Saros cycle series 141 for solar eclipses occurs at the Moon's ascending node, repeats every 18 years, 11 days and contains 70 events. The series started with a partial solar eclipse on May 19, 1613. It contains 41 annular eclipses from August 4, 1739 through October 14, 2460. There are no total eclipses in this series. The series ends at member 70 as a partial eclipse on June 13, 2857. All eclipses in this series occurs at the Moon's ascending node. [1]
Longest annular solar eclipse: annular solar eclipse on Wednesday, December 14, 1955 - 12 minutes, 9 seconds
Smallest snnular solar eclipse: annular solar eclipse on Monday, December 24, 1973 - magnitude: 0.9174
This solar saros is linked to Lunar Saros 134.
Umbral eclipses can be classified as either: 1) central (two limits), 2) central (one limit) or 3) non-central (one limit). The statistical distribution of these classes in Saros series 141 appears in the following table.
Classification | Number | Percent |
---|---|---|
All Umbral eclipses | 41 | 100.00% |
Central (two limits) | 41 | 100.00% |
Central (one limit) | 0 | 0.00% |
Non-central (one limit) | 0 | 0.00% |
Saros | Member | Date | Time (Greatest) UTC | Type | Location Lat, Long | Gamma | Mag. | Width (km) | Duration (min:sec) | Ref |
---|---|---|---|---|---|---|---|---|---|---|
141 | 1 | May 19, 1613 | 17:43:36 | Partial | 63.3N 137.6E | 1.5171 | 0.0712 | |||
141 | 2 | May 31, 1631 | 0:25:38 | Partial | 64.1N 27.6E | 1.4433 | 0.1996 | |||
141 | 3 | June 10, 1649 | 7:02:37 | Partial | 65N 81.5W | 1.3657 | 0.3345 | |||
141 | 4 | June 21, 1667 | 13:36:07 | Partial | 65.9N 170.1E | 1.2858 | 0.4732 | |||
141 | 5 | July 1, 1685 | 20:06:07 | Partial | 66.9N 62.2E | 1.203 | 0.6163 | |||
141 | 6 | July 14, 1703 | 2:36:34 | Partial | 67.9N 46.3W | 1.1206 | 0.758 | |||
141 | 7 | July 24, 1721 | 9:06:55 | Partial | 68.9N 155.2W | 1.0382 | 0.899 | |||
141 | 8 | August 4, 1739 | 15:40:56 | Annular | 79.9N 42.9E | 0.9588 | 0.9408 | 801 | 3m 59s | |
141 | 9 | August 14, 1757 | 22:16:45 | Annular | 71.6N 113.5W | 0.8807 | 0.9407 | 467 | 4m 36s | |
141 | 10 | August 26, 1775 | 4:59:40 | Annular | 61.3N 132E | 0.8088 | 0.9391 | 383 | 5m 16s | |
141 | 11 | September 5, 1793 | 11:47:24 | Annular | 51.7N 23E | 0.7407 | 0.937 | 347 | 6m 2s | |
141 | 12 | September 17, 1811 | 18:43:45 | Annular | 43N 85.9W | 0.6798 | 0.9345 | 330 | 6m 51s | |
141 | 13 | September 28, 1829 | 1:46:53 | Annular | 34.9N 164.3E | 0.6243 | 0.9317 | 323 | 7m 43s | |
141 | 14 | October 9, 1847 | 9:00:23 | Annular | 27.7N 52.8E | 0.5774 | 0.929 | 323 | 8m 35s | |
141 | 15 | October 19, 1865 | 16:21:14 | Annular | 21.3N 60.2W | 0.5366 | 0.9263 | 326 | 9m 27s | |
141 | 16 | October 30, 1883 | 23:50:54 | Annular | 15.6N 174.9W | 0.503 | 0.9238 | 331 | 10m 17s | |
141 | 17 | November 11, 1901 | 7:28:21 | Annular | 10.8N 68.9E | 0.4758 | 0.9216 | 336 | 11m 1s | |
