Saros 10

Panorama of Solar Eclipses of Saros 10

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.

Panorama of Solar Eclipses of Saros 10

A panorama of all solar eclipses belonging to Saros 10 is presented here. Each map depicts the geographic region of visibility for a single eclipse. For central eclipses, the total or annular path is plotted in either blue (total) or red (annular). The date and time is given for the instant of Greatest Eclipse. Every map serves as a hyperlink to the EclipseWise Prime page for that eclipse where a larger map and complete details for the eclipse can be found. Visit the Key to Solar Eclipse Maps for a detailed explanation of these maps. Near the bottom of the page are a series of hyperlinks for more on solar 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 global map to go directly to the EclipseWise Prime Page for more information, tables, diagrams and maps. Key to Solar Eclipse Maps explains the features in these maps.
  • Beneath each global eclipse map is a link Google Eclipse Map, that takes you to an interactive Google Map with the eclipse path plotted.

For more information on this series see Statistics for Solar Eclipses of Saros 10 .

Panorama of Solar Eclipses of Saros 10
Partial Solar Eclipse
-2467 Feb 28

Google Eclipse Map
Partial Solar Eclipse
-2449 Mar 11

Google Eclipse Map
Partial Solar Eclipse
-2431 Mar 21

Google Eclipse Map
Partial Solar Eclipse
-2413 Apr 02

Google Eclipse Map
Partial Solar Eclipse
-2395 Apr 12

Google Eclipse Map
Partial Solar Eclipse
-2377 Apr 23

Google Eclipse Map
Partial Solar Eclipse
-2359 May 03

Google Eclipse Map
Partial Solar Eclipse
-2341 May 15

Google Eclipse Map
Annular Solar Eclipse
-2323 May 25

Google Eclipse Map
Annular Solar Eclipse
-2305 Jun 05

Google Eclipse Map
Annular Solar Eclipse
-2287 Jun 16

Google Eclipse Map
Annular Solar Eclipse
-2269 Jun 27

Google Eclipse Map
Annular Solar Eclipse
-2251 Jul 07

Google Eclipse Map
Annular Solar Eclipse
-2233 Jul 18

Google Eclipse Map
Annular Solar Eclipse
-2215 Jul 29

Google Eclipse Map
Annular Solar Eclipse
-2197 Aug 09

Google Eclipse Map
Annular Solar Eclipse
-2179 Aug 19

Google Eclipse Map
Annular Solar Eclipse
-2161 Aug 31

Google Eclipse Map
Annular Solar Eclipse
-2143 Sep 10

Google Eclipse Map
Annular Solar Eclipse
-2125 Sep 21

Google Eclipse Map
Annular Solar Eclipse
-2107 Oct 01

Google Eclipse Map
Annular Solar Eclipse
-2089 Oct 13

Google Eclipse Map
Annular Solar Eclipse
-2071 Oct 23

Google Eclipse Map
Annular Solar Eclipse
-2053 Nov 03

Google Eclipse Map
Annular Solar Eclipse
-2035 Nov 14

Google Eclipse Map
Annular Solar Eclipse
-2017 Nov 25

Google Eclipse Map
Annular Solar Eclipse
-1999 Dec 05

Google Eclipse Map
Annular Solar Eclipse
-1981 Dec 17

Google Eclipse Map
Annular Solar Eclipse
-1963 Dec 27

Google Eclipse Map
Annular Solar Eclipse
-1944 Jan 07

Google Eclipse Map
Annular Solar Eclipse
-1926 Jan 18

Google Eclipse Map
Annular Solar Eclipse
-1908 Jan 29

Google Eclipse Map
Annular Solar Eclipse
-1890 Feb 08

Google Eclipse Map
Annular Solar Eclipse
-1872 Feb 20

Google Eclipse Map
Annular Solar Eclipse
-1854 Mar 02

Google Eclipse Map
Annular Solar Eclipse
-1836 Mar 12

Google Eclipse Map
Annular Solar Eclipse
-1818 Mar 24

Google Eclipse Map
Annular Solar Eclipse
-1800 Apr 03

Google Eclipse Map
Hybrid Solar Eclipse
-1782 Apr 14

Google Eclipse Map
Hybrid Solar Eclipse
-1764 Apr 25

Google Eclipse Map
Hybrid Solar Eclipse
-1746 May 06

