Saros 145

Catalog of Lunar Eclipses of Saros 145

Fred Espenak

Introduction

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

The periodicity and recurrence of lunar 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 15 centuries and contains about 70 to 80 eclipses. Every saros series begins with a number of penumbral lunar eclipses. The series will then produce several dozen partial eclipses, followed by several dozen total eclipses. The later portion of the series produces another set of partial eclipses before ending with a final group of penumbral eclipses.

Catalog of Lunar Eclipses of Saros 145

The table below lists the concise characteristics of every lunar eclipse belonging to Saros 145 . 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 along with a diagram of the eclipse geometry 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 Lunar Eclipses.

Catalog of Lunar Eclipses of Saros 145
Seq Num Rel Num Calendar Date TD of Greatest Eclipse ΔT

s
ΔT Sigma
s
Luna Num Ecl Type QSE Gamma Pen Mag Um Mag Pen Dur
m
Par Dur
m
Tot Dur
m
1-33 1832-Aug-1114:14:53 6 1 -2071 Nb t- -1.5397 0.0662-0.9999 79.2 - -
2-32 1850-Aug-2220:55:01 7 1 -1848 N t- -1.4680 0.1997-0.8703136.2 - -
3-31 1868-Sep-0203:41:28 2 0 -1625 N t- -1.4013 0.3242-0.7498172.0 - -
4-30 1886-Sep-1310:34:43 -6 0 -1402 N t- -1.3399 0.4390-0.6392198.4 - -
5-29 1904-Sep-2417:34:45 3 0 -1179 N t- -1.2838 0.5440-0.5384219.1 - -
6-28 1922-Oct-0600:43:51 23 0 -956 N t- -1.2349 0.6358-0.4508235.3 - -
7-27 1940-Oct-1608:01:18 25 0 -733 N t- -1.1925 0.7157-0.3749248.0 - -
8-26 1958-Oct-2715:27:51 33 0 -510 N t- -1.1571 0.7825-0.3118258.0 - -
9-25 1976-Nov-0623:02:00 47 0 -287 N t- -1.1276 0.8383-0.2593265.9 - -
10-24 1994-Nov-1806:44:54 61 0 -64 N t- -1.1048 0.8816-0.2189271.7 - -
11-23 2012-Nov-2814:34:07 67 0 159 N t- -1.0869 0.9155-0.1873276.1 - -
12-22 2030-Dec-0922:28:51 74 2 382 N t- -1.0732 0.9416-0.1628279.3 - -
13-21 2048-Dec-2006:27:48 84 8 605 N t- -1.0624 0.9617-0.1436281.7 - -
14-20 2066-Dec-3114:30:09 97 17 828 N t- -1.0540 0.9773-0.1281283.4 - -
15-19 2085-Jan-1022:32:29 112 28 1051 N t- -1.0453 0.9927-0.1119285.0 - -
16-18 2103-Jan-2306:34:00 130 40 1274 Nx t- -1.0358 1.0096-0.0936286.6 - -
17-17 2121-Feb-0214:32:39 151 53 1497 Nx t- -1.0235 1.0309-0.0700288.5 - -
18-16 2139-Feb-1322:28:16 174 68 1720 Nx t- -1.0083 1.0574-0.0406290.9 - -
19-15 2157-Feb-2406:16:35 199 85 1943 P t- -0.9868 1.0950 0.0006294.3 6.0 -
20-14 2175-Mar-0713:59:52 227 102 2166 P t- -0.9608 1.1406 0.0503298.2 54.8 -
21-13 2193-Mar-1721:34:31 258 121 2389 P t- -0.9274 1.1996 0.1139303.1 81.6 -
22-12 2211-Mar-3005:02:58 291 140 2612 P t- -0.8883 1.2689 0.1881308.5103.6 -
23-11 2229-Apr-0912:21:26 327 161 2835 P t- -0.8403 1.3544 0.2786314.7124.2 -
24-10 2247-Apr-2019:34:23 365 183 3058 P t- -0.7870 1.4495 0.3790321.0142.4 -
25 -9 2265-May-0102:38:34 406 206 3281 P t- -0.7261 1.5587 0.4934327.5159.3 -
26 -8 2283-May-1209:37:19 450 230 3504 P t- -0.6596 1.6780 0.6178333.8174.4 -
27 -7 2301-May-2316:29:16 496 254 3727 P t- -0.5869 1.8090 0.7537339.7187.8 -
28 -6 2319-Jun-0323:18:18 545 280 3950 P t- -0.5110 1.9460 0.8954344.9199.2 -
29 -5 2337-Jun-1406:03:16 596 306 4173 T t- -0.4307 2.0911 1.0448349.3208.8 34.0
30 -4 2355-Jun-2512:46:18 650 334 4396 T t- -0.3479 2.2409 1.1986352.8216.4 68.0
31 -3 2373-Jul-0519:28:56 706 362 4619 T- t- -0.2641 2.3929 1.3541355.2222.1 85.7
32 -2 2391-Jul-1702:12:49 766 391 4842 T- pp -0.1807 2.5444 1.5087356.5225.9 96.4
33 -1 2409-Jul-2708:59:04 827 421 5065 T- pp -0.0982 2.6944 1.6613356.8227.9102.2
34 0 2427-Aug-0715:48:56 891 452 5288 T- pp -0.0180 2.8405 1.8096356.2228.3104.4
35 1 2445-Aug-1722:44:45 958 484 5511 T+ pp 0.0583 2.7657 1.7365354.6227.3103.3
36 2 2463-Aug-2905:47:13 1027 517 5734 T+ pp 0.1297 2.6341 1.6062352.4225.1 99.7
37 3 2481-Sep-0812:56:07 1099 550 5957 T+ pp 0.1967 2.5107 1.4838349.5221.9 93.7
38 4 2499-Sep-1920:14:16 1174 584 6180 T+ pp 0.2569 2.3999 1.3736346.4218.1 85.8
39 5 2517-Oct-0103:41:06 1251 620 6403 T -p 0.3109 2.3006 1.2748343.0213.9 76.0
40 6 2535-Oct-1211:18:36 1330 655 6626 T -p 0.3568 2.2163 1.1907339.6209.6 65.0
Catalog of Lunar Eclipses of Saros 145
Seq Num Rel Num Calendar Date TD of Greatest Eclipse ΔT

