Saros 25

Panorama of Lunar Eclipses of Saros 25

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. The exact numbers vary from one series to the next, but the overall sequence remains the same. For more information, see Periodicity of Lunar Eclipses.

Panorama of Lunar Eclipses of Saros 25

A panorama of all lunar eclipses belonging to Saros 25 is presented here. Each figure shows the Moon's path with respect to Earth's penumbral and umbral shadows. Below the path is a map depicting the geographic region of visibility for the eclipse. The date and time are given for the instant of Greatest Eclipse. Every figure serves as a hyperlink to the EclipseWise Prime page for that eclipse with a larger figure and complete details for the eclipse. Visit the Key to Lunar Eclipse Figures for a detailed explanation of these diagrams. Near the bottom of this page are a series of hyperlinks for more on lunar eclipses.

The exeligmos is a period of three Saros cycles and is equal to approximately 54 years 33 days. Because it is nearly an integral number of days in length, two eclipses separated by 1 exeligmos (= 3 Saroses) not only share all the characterists of a Saros, but also take place in approximately the same geographic location.

The Saros panorama below is arranged in horizontal rows of 3 eclipses. So one eclipse to the left or right is a difference of 1 Saros cycle, and one eclipse above or below is a difference of 1 exeligmos. By scanning a column of the table, it reveals how the geographic visibility of eclipses separated by an exeligmos slowly changes.

  • Click on any figure to go directly to the EclipseWise Prime Page for more information, tables, diagrams and maps. Key to Lunar Eclipse Figures explains the features in these diagrams.

For more information on this series see Statistics for Lunar Eclipses of Saros 25 .

