Saros 122

Catalog of Solar Eclipses of Saros 122

Fred Espenak

Introduction

A solar eclipse occurs whenever the Moon's shadow passes across Earth's surface. At least two solar eclipses and as many as five occur every year.

The periodicity and recurrence of solar eclipses is governed by the Saros cycle, a period of approximately 6,585.3 days (18 years 11 days 8 hours). When two eclipses are separated by a period of one Saros, they share a very similar geometry. The two eclipses occur at the same node with the Moon at nearly the same distance from Earth and the same time of year due to a harmonic in three cycles of the Moon's orbit. Thus, the Saros is useful for organizing eclipses into families or series. Each series typically lasts 12 to 13 centuries and contains 70 or more eclipses. Every saros series begins with a number of partial eclipses near one of Earth's polar regions. The series will then produce several dozen central eclipses before ending with a group of partial eclipses near the opposite pole. For more information, see Periodicity of Solar Eclipses.

Catalog of Solar Eclipses of Saros 122

The table below lists the concise characteristics of every solar eclipse belonging to Saros 122 . The date and time of each eclipse is given for the instant of Greatest Eclipse. For eclipses between the years -1999 to 3000, the calendar date links to a web page containing additional details and a map showing the geographic region of eclipse visibility for that eclipse. A description of each parameter in the catalog table can be found in Key to Saros Catalog of Solar Eclipses.

Catalog of Solar Eclipses of Saros 122
Seq Num Rel Num Calendar Date TD of Greatest Eclipse ΔT

