Solar Saros 141

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]

January 15, 2010
Annularity from Bangui, Central African Republic
Series member 23

Longest Annular Solar Eclipse: Annular Solar Eclipse on Wednesday, December 14, 1955 - 12 minutes, 9 seconds

Smallest Annular Solar Eclipse: Annular Solar Eclipse on Monday, December 24, 1973 - Magnitude: 0.9174

This solar saros is linked to Lunar Saros 134.

Umbral eclipses

Umbral eclipses (annular, total and hybrid) can be further 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.

ClassificationNumberPercent
All Umbral eclipses41100.00%
Central (two limits)41100.00%
Central (one limit)00.00%
Non-central (one limit)00.00%

Events

SarosMemberDateTime
(Greatest)
UTC
TypeLocation
Lat, Long
GammaMag.Width
(km)
Duration
(min:sec)
Ref
1411May 19, 161317:43:36Partial63.3N 137.6E1.51710.0712
1412May 31, 16310:25:38Partial64.1N 27.6E1.44330.1996
1413June 10, 16497:02:37Partial65N 81.5W1.36570.3345
1414June 21, 166713:36:07Partial65.9N 170.1E1.28580.4732
1415July 1, 168520:06:07Partial66.9N 62.2E1.2030.6163
1416July 14, 17032:36:34Partial67.9N 46.3W1.12060.758
1417July 24, 17219:06:55Partial68.9N 155.2W1.03820.899
1418August 4, 173915:40:56Annular79.9N 42.9E0.95880.94088013m 59s
1419August 14, 175722:16:45Annular71.6N 113.5W0.88070.94074674m 36s
14110August 26, 17754:59:40Annular61.3N 132E0.80880.93913835m 16s
14111September 5, 179311:47:24Annular51.7N 23E0.74070.9373476m 2s
14112September 17, 181118:43:45Annular43N 85.9W0.67980.93453306m 51s
14113September 28, 18291:46:53Annular34.9N 164.3E0.62430.93173237m 43s
14114October 9, 18479:00:23Annular27.7N 52.8E0.57740.9293238m 35s
14115October 19, 186516:21:14Annular21.3N 60.2W0.53660.92633269m 27s
14116October 30, 188323:50:54Annular15.6N 174.9W0.5030.923833110m 17s
14117November 11, 19017:28:21Annular10.8N 68.9E0.47580.921633611m 1s
14118November 22, 191915:14:12Annular6.9N 48.9W0.45490.919834111m 37s
14119December 2, 193723:05:45Annular4N 167.8W0.43890.918434412m 0s
14120December 14, 19557:02:25Annular2.1N 72.2E0.42660.917634612m 9s
14121December 24, 197315:02:44Annular1.1N 48.5W0.41710.917434512m 2s
14122January 4, 199223:05:37Annular1N 169.7W0.40910.917934011m 41s
14123January 15, 20107:07:39Annular1.6N 69.3E0.40020.91933311m 8s
14124January 26, 202815:08:59Annular3N 51.5W0.39010.920832310m 27s
14125February 5, 204623:06:26Annular4.8N 171.4W0.37650.92323109m 42s
14126February 17, 20647:00:23Annular7N 69.7E0.35970.92622958m 56s
14127February 27, 208214:47:00Annular9.4N 47.1W0.33610.92982778m 12s
14128March 10, 210022:28:11Annular12N 162.4W0.30770.93382577m 29s
14129March 22, 21186:00:55Annular14.3N 84.7E0.27190.93822376m 50s
14130April 1, 213613:26:19Annular16.5N 26W0.22950.9432166m 14s
14131April 12, 215420:43:01Annular18.2N 134.2W0.17940.94781955m 42s
14132April 23, 21723:53:15Annular19.2N 119.6E0.12340.95281745m 12s
14133May 4, 219010:56:30Annular19.4N 15.4E0.06080.95771544m 45s
