Saros cycle series 151 for lunar eclipses occurs at the moon's descending node, repeats every 18 years 11 and 1/3 days. It contains 71 events (51 listed before 3000). [1]
This lunar saros is linked to Solar Saros 158.
| Cat. | Saros | Mem | Date | Time UT (hr:mn) | Type | Gamma | Magnitude | Duration (min) | Contacts UT (hr:mn) | Chart | |||||||
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
| Greatest | Pen. | Par. | Tot. | P1 | P4 | U1 | U2 | U3 | U4 | ||||||||
| 09868 | 151 | 1 | 2096 Jun 06 | 2:43:41 | Penumbral | -1.5723 | -1.0584 | 21.2 | 2:33:05 | 2:54:17 | |||||||
| 09910 | 151 | 2 | 2114 Jun 18 | 9:17:07 | Penumbral | -1.4944 | -0.9157 | 117.4 | 8:18:25 | 10:15:49 | |||||||
| 09952 | 151 | 3 | 2132 Jun 28 | 15:45:35 | Penumbral | -1.4127 | -0.7663 | 164.7 | 14:23:14 | 17:07:56 | |||||||
| 09996 | 151 | 4 | 2150 Jul 09 | 22:13:22 | Penumbral | -1.3300 | -0.6151 | 199.9 | 20:33:25 | 23:53:19 | |||||||
| 10039 | 151 | 5 | 2168 Jul 20 | 4:38:50 | Penumbral | -1.2454 | -0.4607 | 228.9 | 2:44:23 | 6:33:17 | |||||||
| 10082 | 151 | 6 | 2186 Jul 31 | 11:07:14 | Penumbral | -1.1629 | -0.3102 | 252.6 | 9:00:56 | 13:13:32 | |||||||
| 10125 | 151 | 7 | 2204 Aug 11 | 17:37:23 | Penumbral | -1.0819 | -0.1627 | 272.6 | 15:21:05 | 19:53:41 | |||||||
| 10169 | 151 | 8 | 2222 Aug 23 | 0:12:08 | Penumbral | -1.0042 | -0.0214 | 289.4 | 21:47:26 | 2:36:50 | |||||||
| 10214 | 151 | 9 | 2240 Sep 02 | 6:52:16 | Partial | -0.9304 | 0.1126 | 303.5 | 81.7 | 4:20:31 | 9:24:01 | 6:11:25 | 7:33:07 | ||||
| 10259 | 151 | 10 | 2258 Sep 13 | 13:39:53 | Partial | -0.8623 | 0.2362 | 315.1 | 116.3 | 11:02:20 | 16:17:26 | 12:41:44 | 14:38:02 | ||||
| 10305 | 151 | 11 | 2276 Sep 23 | 20:35:24 | Partial | -0.8004 | 0.3482 | 324.7 | 138.9 | 17:53:03 | 23:17:45 | 19:25:57 | 21:44:51 | ||||
| 10352 | 151 | 12 | 2294 Oct 05 | 3:38:22 | Partial | -0.7442 | 0.4498 | 332.5 | 155.4 | 0:52:07 | 6:24:37 | 2:20:40 | 4:56:04 | ||||
| 10398 | 151 | 13 | 2312 Oct 16 | 10:51:23 | Partial | -0.6960 | 0.5368 | 338.6 | 167.4 | 8:02:05 | 13:40:41 | 9:27:41 | 12:15:05 | ||||
| 10444 | 151 | 14 | 2330 Oct 27 | 18:12:55 | Partial | -0.6542 | 0.6121 | 343.5 | 176.4 | 15:21:10 | 21:04:40 | 16:44:43 | 19:41:07 | ||||
| 10490 | 151 | 15 | 2348 Nov 07 | 1:44:25 | Partial | -0.6202 | 0.6733 | 347.2 | 183.0 | 22:50:49 | 4:38:01 | 0:12:55 | 3:15:55 | ||||
| 10535 | 151 | 16 | 2366 Nov 18 | 9:23:06 | Partial | -0.5917 | 0.7245 | 350.0 | 188.0 | 6:28:06 | 12:18:06 | 7:49:06 | 10:57:06 | ||||