Panorama of Lunar Eclipses of Saros 25
Penumbral Lunar Eclipse
-2038 Aug 06

Penumbral Lunar Eclipse
-2020 Aug 16

Penumbral Lunar Eclipse
-2002 Aug 28

Penumbral Lunar Eclipse
-1984 Sep 07

Penumbral Lunar Eclipse
-1966 Sep 18

Penumbral Lunar Eclipse
-1948 Sep 29

Penumbral Lunar Eclipse
-1930 Oct 10

Penumbral Lunar Eclipse
-1912 Oct 20

Penumbral Lunar Eclipse
-1894 Nov 01

Penumbral Lunar Eclipse
-1876 Nov 11

Penumbral Lunar Eclipse
-1858 Nov 23

Penumbral Lunar Eclipse
-1840 Dec 03

Penumbral Lunar Eclipse
-1822 Dec 14

Penumbral Lunar Eclipse
-1804 Dec 25

Penumbral Lunar Eclipse
-1785 Jan 05

Penumbral Lunar Eclipse
-1767 Jan 15

Penumbral Lunar Eclipse
-1749 Jan 27

Penumbral Lunar Eclipse
-1731 Feb 06

Penumbral Lunar Eclipse
-1713 Feb 17

Penumbral Lunar Eclipse
-1695 Feb 28

Penumbral Lunar Eclipse
-1677 Mar 11

Penumbral Lunar Eclipse
-1659 Mar 21

Penumbral Lunar Eclipse
-1641 Apr 02

Penumbral Lunar Eclipse
-1623 Apr 12

Partial Lunar Eclipse
-1605 Apr 23

Partial Lunar Eclipse
-1587 May 04

Partial Lunar Eclipse
-1569 May 15

Partial Lunar Eclipse
-1551 May 25

Partial Lunar Eclipse
-1533 Jun 05

Partial Lunar Eclipse
-1515 Jun 16

Partial Lunar Eclipse
-1497 Jun 27

Partial Lunar Eclipse
-1479 Jul 07

Total Lunar Eclipse
-1461 Jul 19

Total Lunar Eclipse
-1443 Jul 29

Total Lunar Eclipse
-1425 Aug 09

Total Lunar Eclipse
-1407 Aug 19

Total Lunar Eclipse
-1389 Aug 31

Total Lunar Eclipse
-1371 Sep 10

Total Lunar Eclipse
-1353 Sep 21

Total Lunar Eclipse
-1335 Oct 02

Total Lunar Eclipse
-1317 Oct 13

Total Lunar Eclipse
-1299 Oct 23

Total Lunar Eclipse
-1281 Nov 04

Total Lunar Eclipse
-1263 Nov 14

Total Lunar Eclipse
-1245 Nov 25

Total Lunar Eclipse
-1227 Dec 06

Total Lunar Eclipse
-1209 Dec 17

Total Lunar Eclipse
-1191 Dec 27

Total Lunar Eclipse
-1172 Jan 08

Total Lunar Eclipse
-1154 Jan 18

Total Lunar Eclipse
-1136 Jan 29

Total Lunar Eclipse
-1118 Feb 09

Total Lunar Eclipse
-1100 Feb 20

Total Lunar Eclipse
-1082 Mar 02

Total Lunar Eclipse
-1064 Mar 13

Total Lunar Eclipse
-1046 Mar 24

Total Lunar Eclipse
-1028 Apr 03

Total Lunar Eclipse
-1010 Apr 14

Partial Lunar Eclipse
-0992 Apr 25

Partial Lunar Eclipse
-0974 May 06

Partial Lunar Eclipse
-0956 May 16

Partial Lunar Eclipse
-0938 May 28

Partial Lunar Eclipse
-0920 Jun 07

Partial Lunar Eclipse
-0902 Jun 18

Partial Lunar Eclipse
-0884 Jun 28

Penumbral Lunar Eclipse
-0866 Jul 10

Penumbral Lunar Eclipse
-0848 Jul 20

Penumbral Lunar Eclipse
-0830 Jul 31

Penumbral Lunar Eclipse
-0812 Aug 10

Penumbral Lunar Eclipse
-0794 Aug 22

Penumbral Lunar Eclipse
-0776 Sep 01

Penumbral Lunar Eclipse
-0758 Sep 12

Penumbral Lunar Eclipse
-0740 Sep 23

Penumbral Lunar Eclipse
-0722 Oct 04

Penumbral Lunar Eclipse
-0704 Oct 14

Penumbral Lunar Eclipse
-0686 Oct 26

Penumbral Lunar Eclipse
-0668 Nov 05

Penumbral Lunar Eclipse
-0650 Nov 16

Penumbral Lunar Eclipse
-0632 Nov 27

Penumbral Lunar Eclipse
-0614 Dec 08

Penumbral Lunar Eclipse
-0596 Dec 18

Penumbral Lunar Eclipse
-0578 Dec 30

Penumbral Lunar Eclipse
-0559 Jan 09

Penumbral Lunar Eclipse
-0541 Jan 20

Penumbral Lunar Eclipse
-0523 Jan 31

Penumbral Lunar Eclipse
-0505 Feb 11

Penumbral Lunar Eclipse
-0487 Feb 21

Statistics for Lunar Eclipses of Saros 25

Lunar eclipses of Saros 25 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 -2038 Aug 06. The series will end with a penumbral eclipse near the northern edge of the penumbra on -0487 Feb 21. The total duration of Saros series 25 is 1550.59 years.

Summary of Saros 25
First Eclipse -2038 Aug 06
Last Eclipse -0487 Feb 21
Series Duration 1550.59 Years
No. of Eclipses 87
Sequence 24N 8P 26T 7P 22N

Saros 25 is composed of 87 lunar eclipses as follows:

Lunar Eclipses of Saros 25
Eclipse Type Symbol Number Percent
All Eclipses - 87100.0%
PenumbralN 46 52.9%
PartialP 15 17.2%
TotalT 26 29.9%

The 87 lunar eclipses of Saros 25 occur in the order of 24N 8P 26T 7P 22N which corresponds to the following.

Sequence Order of Lunar Eclipses in Saros 25
Eclipse Type Symbol Number
Penumbral N 24
Partial P 8
Total T 26
Partial P 7
Penumbral N 22

The 87 eclipses in Saros 25 occur in the following order : 24N 8P 26T 7P 22N

The longest and shortest eclipses of Saros 25 as well as largest and smallest partial eclipses appear below.

Extreme Durations and Magnitudes of Lunar Eclipses of Saros 25
Extrema Type Date Duration Magnitude
Longest Total Lunar Eclipse -1118 Feb 0901h45m25s -
Shortest Total Lunar Eclipse -1461 Jul 1900h48m56s -
Longest Partial Lunar Eclipse -0992 Apr 2503h28m49s -
Shortest Partial Lunar Eclipse -0884 Jun 2800h32m05s -
Longest Penumbral Lunar Eclipse -0866 Jul 1004h35m40s -
Shortest Penumbral Lunar Eclipse -2038 Aug 0600h43m27s -
Largest Partial Lunar Eclipse -1479 Jul 07 - 0.98312
Smallest Partial Lunar Eclipse -0884 Jun 28 - 0.01700

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.