E 28 42.5S 029 14.0E 1.039 32 98 153 02m29.6s
05:34 29 02.9S 031 32.7E 29 50.7S 029 54.8E 29 27.1S 030 44.4E 1.040 33 97 155 02m33.5s
05:36 29 44.1S 032 57.3E 30 34.1S 031 21.7E 30 09.4S 032 10.1E 1.040 35 95 156 02m37.2s
05:38 30 23.2S 034 18.2E 31 15.4S 032 44.7E 30 49.6S 033 32.0E 1.041 37 94 157 02m40.8s
05:40 31 00.6S 035 35.9E 31 54.7S 034 04.3E 31 27.9S 034 50.7E 1.041 38 93 158 02m44.3s
05:42 31 36.4S 036 50.8E 32 32.3S 035 21.1E 32 04.6S 036 06.5E 1.041 40 91 159 02m47.6s
05:44 32 10.6S 038 03.4E 33 08.3S 036 35.4E 32 39.7S 037 20.0E 1.042 41 90 160 02m50.8s
05:46 32 43.6S 039 14.0E 33 43.0S 037 47.7E 33 13.5S 038 31.4E 1.042 43 88 161 02m53.8s
05:48 33 15.3S 040 22.8E 34 16.3S 038 58.1E 33 46.0S 039 41.0E 1.043 44 87 162 02m56.8s
05:50 33 45.8S 041 30.0E 34 48.3S 040 06.9E 34 17.3S 040 49.0E 1.043 45 85 163 02m59.7s
05:52 34 15.2S 042 35.9E 35 19.3S 041 14.3E 34 47.4S 041 55.6E 1.043 47 84 163 03m02.4s
05:54 34 43.7S 043 40.6E 35 49.1S 042 20.5E 35 16.6S 043 01.1E 1.043 48 82 164 03m05.1s
05:56 35 11.1S 044 44.2E 36 17.9S 043 25.7E 35 44.7S 044 05.4E 1.044 49 81 165 03m07.7s
05:58 35 37.6S 045 46.8E 36 45.8S 044 29.9E 36 11.8S 045 08.9E 1.044 50 79 165 03m10.2s
06:00 36 03.2S 046 48.7E 37 12.7S 045 33.3E 36 38.1S 046 11.5E 1.044 51 77 166 03m12.6s
06:02 36 28.0S 047 49.8E 37 38.7S 046 36.1E 37 03.5S 047 13.4E 1.044 53 75 166 03m14.9s
06:04 36 51.9S 048 50.3E 38 03.9S 047 38.2E 37 28.0S 048 14.7E 1.045 54 73 166 03m17.1s
06:06 37 15.1S 049 50.3E 38 28.2S 048 39.8E 37 51.7S 049 15.5E 1.045 55 71 167 03m19.2s
06:08 37 37.5S 050 49.8E 38 51.7S 049 41.0E 38 14.7S 050 15.9E 1.045 56 69 167 03m21.3s
06:10 37 59.1S 051 48.9E 39 14.4S 050 41.9E 38 36.9S 051 15.8E 1.045 57 67 167 03m23.2s
06:12 38 20.0S 052 47.6E 39 36.4S 051 42.4E 38 58.3S 052 15.5E 1.045 57 65 168 03m25.1s
06:14 38 40.2S 053 46.1E 39 57.6S 052 42.7E 39 19.0S 053 14.8E 1.045 58 63 168 03m26.9s
06:16 38 59.6S 054 44.3E 40 18.1S 053 42.8E 39 38.9S 054 14.0E 1.046 59 61 168 03m28.6s
06:18 39 18.4S 055 42.4E 40 37.9S 054 42.8E 39 58.2S 055 13.0E 1.046 60 58 168 03m30.2s
06:20 39 36.5S 056 40.3E 40 56.9S 055 42.7E 40 16.8S 056 11.9E 1.046 61 56 169 03m31.7s
06:22 39 54.0S 057 38.2E 41 15.3S 056 42.5E 40 34.7S 057 10.7E 1.046 62 53 169 03m33.1s
06:24 40 10.8S 058 35.9E 41 32.9S 057 42.4E 40 51.9S 058 09.5E 1.046 62 50 169 03m34.4s
06:26 40 26.9S 059 33.7E 41 49.9S 058 42.2E 41 08.4S 059 08.3E 1.046 63 48 169 03m35.7s
06:28 40 42.4S 060 31.5E 42 06.1S 059 42.2E 41 24.3S 060 07.2E 1.046 64 45 169 03m36.9s
06:30 40 57.2S 061 29.3E 42 21.7S 060 42.2E 41 39.5S 061 06.1E 1.046 64 42 169 03m37.9s
06:32 41 11.4S 062 27.2E 42 36.7S 061 42.3E 41 54.1S 062 05.1E 1.046 65 39 169 03m38.9s
06:34 41 25.0S 063 25.1E 42 50.9S 062 42.6E 42 07.9S 063 04.2E 1.047 65 36 169 03m39.8s