| 10580 | 151 | 17 | 2384 Nov 28 | 17:11:03 | Partial | -0.5705 | 0.7626 | 351.9 | 191.5 | 14:15:06 | 20:07:00 | 15:35:18 | 18:46:48 | ||||
| 10625 | 151 | 18 | 2402 Dec 10 | 1:04:27 | Partial | -0.5534 | 0.7935 | 353.2 | 194.1 | 22:07:51 | 4:01:03 | 23:27:24 | 2:41:30 | ||||
| 10670 | 151 | 19 | 2420 Dec 20 | 9:03:39 | Partial | -0.5406 | 0.8168 | 353.9 | 195.9 | 6:06:42 | 12:00:36 | 7:25:42 | 10:41:36 | ||||
| 10714 | 151 | 20 | 2438 Dec 31 | 17:06:05 | Partial | -0.5300 | 0.8365 | 354.4 | 197.3 | 14:08:53 | 20:03:17 | 15:27:26 | 18:44:44 | ||||
| 10758 | 151 | 21 | 2457 Jan 11 | 1:11:47 | Partial | -0.5215 | 0.8527 | 354.5 | 198.3 | 22:14:32 | 4:09:02 | 23:32:38 | 2:50:56 | ||||
| 10800 | 151 | 22 | 2475 Jan 22 | 9:16:58 | Partial | -0.5121 | 0.8708 | 354.5 | 199.5 | 6:19:43 | 12:14:13 | 7:37:13 | 10:56:43 | ||||
| 10841 | 151 | 23 | 2493 Feb 01 | 17:21:21 | Partial | -0.5016 | 0.8915 | 354.5 | 200.8 | 14:24:06 | 20:18:36 | 15:40:57 | 19:01:45 | ||||
| 10882 | 151 | 24 | 2511 Feb 14 | 1:22:52 | Partial | -0.4880 | 0.9181 | 354.5 | 202.5 | 22:25:37 | 4:20:07 | 23:41:37 | 3:04:07 | ||||
| 10922 | 151 | 25 | 2529 Feb 24 | 9:21:26 | Partial | -0.4712 | 0.9508 | 354.6 | 204.5 | 6:24:08 | 12:18:44 | 7:39:11 | 11:03:41 | ||||
| 10963 | 151 | 26 | 2547 Mar 07 | 17:12:49 | Partial | -0.4480 | 0.9958 | 355.1 | 207.1 | 14:15:16 | 20:10:22 | 15:29:16 | 18:56:22 | ||||
| 11005 | 151 | 27 | 2565 Mar 18 | 0:59:22 | Total | -0.4202 | 1.0492 | 355.6 | 210.0 | 35.6 | 22:01:34 | 3:57:10 | 23:14:22 | 0:41:34 | 1:17:10 | 2:44:22 | |
| 11046 | 151 | 28 | 2583 Mar 29 | 8:37:39 | Total | -0.3849 | 1.1167 | 356.3 | 213.4 | 53.6 | 5:39:30 | 11:35:48 | 6:50:57 | 8:10:51 | 9:04:27 | 10:24:21 | |
| 11086 | 151 | 29 | 2601 Apr 09 | 16:10:39 | Total | -0.3445 | 1.1937 | 357.1 | 216.8 | 67.3 | 13:12:06 | 19:09:12 | 14:22:15 | 15:37:00 | 16:44:18 | 17:59:03 | |
| 11126 | 151 | 30 | 2619 Apr 20 | 23:33:42 | Total | -0.2952 | 1.2870 | 357.8 | 220.4 | 79.1 | 20:34:48 | 2:32:36 | 21:43:30 | 22:54:09 | 0:13:15 | 1:23:54 | |
| 11167 | 151 | 31 | 2637 May 1 | 6:52:10 | Total | -0.2413 | 1.3888 | 358.4 | 223.5 | 88.5 | 3:52:58 | 9:51:22 | 5:00:25 | 6:07:55 | 7:36:25 | 8:43:55 | |
| 11208 | 151 | 32 | 2655 May 12 | 14:01:47 | Total | -0.1797 | 1.5046 | 358.6 | 226.1 | 96.0 | 11:02:29 | 17:01:05 | 12:08:44 | 13:13:47 | 14:49:47 | 15:54:50 | |