s
ΔT Sigma
s
Luna Num Ecl Type QLE Gamma Ecl Mag Lat

°
Long

°
Sun Alt
°
Path Width km Central Dur
1-36 0991-Apr-1710:00:00 1605 55 -12476 Pb t- -1.5014 0.0623 71S 88E 0 - -
2-35 1009-Apr-2717:32:59 1506 53 -12253 P t- -1.4446 0.1699 70S 39W 0 - -
3-34 1027-May-0901:00:43 1415 50 -12030 P t- -1.3841 0.2846 69S 163W 0 - -
4-33 1045-May-1908:21:47 1323 48 -11807 P t- -1.3185 0.4088 68S 74E 0 - -
5-32 1063-May-3015:39:29 1240 46 -11584 P t- -1.2509 0.5364 67S 47W 0 - -
6-31 1081-Jun-0922:52:31 1160 44 -11361 P t- -1.1800 0.6694 66S 166W 0 - -
7-30 1099-Jun-2106:05:10 1079 42 -11138 P t- -1.1093 0.8014 65S 75E 0 - -
8-29 1117-Jul-0113:16:23 1011 39 -10915 P t- -1.0378 0.9336 64S 43W 0 - -
9-28 1135-Jul-1220:28:44 943 37 -10692 T t- -0.9677 1.0179 52S 148W 14 24801m25s
10-27 1153-Jul-2303:42:34 877 36 -10469 T p- -0.8995 1.0161 42S 105E 26 12501m22s
11-26 1171-Aug-0311:00:15 820 34 -10246 T p- -0.8350 1.0126 36S 5W 33 7701m06s
12-25 1189-Aug-1318:22:04 763 32 -10023 H p- -0.7745 1.0082 33S 115W 39 4300m43s
13-24 1207-Aug-2501:48:47 708 30 -9800 H p- -0.7186 1.0031 32S 133E 44 1500m16s
14-23 1225-Sep-0409:21:54 658 28 -9577 A p- -0.6687 0.9977 32S 19E 48 1100m12s
15-22 1243-Sep-1517:01:41 608 27 -9354 A p- -0.6250 0.9920 33S 96W 51 3500m42s
16-21 1261-Sep-2600:48:28 565 25 -9131 A p- -0.5879 0.9863 35S 147E 54 5901m12s
17-20 1279-Oct-0708:42:18 526 23 -8908 A p- -0.5574 0.9805 38S 29E 56 8201m42s
18-19 1297-Oct-1716:42:47 487 22 -8685 A p- -0.5330 0.9751 41S 90W 58 10402m11s
19-18 1315-Oct-2900:49:56 454 20 -8462 A p- -0.5151 0.9698 44S 149E 59 12602m40s
20-17 1333-Nov-0809:01:08 422 20 -8239 A p- -0.5013 0.9651 47S 28E 60 14503m06s
21-16 1351-Nov-1917:18:01 390 20 -8016 A p- -0.4929 0.9608 49S 93W 60 16303m32s
22-15 1369-Nov-3001:36:55 362 20 -7793 A p- -0.4873 0.9570 51S 147E 61 17903m55s
23-14 1387-Dec-1109:58:28 333 20 -7570 A p- -0.4843 0.9539 52S 26E 61 19304m16s
24-13 1405-Dec-2118:17:55 307 20 -7347 A p- -0.4803 0.9514 52S 94W 61 20404m35s
25-12 1424-Jan-0202:37:14 284 20 -7124 A p- -0.4769 0.9495 51S 146E 61 21104m52s
26-11 1442-Jan-1210:51:52 261 20 -6901 A p- -0.4705 0.9482 48S 26E 62 21605m06s
27-10 1460-Jan-2319:01:50 239 20 -6678 A p- -0.4608 0.9475 44S 94W 62 21805m19s
28 -9 1478-Feb-0303:04:08 220 20 -6455 A p- -0.4455 0.9472 40S 146E 63 21705m31s
29 -8 1496-Feb-1410:59:30 200 20 -6232 A p- -0.4249 0.9474 34S 27E 65 21305m41s
30 -7 1514-Feb-2418:45:29 182 20 -6009 A n- -0.3974 0.9479 28S 90W 66 20805m51s
31 -6 1532-Mar-0702:21:38 165 20 -5786 A n- -0.3625 0.9488 22S 154E 69 20105m59s
32 -5 1550-Mar-1809:47:47 147 20 -5563 A nn -0.3200 0.9497 15S 41E 71 19406m05s
33 -4 1568-Mar-2817:04:20 136 20 -5340 A nn -0.2701 0.9507 8S 71W 74 18706m10s
34 -3 1586-Apr-1900:10:07 126 20 -5117 A nn -0.2120 0.9517 1S 179W 78 18106m12s
35 -2 1604-Apr-2907:07:20 111 19 -4894 A nn -0.1474 0.9525 6N 75E 82 17606m12s
36 -1 1622-May-1013:55:34 86 17 -4671 Am nn -0.0758 0.9531 13N 29W 86 17206m07s
37 0 1640-May-2020:37:51 60 14 -4448 A nn 0.0002 0.9533 20N 130W 90 17106m00s
38 1 1658-Jun-0103:11:37 37 11 -4225 A nn 0.0828 0.9532 27N 131E 85 17205m49s
39 2 1676-Jun-1109:42:36 18 9 -4002 A nn 0.1672 0.9527 33N 35E 80 17605m38s
40 3 1694-Jun-2216:08:45 8 6 -3779 A np 0.2556 0.9517 38N 60W 75 18305m27s
Catalog of Solar Eclipses of Saros 122
Seq Num Rel Num Calendar Date TD of Greatest Eclipse ΔT