06:36 41 37.9S 064 23.3E 43 04.5S 063 43.1E 42 21.2S 064 03.5E 1.047 66 32 169 03m40.6s
06:38 41 50.2S 065 21.5E 43 17.4S 064 43.8E 42 33.8S 065 03.0E 1.047 66 29 169 03m41.3s
06:40 42 01.8S 066 20.0E 43 29.6S 065 44.8E 42 45.7S 066 02.6E 1.047 66 25 169 03m41.9s
06:42 42 12.8S 067 18.6E 43 41.1S 066 45.9E 42 57.0S 067 02.5E 1.047 67 22 169 03m42.4s
06:44 42 23.2S 068 17.5E 43 52.0S 067 47.4E 43 07.6S 068 02.6E 1.047 67 18 169 03m42.8s
06:46 42 33.0S 069 16.6E 44 02.2S 068 49.1E 43 17.6S 069 03.0E 1.047 67 15 169 03m43.1s
06:48 42 42.1S 070 16.0E 44 11.7S 069 51.1E 43 26.9S 070 03.7E 1.047 67 11 169 03m43.4s
06:50 42 50.5S 071 15.6E 44 20.5S 070 53.5E 43 35.5S 071 04.7E 1.047 67 8 169 03m43.5s
06:52 42 58.3S 072 15.5E 44 28.6S 071 56.2E 43 43.5S 072 06.0E 1.047 67 4 169 03m43.6s
06:54 43 05.5S 073 15.8E 44 36.1S 072 59.3E 43 50.7S 073 07.6E 1.047 67 0 169 03m43.5s
06:56 43 12.0S 074 16.4E 44 42.8S 074 02.7E 43 57.4S 074 09.6E 1.047 67 357 169 03m43.3s
06:58 43 17.8S 075 17.3E 44 48.8S 075 06.5E 44 03.3S 075 11.9E 1.047 67 353 169 03m43.1s
07:00 43 23.0S 076 18.6E 44 54.1S 076 10.7E 44 08.5S 076 14.7E 1.047 66 349 169 03m42.8s
07:02 43 27.5S 077 20.3E 44 58.7S 077 15.4E 44 13.1S 077 17.8E 1.047 66 346 169 03m42.3s
07:04 43 31.3S 078 22.4E 45 02.5S 078 20.5E 44 16.9S 078 21.4E 1.047 66 342 169 03m41.8s
07:06 43 34.5S 079 24.9E 45 05.6S 079 26.0E 44 20.0S 079 25.4E 1.047 65 339 168 03m41.2s
07:08 43 36.9S 080 27.9E 45 07.9S 080 32.0E 44 22.4S 080 29.8E 1.047 65 336 168 03m40.4s
07:10 43 38.6S 081 31.3E 45 09.5S 081 38.4E 44 24.0S 081 34.7E 1.047 64 333 168 03m39.6s
07:12 43 39.6S 082 35.2E 45 10.3S 082 45.4E 44 24.9S 082 40.1E 1.046 64 329 168 03m38.7s
07:14 43 39.9S 083 39.6E 45 10.4S 083 52.9E 44 25.1S 083 46.0E 1.046 63 326 168 03m37.7s
07:16 43 39.4S 084 44.5E 45 09.6S 085 00.9E 44 24.5S 084 52.4E 1.046 62 323 167 03m36.6s
07:18 43 38.2S 085 50.0E 45 08.0S 086 09.5E 44 23.1S 085 59.4E 1.046 62 321 167 03m35.4s
07:20 43 36.2S 086 56.0E 45 05.6S 087 18.6E 44 20.9S 087 07.0E 1.046 61 318 167 03m34.1s
07:22 43 33.5S 088 02.6E 45 02.4S 088 28.4E 44 17.9S 088 15.1E 1.046 60 315 167 03m32.7s
07:24 43 29.9S 089 09.9E 44 58.3S 089 38.7E 44 14.1S 089 23.9E 1.046 59 312 166 03m31.2s
07:26 43 25.5S 090 17.8E 44 53.3S 090 49.8E 44 09.4S 090 33.3E 1.046 59 310 166 03m29.6s
07:28 43 20.3S 091 26.3E 44 47.4S 092 01.5E 44 03.9S 091 43.5E 1.046 58 307 166 03m28.0s
07:30 43 14.2S 092 35.7E 44 40.6S 093 13.9E 43 57.4S 092 54.3E 1.045 57 305 165 03m26.2s
07:32 43 07.3S 093 45.8E 44 32.9S 094 27.1E 43 50.1S 094 06.0E 1.045 56 303 165 03m24.3s
07:34 42 59.4S 094 56.7E 44 24.2S 095 41.2E 43 41.8S 095 18.4E 1.045 55 300 165 03m22.4s
07:36 42 50.6S 096 08.5E 44 14.5S 096 56.1E 43 32.6S 096 31.7E 1.045 54 298 164 03m20.3s