| 11250 | 151 | 33 | 2673 May 22 | 21:07:24 | Total | -0.1140 | 1.6281 | 358.4 | 227.8 | 101.2 | 18:08:12 | 0:06:36 | 19:13:30 | 20:16:48 | 21:58:00 | 23:01:18 | |
| 11293 | 151 | 34 | 2691 Jun 03 | 4:06:13 | Total | -0.0418 | 1.7632 | 357.5 | 228.6 | 104.0 | 1:07:28 | 7:04:58 | 2:11:55 | 3:14:13 | 4:58:13 | 6:00:31 | |
| 11336 | 151 | 35 | 2709 Jun 14 | 11:03:25 | Total | 0.0326 | 1.7826 | 355.9 | 228.1 | 104.1 | 8:05:28 | 14:01:22 | 9:09:22 | 10:11:22 | 11:55:28 | 12:57:28 | |
| 11378 | 151 | 36 | 2727 Jun 25 | 17:57:08 | Total | 0.1104 | 1.6419 | 353.5 | 226.3 | 101.2 | 15:00:23 | 20:53:53 | 16:03:59 | 17:06:32 | 18:47:44 | 19:50:17 | |
| 11420 | 151 | 37 | 2745 Jul 06 | 0:50:21 | Total | 0.1897 | 1.4986 | 350.1 | 223.0 | 94.9 | 21:55:18 | 3:45:24 | 22:58:51 | 0:02:54 | 1:37:48 | 2:41:51 | |
| 11464 | 151 | 38 | 2763 Jul 17 | 7:43:39 | Total | 0.2695 | 1.3540 | 345.9 | 218.1 | 84.5 | 4:50:42 | 10:36:36 | 5:54:36 | 7:01:24 | 8:25:54 | 9:32:42 | |
| 11508 | 151 | 39 | 2781 Jul 27 | 14:38:59 | Total | 0.3484 | 1.2108 | 340.8 | 211.8 | 68.4 | 11:48:35 | 17:29:23 | 12:53:05 | 14:04:47 | 15:13:11 | 16:24:53 | |
| 11554 | 151 | 40 | 2799 Aug 07 | 21:37:38 | Total | 0.4256 | 1.0705 | 335.0 | 204.1 | 41.2 | 18:50:08 | 0:25:08 | 19:55:35 | 21:17:02 | 21:58:14 | 23:19:41 | |
| 11601 | 151 | 41 | 2817 Aug 18 | 4:40:17 | Partial | 0.5002 | 0.9347 | 328.5 | 194.9 | 1:56:02 | 7:24:32 | 3:02:50 | 6:17:44 | ||||
| 11649 | 151 | 42 | 2835 Aug 29 | 11:49:21 | Partial | 0.5704 | 0.8068 | 321.5 | 184.6 | 9:08:36 | 14:30:06 | 10:17:03 | 13:21:39 | ||||
| 11695 | 151 | 43 | 2853 Sep 08 | 19:05:00 | Partial | 0.6356 | 0.6877 | 314.2 | 173.3 | 16:27:54 | 21:42:06 | 17:38:21 | 20:31:39 | ||||
| 11741 | 151 | 44 | 2871 Sep 20 | 2:28:09 | Partial | 0.6956 | 0.5781 | 306.9 | 161.2 | 23:54:42 | 5:01:36 | 1:07:33 | 3:48:45 | ||||
| 11787 | 151 | 45 | 2889 Sep 30 | 9:59:39 | Partial | 0.7495 | 0.4796 | 299.7 | 148.7 | 7:29:48 | 12:29:30 | 8:45:18 | 11:14:00 | ||||
| 11832 | 151 | 46 | 2907 Oct 12 | 17:40:09 | Partial | 0.7968 | 0.3929 | 292.8 | 135.9 | 15:13:45 | 20:06:33 | 16:32:12 | 18:48:06 | ||||
| 11877 | 151 | 47 | 2925 Oct 23 | 1:29:54 | Partial | 0.8370 | 0.3194 | 286.4 | 123.5 | 23:06:42 | 3:53:06 | 0:28:09 | 2:31:39 | ||||
| 11922 | 151 | 48 | 2943 Nov 03 | 9:27:52 | Partial | 0.8712 | 0.2566 | 280.7 | 111.4 | 7:07:31 | 11:48:13 | 8:32:10 | 10:23:34 | ||||
| 11968 | 151 | 49 | 2961 Nov 13 | 17:35:24 | Partial | 0.8982 | 0.2071 | 275.8 | 100.5 | 15:17:30 | 19:53:18 | 16:45:09 | 18:25:39 | ||||