s
ΔT Sigma
s
Luna Num Ecl Type QSE Gamma Pen Mag Um Mag Pen Dur
m
Par Dur
m
Tot Dur
m
41 7 2553-Oct-2219:04:09 1412 692 6849 T -p 0.3969 2.1425 1.1171336.3205.3 52.0
42 8 2571-Nov-0303:00:59 1497 729 7072 T -p 0.4286 2.0843 1.0591333.3201.6 37.5
43 9 2589-Nov-1311:05:59 1585 768 7295 T -p 0.4545 2.0366 1.0117330.6198.2 16.8
44 10 2607-Nov-2519:20:16 1674 807 7518 P -p 0.4735 2.0014 0.9771328.2195.4 -
45 11 2625-Dec-0603:40:51 1767 847 7741 P -p 0.4880 1.9744 0.9508326.2193.1 -
46 12 2643-Dec-1712:08:56 1862 887 7964 P -a 0.4972 1.9569 0.9346324.4191.5 -
47 13 2661-Dec-2720:41:07 1960 928 8187 P -a 0.5036 1.9444 0.9237322.9190.2 -
48 14 2680-Jan-0805:16:50 2060 970 8410 P -a 0.5079 1.9353 0.9169321.4189.3 -
49 15 2698-Jan-1813:54:13 2163 1013 8633 P -a 0.5115 1.9273 0.9116320.0188.4 -
50 16 2716-Jan-3022:32:34 2268 1057 8856 P -a 0.5152 1.9191 0.9065318.5187.6 -
51 17 2734-Feb-1007:08:45 2376 1101 9079 P -a 0.5211 1.9063 0.8975316.9186.5 -
52 18 2752-Feb-2115:42:12 2486 1146 9302 P -a 0.5299 1.8880 0.8834314.9185.0 -
53 19 2770-Mar-0400:11:37 2600 1192 9525 P -a 0.5428 1.8620 0.8620312.7183.1 -
54 20 2788-Mar-1408:36:47 2715 1239 9748 P -a 0.5601 1.8277 0.8326310.0180.4 -
55 21 2806-Mar-2516:54:38 2833 1286 9971 P -a 0.5841 1.7812 0.7912306.7176.7 -
56 22 2824-Apr-0501:07:07 2954 1334 10194 P -a 0.6130 1.7254 0.7408302.8172.1 -
57 23 2842-Apr-1609:12:01 3078 1383 10417 P -a 0.6488 1.6571 0.6777298.2166.0 -
58 24 2860-Apr-2617:11:05 3204 1433 10640 P -a 0.6901 1.5788 0.6046292.8158.3 -
59 25 2878-May-0801:02:01 3332 1483 10863 P -a 0.7387 1.4871 0.5179286.4148.2 -
60 26 2896-May-1808:48:20 3463 1534 11086 P -a 0.7916 1.3876 0.4232279.0135.6 -
61 27 2914-May-3016:28:13 3597 1586 11309 P -a 0.8500 1.2783 0.3181270.3119.2 -
62 28 2932-Jun-1000:03:54 3733 1638 11532 P -a 0.9123 1.1619 0.2057260.4 97.2 -
63 29 2950-Jun-2107:35:16 3872 1691 11755 P -a 0.9786 1.0388 0.0858248.9 63.7 -
64 30 2968-Jul-0115:04:40 4013 1745 11978 N -a 1.0466 0.9125-0.0375235.9 - -
65 31 2986-Jul-1222:32:20 4157 1800 12201 N -a 1.1163 0.7835-0.1644221.0 - -
66 32 3004-Jul-2405:59:06 4301 1855 12424 N -a 1.1870 0.6530-0.2933204.1 - -
67 33 3022-Aug-0413:27:32 4450 1911 12647 N -a 1.2564 0.5252-0.4201185.1 - -
68 34 3040-Aug-1420:57:32 4602 1968 12870 N -a 1.3245 0.4000-0.5450163.3 - -
69 35 3058-Aug-2604:31:28 4756 2026 13093 N -a 1.3898 0.2803-0.6650138.1 - -
70 36 3076-Sep-0512:08:44 4913 2084 13316 N -a 1.4525 0.1657-0.7803107.2 - -
71 37 3094-Sep-1619:52:32 5072 2143 13539 Ne -a 1.5101 0.0607-0.8868 65.5 - -