s
ΔT Sigma
s
Luna Num Ecl Type QLE Gamma Ecl Mag Lat

°
Long

°
Sun Alt
°
Path Width km Central Dur
41 4 1712-Jul-0322:34:57 9 4 -3556 A -p 0.3433 0.9503 43N 153W 70 19405m18s
42 5 1730-Jul-1504:59:08 10 4 -3333 A -p 0.4325 0.9484 46N 116E 64 21005m13s
43 6 1748-Jul-2511:27:02 12 3 -3110 A -p 0.5183 0.9461 49N 25E 59 23105m12s
44 7 1766-Aug-0517:56:57 15 2 -2887 A -p 0.6023 0.9433 50N 67W 53 26005m15s
45 8 1784-Aug-1600:31:53 16 2 -2664 A -p 0.6819 0.9402 51N 160W 47 29905m23s
46 9 1802-Aug-2807:12:00 13 1 -2441 A -p 0.7568 0.9367 51N 106E 41 35305m35s
47 10 1820-Sep-0713:59:58 11 1 -2218 A -p 0.8251 0.9330 52N 9E 34 43205m49s
48 11 1838-Sep-1820:55:56 5 1 -1995 A -p 0.8868 0.9289 52N 91W 27 56206m06s
49 12 1856-Sep-2903:59:44 8 0 -1772 A -p 0.9420 0.9246 54N 169E 19 83106m21s
50 13 1874-Oct-1011:13:33 -3 0 -1549 An -t 0.9889 0.9193 59N 72E 7 - 06m28s
51 14 1892-Oct-2018:36:06 -7 0 -1326 P -t 1.0286 0.9054 61N 33W 0 - -
52 15 1910-Nov-0202:08:32 11 0 -1103 P -t 1.0603 0.8515 62N 155W 0 - -
53 16 1928-Nov-1209:48:24 24 0 -880 P -t 1.0861 0.8078 63N 81E 0 - -
54 17 1946-Nov-2317:37:12 28 0 -657 P -t 1.1050 0.7759 63N 45W 0 - -
55 18 1964-Dec-0401:31:54 36 0 -434 P -t 1.1193 0.7518 64N 173W 0 - -
56 19 1982-Dec-1509:32:09 53 0 -211 P -t 1.1293 0.7351 65N 57E 0 - -
57 20 2000-Dec-2517:35:57 64 0 12 P -t 1.1367 0.7228 66N 74W 0 - -
58 21 2019-Jan-0601:42:38 69 0 235 P -t 1.1417 0.7146 67N 154E 0 - -
59 22 2037-Jan-1609:48:55 76 4 458 P -t 1.1477 0.7049 69N 21E 0 - -
60 23 2055-Jan-2717:54:05 86 11 681 P -t 1.1550 0.6932 70N 112W 0 - -
61 24 2073-Feb-0701:55:59 98 20 904 P -t 1.1651 0.6768 70N 115E 0 - -
62 25 2091-Feb-1809:54:40 112 32 1127 P -t 1.1779 0.6558 71N 18W 0 - -
63 26 2109-Mar-0117:45:53 130 44 1350 P -t 1.1972 0.6238 72N 149W 0 - -
64 27 2127-Mar-1301:32:02 150 58 1573 P -t 1.2208 0.5841 72N 80E 0 - -
65 28 2145-Mar-2309:09:37 172 74 1796 P -t 1.2520 0.5311 72N 49W 0 - -
66 29 2163-Apr-0316:41:51 197 90 2019 P -t 1.2876 0.4698 72N 176W 0 - -
67 30 2181-Apr-1400:04:05 224 108 2242 P -t 1.3318 0.3931 71N 60E 0 - -
68 31 2199-Apr-2507:21:51 255 127 2465 P -t 1.3799 0.3085 71N 62W 0 - -
69 32 2217-May-0614:31:15 287 147 2688 P -t 1.4355 0.2100 70N 178E 0 - -
70 33 2235-May-1721:36:41 323 168 2911 Pe -t 1.4946 0.1044 69N 59E 0 - -

Statistics for Solar Eclipses of Saros 122

Solar eclipses of Saros 122 all occur at the Moon’s descending node and the Moon moves northward with each eclipse. The series began with a partial eclipse in the southern hemisphere on 0991 Apr 17. The series will end with a partial eclipse in the northern hemisphere on 2235 May 17. The total duration of Saros series 122 is 1244.08 years.