| 12013 | 151 | 50 | 2979 Nov 25 | 1:51:15 | Partial | 0.9195 | 0.1682 | 271.7 | 90.8 | 23:35:24 | 4:07:06 | 1:05:51 | 2:36:39 | ||||
| 12057 | 151 | 51 | 2997 Dec 05 | 10:15:08 | Partial | 0.9348 | 0.1403 | 268.5 | 83.0 | 8:00:53 | 12:29:23 | 9:33:38 | 10:56:38 | ||||
A penumbral lunar eclipse took place on December 30, 2001, the last of three lunar eclipses in 2001.
A total solar eclipse occurred on July 11, 1991. A solar eclipse occurs when the Moon passes between Earth and the Sun, thereby totally or partly obscuring the image of the Sun for a viewer on Earth. A total solar eclipse occurs when the Moon's apparent diameter is larger than the Sun's, blocking all direct sunlight, turning day into darkness. Totality occurs in a narrow path across Earth's surface, with the partial solar eclipse visible over a surrounding region thousands of kilometres wide. Totality began over the Pacific Ocean and Hawaii moving across Mexico, down through Central America and across South America ending over Brazil. It lasted for 6 minutes and 53.08 seconds at the point of maximum eclipse. There will not be a longer total eclipse until June 13, 2132. This was the largest total solar eclipse of Solar Saros series 136, because eclipse magnitude was 1.07997.
A total lunar eclipse will take place on May 26, 2040. The moon will pass through the center of the Earth's shadow.
A total lunar eclipse will take place on 16 May 2022, the first of two total lunar eclipses in 2022, and the second will happen on 8 November.
A total lunar eclipse took place on April 24, 1986, the first of two total lunar eclipses in 1986, the second being on October 17, 1986.
A penumbral lunar eclipse took place on December 20, 1983. At the maximum eclipse, 89% of the Moon's disk was partially shaded by the Earth, which caused a slight shadow gradient across its disc; this subtle effect may have been visible to careful observers. No part of the Moon was in complete shadow. The eclipse lasted 4 hours and 2 minutes overall.
A total lunar eclipse took place on April 13, 1968, the first of two total eclipses in 1968, the second being on October 6, 1968. The tables below contain detailed predictions and additional information on the Total Lunar Eclipse of April 13, 1968.
A total lunar eclipse took place on April 2, 1950. This was the first total lunar eclipse of Saros cycle 131.