14134May 15, 220817:53:06Annular18.7N 87W-0.0080.96251364m 19s
14135May 27, 22260:45:11Annular16.8N 171.5E-0.0810.9671193m 55s
14136June 6, 22447:33:12Annular13.8N 70.7E-0.15810.97121053m 31s
14137June 17, 226214:19:15Annular9.8N 30.2W-0.23770.975923m 8s
14138June 27, 228021:03:21Annular4.6N 131.2W-0.31970.9784812m 45s
14139July 9, 22983:49:02Annular1.4S 126.5E-0.40120.9811732m 23s
14140July 20, 231610:36:18Annular8.1S 23.1E-0.48190.9834672m 3s
14141July 31, 233417:26:33Annular15.6S 81.8W-0.56080.9851641m 45s
14142August 11, 23520:21:35Annular23.6S 171.2E-0.63660.9862631m 32s
14143August 22, 23707:22:21Annular32S 62E-0.70820.9867661m 22s
14144September 1, 238814:30:25Annular40.7S 50.1W-0.77440.9867731m 15s
14145September 12, 240621:45:23Annular49.6S 165.5W-0.83560.9862881m 11s
14146September 23, 24245:09:46Annular58.6S 74.1E-0.88960.98531141m 8s
14147October 4, 244212:43:00Annular67.2S 54.7W-0.93710.98381661m 8s
14148October 14, 246020:25:57Annular73.9S 156.1E-0.97750.98173281m 9s
14149October 26, 24784:18:22Partial71S 13.3W-1.01090.9645
14150November 5, 249612:20:23Partial70.2S 146.4W-1.03730.9173
14151November 17, 251420:31:22Partial69.3S 78.9E-1.05720.8818
14152November 28, 25324:49:26Partial68.3S 57W-1.07220.8553
14153December 9, 255013:15:41Partial67.2S 165.7E-1.08150.839
14154December 19, 256821:47:01Partial66.2S 27.6E-1.08770.8284
14155December 31, 25866:23:26Partial65.1S 111.3W-1.09030.8243
14156January 11, 260515:01:06Partial64.2S 110E-1.09280.8207
14157January 22, 262323:41:24Partial63.3S 29.1W-1.09370.8199
14158February 2, 26418:20:04Partial62.6S 167.5W-1.09710.815
14159February 13, 265916:57:15Partial62S 54.6E-1.1020.8073
14160February 24, 26771:29:55Partial61.6S 81.9W-1.11130.7915
14161March 7, 26959:58:56Partial61.3S 142.5E-1.12420.7693
14162March 18, 271318:21:32Partial61.2S 8.6E-1.14280.7362
14163March 30, 27312:38:14Partial61.2S 123.8W-1.16690.6925
14164April 9, 274910:47:47Partial61.5S 105.6E-1.19760.6362
14165April 20, 276718:51:20Partial61.8S 23.6W-1.23350.5694
14166May 1, 27852:47:04Partial62.3S 151W-1.27640.4886
14167May 12, 280310:37:20Partial63S 82.7E-1.32440.3976
14168May 22, 282118:21:01Partial63.8S 42W-1.37790.2949
14169June 3, 28392:01:17Partial64.6S 166.2W-1.4350.1847
14170June 13, 28579:35:05Partial65.5S 70.9E-1.49730.0637

Notes

  1. Espenak, Fred (26 September 2009). "NASA - Catalog of Solar Eclipses of Saros 141". eclipse.gsfc.nasa.gov.
gollark: τ > π
gollark: It's entirely possible that the universe is totally apiodeterministic.
gollark: Also, you can somewhat observe randomness by running statistical tests on large volumes of output.
gollark: Sorry, nucleus, not particle.
gollark: As in, physics doesn't know of a way to tell if a given particle will decay in a given amount of time, it can just estimate a probability.

References

This article is issued from Wikipedia. The text is licensed under Creative Commons - Attribution - Sharealike. Additional terms may apply for the media files.