Summary of Saros 122
First Eclipse 0991 Apr 17
Last Eclipse 2235 May 17
Series Duration 1244.08 Years
No. of Eclipses 70
Sequence 8P 3T 2H 37A 20P

Saros 122 is composed of 70 solar eclipses as follows:

Solar Eclipses of Saros 122
Eclipse Type Symbol Number Percent
All Eclipses - 70100.0%
PartialP 28 40.0%
AnnularA 37 52.9%
TotalT 3 4.3%
HybridH 2 2.9%

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 122 appears in the following table.

Umbral Eclipses of Saros 122
Classification Number Percent
All Umbral Eclipses 42100.0%
Central (two limits) 41 97.6%
Central (one limit) 1 2.4%
Non-Central (one limit) 0 0.0%

The 70 eclipses in Saros 122 occur in the following order : 8P 3T 2H 37A 20P

The longest and shortest central eclipses of Saros 122 as well as largest and smallest partial eclipses appear below.

Extreme Durations and Magnitudes of Solar Eclipses of Saros 122
Extrema Type Date Duration Magnitude
Longest Annular Solar Eclipse 1874 Oct 1006m28s -
Shortest Annular Solar Eclipse 1225 Sep 0400m12s -
Longest Total Solar Eclipse 1135 Jul 1201m25s -
Shortest Total Solar Eclipse 1171 Aug 0301m06s -
Longest Hybrid Solar Eclipse 1189 Aug 1300m43s -
Shortest Hybrid Solar Eclipse 1207 Aug 2500m16s -
Largest Partial Solar Eclipse 1117 Jul 01 - 0.93360
Smallest Partial Solar Eclipse 0991 Apr 17 - 0.06230

Eclipse Publications

by Fred Espenak

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Calendar

The Gregorian calendar (also called the Western calendar) is internationally the most widely used civil calendar. It is named for Pope Gregory XIII, who introduced it in 1582. On this website, the Gregorian calendar is used for all calendar dates from 1582 Oct 15 onwards. Before that date, the Julian calendar is used. For more information on this topic, see Calendar Dates.

The Julian calendar does not include the year 0. Thus the year 1 BCE is followed by the year 1 CE (See: BCE/CE Dating Conventions). This is awkward for arithmetic calculations. Years in this catalog are numbered astronomically and include the year 0. Historians should note there is a difference of one year between astronomical dates and BCE dates. Thus, the astronomical year 0 corresponds to 1 BCE, and astronomical year -1 corresponds to 2 BCE, etc..

Eclipse Predictions

The eclipse predictions presented here were generated using the JPL DE406 solar and lunar ephemerides. The lunar coordinates have been calculated with respect to the Moon's Center of Mass.

The largest uncertainty in the eclipse predictions is caused by fluctuations in Earth's rotation due primarily to tidal friction of the Moon. The resultant drift in apparent clock time is expressed as ΔT and is determined as follows:

  1. pre-1950's: ΔT calculated from empirical fits to historical records derived by Morrison and Stephenson (2004)
  2. 1955-present: ΔT obtained from published observations
  3. future: ΔT is extrapolated from current values weighted by the long term trend from tidal effects

A series of polynomial expressions have been derived to simplify the evaluation of ΔT for any time from -2999 to +3000. The uncertainty in ΔT over this period can be estimated from scatter in the measurements.

Acknowledgments

Some of the content on this web site is based on the books Five Millennium Canon of Solar Eclipses: -1999 to +3000 and Thousand Year Canon of Solar Eclipses 1501 to 2500. All eclipse calculations are by Fred Espenak, and he assumes full responsibility for their accuracy.

Permission is granted to reproduce eclipse data when accompanied by a link to this page and an acknowledgment:

"Eclipse Predictions by Fred Espenak, www.EclipseWise.com"

The use of diagrams and maps is permitted provided that they are NOT altered (except for re-sizing) and the embedded credit line is NOT removed or covered.