A penumbral lunar eclipse took place on December 8, 1965. At maximum eclipse, 88% of the Moon's disc was partially shaded by the Earth, which caused a slight shadow gradient across its disc; this subtle effect may have been visible to careful observers. No part of the Moon was in complete shadow. The eclipse lasted 4 hours and 1 minute overall.
An annular solar eclipse will occur on June 10, 2021. A solar eclipse occurs when the Moon passes between Earth and the Sun, thereby totally or partly obscuring the image of the Sun for a viewer on Earth. An annular solar eclipse occurs when the Moon's apparent diameter is smaller than the Sun's, blocking most of the Sun's light and causing the Sun to look like an annulus (ring). An annular eclipse appears as a partial eclipse over a region of the Earth thousands of kilometres wide.
A total solar eclipse occurred on June 30, 1992. A solar eclipse occurs when the Moon passes between Earth and the Sun, thereby totally or partly obscuring the image of the Sun for a viewer on Earth. A total solar eclipse occurs when the Moon's apparent diameter is larger than the Sun's, blocking all direct sunlight, turning day into darkness. Totality occurs in a narrow path across Earth's surface, with the partial solar eclipse visible over a surrounding region thousands of kilometres wide. Totality was visible in southeastern Uruguay and southern tip of Rio Grande do Sul, Brazil.
A total solar eclipse will occur on May 20, 2050. A solar eclipse occurs when the Moon passes between Earth and the Sun, thereby totally or partly obscuring the image of the Sun for a viewer on Earth. A total solar eclipse occurs when the Moon's apparent diameter is larger than the Sun's, blocking all direct sunlight, turning day into darkness. Totality occurs in a narrow path across Earth's surface, with the partial solar eclipse visible over a surrounding region thousands of kilometres wide. This eclipse is a hybrid eclipse, starting and ending as an annular solar eclipse.
An annular solar eclipse will occur on November 4, 2078. A solar eclipse occurs when the Moon passes between Earth and the Sun, thereby totally or partly obscuring the image of the Sun for a viewer on Earth. An annular solar eclipse occurs when the Moon's apparent diameter is smaller than the Sun's, blocking most of the Sun's light and causing the Sun to look like an annulus (ring). An annular eclipse appears as a partial eclipse over a region of the Earth thousands of kilometres wide. The path of annularity will cross Pacific Ocean, South America, and Atlantic Ocean. The tables below contain detailed predictions and additional information on the Annular Solar Eclipse of 4 November 2078.
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 158 for solar eclipses occurs at the Moon's descending node, repeating every 18 years, 11 days, containing 70 events, with 52 listed before 3000 AD. All eclipses in this series occurs at the Moon's descending node.
Saros cycle series 112 for lunar eclipses occurs at the moon's ascending node, 18 years 11 and 1/3 days. It contains 72 events, with 15 total eclipses, starting in 1364 and ending in 1616. Solar Saros 119 interleaves with this lunar Saros with an event occurring every 9 years 5 days alternating between each saros series.
Saros cycle series 128 for lunar eclipses occurs at the moon's ascending node, repeating every 18 years 11 and 1/3 days. It contains 71 events. Solar saros 135 interleaves with this lunar saros with an event occurring every 9 years 5 days alternating between each saros series.
Saros cycle series 130 for lunar eclipses occurs at the moon's ascending node, 18 years 11 and 1/3 days. It contains 71 events. Solar saros 137 interleaves with this lunar saros with an event occurring every 9 years 5 days alternating between each saros series.
Saros cycle series 144 for lunar eclipses occurs at the moon's ascending node, 18 years 11 and 1/3 days. It contains 71 events.
Saros cycle series 127 for lunar eclipses occurs at the moon's descending node, repeats every 18 years 11 and 1/3 days. It contains 72 events. Solar saros 134 interleaves with this lunar saros with an event occurring every 9 years 5 days alternating between each saros series. It consisted with 10 penumbral eclipses, 21 partial eclipses, 11 total eclipses, 21 partial eclipses, and ends with 8 penumbral eclipses.