141 | 18 | November 22, 1919 | 15:14:12 | Annular | 6.9N 48.9W | 0.4549 | 0.9198 | 341 | 11m 37s | |
141 | 19 | December 2, 1937 | 23:05:45 | Annular | 4N 167.8W | 0.4389 | 0.9184 | 344 | 12m 0s | |
141 | 20 | December 14, 1955 | 7:02:25 | Annular | 2.1N 72.2E | 0.4266 | 0.9176 | 346 | 12m 9s | |
141 | 21 | December 24, 1973 | 15:02:44 | Annular | 1.1N 48.5W | 0.4171 | 0.9174 | 345 | 12m 2s | |
141 | 22 | January 4, 1992 | 23:05:37 | Annular | 1N 169.7W | 0.4091 | 0.9179 | 340 | 11m 41s | |
141 | 23 | January 15, 2010 | 7:07:39 | Annular | 1.6N 69.3E | 0.4002 | 0.919 | 333 | 11m 8s | |
141 | 24 | January 26, 2028 | 15:08:59 | Annular | 3N 51.5W | 0.3901 | 0.9208 | 323 | 10m 27s | |
141 | 25 | February 5, 2046 | 23:06:26 | Annular | 4.8N 171.4W | 0.3765 | 0.9232 | 310 | 9m 42s | |
141 | 26 | February 17, 2064 | 7:00:23 | Annular | 7N 69.7E | 0.3597 | 0.9262 | 295 | 8m 56s | |
141 | 27 | February 27, 2082 | 14:47:00 | Annular | 9.4N 47.1W | 0.3361 | 0.9298 | 277 | 8m 12s | |
141 | 28 | March 10, 2100 | 22:28:11 | Annular | 12N 162.4W | 0.3077 | 0.9338 | 257 | 7m 29s | |
141 | 29 | March 22, 2118 | 6:00:55 | Annular | 14.3N 84.7E | 0.2719 | 0.9382 | 237 | 6m 50s | |
141 | 30 | April 1, 2136 | 13:26:19 | Annular | 16.5N 26W | 0.2295 | 0.943 | 216 | 6m 14s | |
141 | 31 | April 12, 2154 | 20:43:01 | Annular | 18.2N 134.2W | 0.1794 | 0.9478 | 195 | 5m 42s | |
141 | 32 | April 23, 2172 | 3:53:15 | Annular | 19.2N 119.6E | 0.1234 | 0.9528 | 174 | 5m 12s | |
141 | 33 | May 4, 2190 | 10:56:30 | Annular | 19.4N 15.4E | 0.0608 | 0.9577 | 154 | 4m 45s | |
141 | 34 | May 15, 2208 | 17:53:06 | Annular | 18.7N 87W | -0.008 | 0.9625 | 136 | 4m 19s | |
141 | 35 | May 27, 2226 | 0:45:11 | Annular | 16.8N 171.5E | -0.081 | 0.967 | 119 | 3m 55s | |
141 | 36 | June 6, 2244 | 7:33:12 | Annular | 13.8N 70.7E | -0.1581 | 0.9712 | 105 | 3m 31s | |
141 | 37 | June 17, 2262 | 14:19:15 | Annular | 9.8N 30.2W | -0.2377 | 0.975 | 92 | 3m 8s | |
141 | 38 | June 27, 2280 | 21:03:21 | Annular | 4.6N 131.2W | -0.3197 | 0.9784 | 81 | 2m 45s | |
141 | 39 | July 9, 2298 | 3:49:02 | Annular | 1.4S 126.5E | -0.4012 | 0.9811 | 73 | 2m 23s | |
141 | 40 | July 20, 2316 | 10:36:18 | Annular | 8.1S 23.1E | -0.4819 | 0.9834 | 67 | 2m 3s | |
141 | 41 | July 31, 2334 | 17:26:33 | Annular | 15.6S 81.8W | -0.5608 | 0.9851 | 64 | 1m 45s | |
141 | 42 | August 11, 2352 | 0:21:35 | Annular | 23.6S 171.2E | -0.6366 | 0.9862 | 63 | 1m 32s | |
141 | 43 | August 22, 2370 | 7:22:21 | Annular | 32S 62E | -0.7082 | 0.9867 | 66 | 1m 22s | |
141 | 44 | September 1, 2388 | 14:30:25 | Annular | 40.7S 50.1W | -0.7744 | 0.9867 | 73 | 1m 15s | |
141 | 45 | September 12, 2406 | 21:45:23 | Annular | 49.6S 165.5W | -0.8356 | 0.9862 | 88 | 1m 11s | |
141 | 46 | September 23, 2424 | 5:09:46 | Annular | 58.6S 74.1E | -0.8896 | 0.9853 | 114 | 1m 8s | |
141 | 47 | October 4, 2442 | 12:43:00 | Annular | 67.2S 54.7W | -0.9371 | 0.9838 | 166 | 1m 8s | |