Google Eclipse Map
Total Solar Eclipse
-1728 May 16

Google Eclipse Map
Total Solar Eclipse
-1710 May 27

Google Eclipse Map
Total Solar Eclipse
-1692 Jun 07

Google Eclipse Map
Total Solar Eclipse
-1674 Jun 18

Google Eclipse Map
Total Solar Eclipse
-1656 Jun 28

Google Eclipse Map
Total Solar Eclipse
-1638 Jul 10

Google Eclipse Map
Total Solar Eclipse
-1620 Jul 20

Google Eclipse Map
Total Solar Eclipse
-1602 Jul 31

Google Eclipse Map
Total Solar Eclipse
-1584 Aug 11

Google Eclipse Map
Partial Solar Eclipse
-1566 Aug 22

Google Eclipse Map
Partial Solar Eclipse
-1548 Sep 01

Google Eclipse Map
Partial Solar Eclipse
-1530 Sep 13

Google Eclipse Map
Partial Solar Eclipse
-1512 Sep 23

Google Eclipse Map
Partial Solar Eclipse
-1494 Oct 04

Google Eclipse Map
Partial Solar Eclipse
-1476 Oct 15

Google Eclipse Map
Partial Solar Eclipse
-1458 Oct 26

Google Eclipse Map
Partial Solar Eclipse
-1440 Nov 05

Google Eclipse Map
Partial Solar Eclipse
-1422 Nov 17

Google Eclipse Map
Partial Solar Eclipse
-1404 Nov 27

Google Eclipse Map
Partial Solar Eclipse
-1386 Dec 08

Google Eclipse Map
Partial Solar Eclipse
-1368 Dec 19

Google Eclipse Map
Partial Solar Eclipse
-1350 Dec 30

Google Eclipse Map
Partial Solar Eclipse
-1331 Jan 10

Google Eclipse Map
Partial Solar Eclipse
-1313 Jan 21

Google Eclipse Map
Partial Solar Eclipse
-1295 Jan 31

Google Eclipse Map
Partial Solar Eclipse
-1277 Feb 12

Google Eclipse Map
Partial Solar Eclipse
-1259 Feb 22

Google Eclipse Map
Partial Solar Eclipse
-1241 Mar 05

Google Eclipse Map
Partial Solar Eclipse
-1223 Mar 16

Google Eclipse Map
Partial Solar Eclipse
-1205 Mar 27

Google Eclipse Map
Partial Solar Eclipse
-1187 Apr 06

Google Eclipse Map
Partial Solar Eclipse
-1169 Apr 18

Google Eclipse Map

Statistics for Solar Eclipses of Saros 10

Solar eclipses of Saros 10 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 -2467 Feb 28. The series ended with a partial eclipse in the northern hemisphere on -1169 Apr 18. The total duration of Saros series 10 is 1298.17 years.

Summary of Saros 10
First Eclipse -2467 Feb 28
Last Eclipse -1169 Apr 18
Series Duration 1298.17 Years
No. of Eclipses 73
Sequence 8P 30A 3H 9T 23P

Saros 10 is composed of 73 solar eclipses as follows:

Solar Eclipses of Saros 10
Eclipse Type Symbol Number Percent
All Eclipses - 73100.0%
PartialP 31 42.5%
AnnularA 30 41.1%
TotalT 9 12.3%
HybridH 3 4.1%

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 10 appears in the following table.

Umbral Eclipses of Saros 10
Classification Number Percent
All Umbral Eclipses 42100.0%
Central (two limits) 42100.0%
Central (one limit) 0 0.0%
Non-Central (one limit) 0 0.0%

The 73 eclipses in Saros 10 occur in the following order : 8P 30A 3H 9T 23P

The longest and shortest central eclipses of Saros 10 as well as largest and smallest partial eclipses appear below.

Extreme Durations and Magnitudes of Solar Eclipses of Saros 10
Extrema Type Date Duration Magnitude
Longest Annular Solar Eclipse -2215 Jul 2908m32s -
Shortest Annular Solar Eclipse -1800 Apr 0300m02s -
Longest Total Solar Eclipse -1692 Jun 0701m38s -
Shortest Total Solar Eclipse -1584 Aug 1100m51s -
Longest Hybrid Solar Eclipse -1746 May 0601m16s -
Shortest Hybrid Solar Eclipse -1782 Apr 1400m30s -
Largest Partial Solar Eclipse -1566 Aug 22 - 0.95720
Smallest Partial Solar Eclipse -2467 Feb 28 - 0.01323

Eclipse Publications

by Fred Espenak

jpeg jpeg
jpeg jpeg
jpeg jpeg

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.