07:38 42 40.9S 097 21.2E 44 03.7S 098 11.9E 43 22.4S 097 46.0E 1.045 53 296 164 03m18.1s
07:40 42 30.2S 098 34.9E 43 51.9S 099 28.7E 43 11.1S 099 01.2E 1.044 52 294 163 03m15.9s
07:42 42 18.4S 099 49.7E 43 39.0S 100 46.6E 42 58.8S 100 17.5E 1.044 51 292 163 03m13.6s
07:44 42 05.6S 101 05.7E 43 25.0S 102 05.6E 42 45.4S 101 35.0E 1.044 49 290 162 03m11.1s
07:46 41 51.6S 102 23.0E 43 09.7S 103 25.9E 42 30.8S 102 53.8E 1.044 48 288 162 03m08.6s
07:48 41 36.5S 103 41.6E 42 53.2S 104 47.6E 42 15.0S 104 13.9E 1.043 47 286 161 03m05.9s
07:50 41 20.2S 105 01.7E 42 35.4S 106 10.7E 41 57.9S 105 35.5E 1.043 46 284 160 03m03.2s
07:52 41 02.5S 106 23.4E 42 16.2S 107 35.6E 41 39.5S 106 58.8E 1.043 44 282 160 03m00.3s
07:54 40 43.5S 107 47.0E 41 55.6S 109 02.3E 41 19.7S 108 23.9E 1.043 43 280 159 02m57.4s
07:56 40 23.1S 109 12.6E 41 33.3S 110 31.0E 40 58.4S 109 51.1E 1.042 42 278 158 02m54.3s
07:58 40 01.0S 110 40.5E 41 09.4S 112 02.1E 40 35.4S 111 20.5E 1.042 40 277 157 02m51.1s
08:00 39 37.3S 112 11.0E 40 43.7S 113 35.8E 40 10.7S 112 52.6E 1.042 39 275 156 02m47.8s
08:02 39 11.7S 113 44.3E 40 16.0S 115 12.5E 39 44.1S 114 27.6E 1.041 37 273 155 02m44.3s
08:04 38 44.2S 115 21.0E 39 46.0S 116 52.7E 39 15.4S 116 06.0E 1.041 36 271 154 02m40.7s
08:06 38 14.3S 117 01.6E 39 13.7S 118 37.0E 38 44.3S 117 48.4E 1.040 34 270 153 02m37.0s
08:08 37 42.0S 118 46.7E 38 38.6S 120 26.1E 38 10.6S 119 35.5E 1.040 32 268 151 02m33.1s
08:10 37 06.8S 120 37.3E 38 00.2S 122 21.0E 37 33.9S 121 28.2E 1.039 30 266 150 02m29.0s
08:12 36 28.2S 122 34.5E 37 18.2S 124 23.1E 36 53.6S 123 27.8E 1.039 28 264 148 02m24.6s
08:14 35 45.6S 124 39.9E 36 31.6S 126 34.3E 36 09.1S 125 36.0E 1.038 26 262 146 02m20.0s
08:16 34 58.0S 126 55.9E 35 39.2S 128 57.5E 35 19.2S 127 55.5E 1.037 24 261 144 02m15.0s
08:18 34 04.0S 129 26.1E 34 39.3S 131 37.2E 34 22.3S 130 30.2E 1.037 21 259 142 02m09.6s
08:20 33 01.1S 132 16.9E 33 28.4S 134 41.6E 33 15.6S 133 27.5E 1.036 18 256 139 02m03.6s
08:22 31 44.4S 135 40.4E 31 59.1S 138 29.2E 31 53.2S 137 02.0E 1.035 14 254 135 01m56.6s
08:24 30 01.2S 140 09.5E 29 46.1S 144 03.5E 29 57.5S 141 58.0E 1.033 9 251 129 01m47.4s
Limits 25 53.5S 150 51.9E 26 47.8S 151 31.8E 26 20.6S 151 11.7E 1.030 0 - 118 01m32.1s
Instant of Greatest Eclipse: Time = 06:50:19.2 UT Lat = 43°36.8'S Long = 071°14.5'E (GE) Sun Altitude = 67.0° Path Width = 169.3 km Sun Azimuth = 7.0° Central Duration = 03m43.5s Instant of Greatest Duration: Time = 06:51:53 UT Lat = 43°43'S Long = 072°02'E (GD) Sun Altitude = 67.0° Path Width = 169.2 km Sun Azimuth = 4.1° Central Duration = 03m43.6s
Predictions for the Total Solar Eclipse of 2030 Nov 25 were generated using the VSOP87/ELP2000-85 solar and lunar ephemerides and a value of ΔT = 77.3 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