141 | 48 | October 14, 2460 | 20:25:57 | Annular | 73.9S 156.1E | -0.9775 | 0.9817 | 328 | 1m 9s | |
141 | 49 | October 26, 2478 | 4:18:22 | Partial | 71S 13.3W | -1.0109 | 0.9645 | |||
141 | 50 | November 5, 2496 | 12:20:23 | Partial | 70.2S 146.4W | -1.0373 | 0.9173 | |||
141 | 51 | November 17, 2514 | 20:31:22 | Partial | 69.3S 78.9E | -1.0572 | 0.8818 | |||
141 | 52 | November 28, 2532 | 4:49:26 | Partial | 68.3S 57W | -1.0722 | 0.8553 | |||
141 | 53 | December 9, 2550 | 13:15:41 | Partial | 67.2S 165.7E | -1.0815 | 0.839 | |||
141 | 54 | December 19, 2568 | 21:47:01 | Partial | 66.2S 27.6E | -1.0877 | 0.8284 | |||
141 | 55 | December 31, 2586 | 6:23:26 | Partial | 65.1S 111.3W | -1.0903 | 0.8243 | |||
141 | 56 | January 11, 2605 | 15:01:06 | Partial | 64.2S 110E | -1.0928 | 0.8207 | |||
141 | 57 | January 22, 2623 | 23:41:24 | Partial | 63.3S 29.1W | -1.0937 | 0.8199 | |||
141 | 58 | February 2, 2641 | 8:20:04 | Partial | 62.6S 167.5W | -1.0971 | 0.815 | |||
141 | 59 | February 13, 2659 | 16:57:15 | Partial | 62S 54.6E | -1.102 | 0.8073 | |||
141 | 60 | February 24, 2677 | 1:29:55 | Partial | 61.6S 81.9W | -1.1113 | 0.7915 | |||
141 | 61 | March 7, 2695 | 9:58:56 | Partial | 61.3S 142.5E | -1.1242 | 0.7693 | |||
141 | 62 | March 18, 2713 | 18:21:32 | Partial | 61.2S 8.6E | -1.1428 | 0.7362 | |||
141 | 63 | March 30, 2731 | 2:38:14 | Partial | 61.2S 123.8W | -1.1669 | 0.6925 | |||
141 | 64 | April 9, 2749 | 10:47:47 | Partial | 61.5S 105.6E | -1.1976 | 0.6362 | |||
141 | 65 | April 20, 2767 | 18:51:20 | Partial | 61.8S 23.6W | -1.2335 | 0.5694 | |||
141 | 66 | May 1, 2785 | 2:47:04 | Partial | 62.3S 151W | -1.2764 | 0.4886 | |||
141 | 67 | May 12, 2803 | 10:37:20 | Partial | 63S 82.7E | -1.3244 | 0.3976 | |||
141 | 68 | May 22, 2821 | 18:21:01 | Partial | 63.8S 42W | -1.3779 | 0.2949 | |||
141 | 69 | June 3, 2839 | 2:01:17 | Partial | 64.6S 166.2W | -1.435 | 0.1847 | |||
141 | 70 | June 13, 2857 | 9:35:05 | Partial | 65.5S 70.9E | -1.4973 | 0.0637 |
Saros cycle series 119 for solar eclipses occurs at the Moon's ascending node, repeating every 18 years, 11 days, containing 71 events. All eclipses in this series occurs at the Moon's ascending node.
Saros cycle series 121 for solar eclipses occurs at the Moon's ascending node, repeating every 18 years, 11 days, contains 71 solar eclipse events. 55 of these are umbral eclipses. All eclipses in this series occurs at the Moon's ascending node.
Saros cycle series 123 for solar eclipses occurs at the Moon's ascending node, repeating every 18 years, 11 days, containing 70 events. All eclipses in this series occurs at the Moon's ascending node.
Saros cycle series 129 for solar eclipses occurs at the Moon's ascending node, repeating every 18 years, 11 days, containing 80 events. All eclipses in this series occurs at the Moon's ascending node.