Statistics for Lunar Eclipses of Saros 145

Lunar eclipses of Saros 145 all occur at the Moon’s descending node and the Moon moves northward with each eclipse. The series will begin with a penumbral eclipse near the southern edge of the penumbra on 1832 Aug 11. The series will end with a penumbral eclipse near the northern edge of the penumbra on 3094 Sep 16. The total duration of Saros series 145 is 1262.11 years.

Summary of Saros 145
First Eclipse 1832 Aug 11
Last Eclipse 3094 Sep 16
Series Duration 1262.11 Years
No. of Eclipses 71
Sequence 18N 10P 15T 20P 8N

Saros 145 is composed of 71 lunar eclipses as follows:

Lunar Eclipses of Saros 145
Eclipse Type Symbol Number Percent
All Eclipses - 71100.0%
PenumbralN 26 36.6%
PartialP 30 42.3%
TotalT 15 21.1%

The 71 lunar eclipses of Saros 145 occur in the order of 18N 10P 15T 20P 8N which corresponds to the following.

Sequence Order of Lunar Eclipses in Saros 145
Eclipse Type Symbol Number
Penumbral N 18
Partial P 10
Total T 15
Partial P 20
Penumbral N 8

The longest and shortest eclipses of Saros 145 as well as largest and smallest partial eclipses appear below.

Extreme Durations and Magnitudes of Lunar Eclipses of Saros 145
Extrema Type Date Duration Magnitude
Longest Total Lunar Eclipse 2427 Aug 0701h44m21s -
Shortest Total Lunar Eclipse 2589 Nov 1300h16m51s -
Longest Partial Lunar Eclipse 2319 Jun 0303h19m12s -
Shortest Partial Lunar Eclipse 2157 Feb 2400h05m59s -
Longest Penumbral Lunar Eclipse 2139 Feb 1304h50m55s -
Shortest Penumbral Lunar Eclipse 3094 Sep 1601h05m28s -
Largest Partial Lunar Eclipse 2607 Nov 25 - 0.97707
Smallest Partial Lunar Eclipse 2157 Feb 24 - 0.00059

Links to Additional Lunar Eclipse Predictions

  • Home - home page of EclipseWise with predictions for both Solar and lunar eclipses

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 Lunar Eclipses: -1999 to +3000 and Thousand Year Canon of Lunar 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.