Saros cycle series 131 for solar eclipses occurs at the Moon's ascending node, repeating every 18 years, 11 days, containing 70 events. All eclipses in this series occurs at the Moon's ascending node.
Saros cycle series 133 for solar eclipses occurs at the Moon's ascending node, repeating every 18 years, 11 days, containing 72 events. All eclipses in this series occurs at the Moon's ascending node.
Saros cycle series 135 for solar eclipses occurs at the Moon's ascending node, repeating every 18 years, 11 days. Solar Saros 135 contains 71 events in which of 18 will be partial eclipses and 53 will be umbral eclipses. All eclipses in this series occurs at the Moon's ascending node.
Saros cycle series 137 for solar eclipses occurs at the Moon's ascending node. It repeats every 18 years, 11 days, and contains 70 events. 55 of these are umbral eclipses and other 15 of these are partial solar eclipses. All eclipses in this series occurs at the Moon's ascending node.
Saros cycle series 140 for solar eclipses occurs at the Moon's descending node, repeating every 18 years, 11 days, containing 71 events. All eclipses in this series occurs at the Moon's descending node.
Saros cycle series 143 for solar eclipses occurs at the Moon's ascending node, repeating every 18 years and 11 days, containing 72 events. It consisted of 10 partial eclipses, 12 total eclipses, 4 hybrid events, 26 annular eclipses, and ends with 20 partial eclipses. The longest total eclipse of the series was in 1887 at 3 minutes and 50 seconds. All eclipses in this series occurs at the Moon's ascending node.
Saros cycle series 144 for solar eclipses occurs at the Moon's descending node, repeating every 18 years, 11 days, containing 70 events. All eclipses in this series occurs at the Moon's descending node.
Saros cycle series 145 for solar eclipses occurs at the Moon's ascending node, repeating every 18 years, 11 days, containing 77 events. It is currently a young cycle producing total eclipses less than 3 minutes in length. The series started with a partial solar eclipse on January 4, 1639, and reached a first annular eclipse on June 6, 1891. It was a hybrid event on June 17, 1909, and total eclipses from June 29, 1927, through September 9, 2648. The series ends at member 77 as a partial eclipse on April 17, 3009. The longest duration eclipse in the cycle will be member 50 at 7 minutes and 12 seconds in length on June 25, 2522, after which the durations of eclipses will decrease until the end of the cycle. In its central phase it will produce mainly total eclipses. All eclipses in this series occur at the Moon's ascending node.
Saros cycle series 146 for solar eclipses occurs at the Moon's descending node, repeating every 18 years, 11 days, containing 76 events. All eclipses in this series occurs at the Moon's descending node.
Saros cycle series 147 for solar eclipses occurs at the Moon's ascending node, repeating every 18 years, 11 days, containing 80 events. All eclipses in this series occurs at the Moon's ascending node.
Saros cycle series 150 for solar eclipses occurs at the Moon's descending node, repeating every 18 years, 11 days, containing 71 events. All eclipses in this series occurs at the Moon's descending node.
Saros cycle series 151 for solar eclipses occurs at the Moon's ascending node, repeating every 18 years, 11 days, containing 72 events, with 68 before 3000 AD. All eclipses in this series occurs at the Moon's ascending node.
Saros cycle series 153 for solar eclipses occurs at the Moon's ascending node, repeating every 18 years, 11 days, containing 70 events, with 63 before 3000 AD. All eclipses in this series occurs at the Moon's ascending node.
Saros cycle series 155 for solar eclipses occurs at the Moon's ascending node, repeating every 18 years, 11 days. Saros 155 contains 71 events in which of 15 will be partial solar eclipses and other 56 are umbral. There are 60 solar eclipses before 3000 AD. All eclipses in this series occurs at the Moon's ascending node.
Saros cycle series 157 for solar eclipses occurs at the Moon's ascending node, repeating every 18 years, 11 days, containing 70 events, with 55 listed before 3000 AD. All eclipses in this series occurs at the Moon's ascending node.
Saros cycle series 161 for solar eclipses occurs at the Moon's ascending node, repeating every 18 years, 11 days, containing 46 events before 3000 AD. All eclipses in this series occurs at the Moon's ascending node.