Total Solar Eclipses with Durations Exceeding 06m 00s

4001 to 5000 ( 4001 CE to 5000 CE )

Introduction

Eclipses of the Sun can only occur during the New Moon phase. It is then possible for the Moon's penumbral, umbral or antumbral shadows to sweep across Earth's surface thereby producing an eclipse. Not all New Moons result in a solar eclipse because the Moon's orbit is tilted about 5 degrees to Earth's about the Sun. Consequently, the Moon's shadows miss Earth at most New Moon's. Nevertheless, there are 2 to 5 solar eclipses every calendar year. There are four types of solar eclipses: partial, annular, total and hybrid[1]. For more information, see Basic Solar Eclipse Geometry.


Solar Eclipses: 4001 to 5000

During the 10 century period 4001 to 5000 ( 4001 CE to 5000 CE[2]), Earth will experience 2360 solar eclipses. The following table shows the number of eclipses of each type over this period.

Solar Eclipses: 4001 - 5000
Eclipse Type Symbol Number Percent
All Eclipses - 2360100.0%
PartialP 828 35.1%
AnnularA 821 34.8%
TotalT 653 27.7%
HybridH 58 2.5%

Annular and total eclipses 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 during the 50th century CE appears in the following three tables (no Hybrids are included since all are central with two limits).

Annular and Total Eclipses
Classification Number Percent
All 1474100.0%
Central (two limits) 1442 97.8%
Central (one limit) 19 1.3%
Non-Central (one limit) 13 0.9%
Annular Eclipses
Classification Number Percent
All Annular Eclipses 821100.0%
Central (two limits) 795 96.8%
Central (one limit) 15 1.8%
Non-Central (one limit) 11 1.3%
Total Eclipses
Classification Number Percent
All Total Eclipses 653100.0%
Central (two limits) 647 99.1%
Central (one limit) 4 0.6%
Non-Central (one limit) 2 0.3%

Long Total Solar Eclipses

The longest central[3] solar eclipses of this period are:

          Longest Total   Solar Eclipse:    4009 Aug 04      Duration = 07m12s
          Longest Annular Solar Eclipse:    4885 Jan 20      Duration = 11m08s
          Longest Hybrid  Solar Eclipse:    4563 May 07      Duration = 01m38s

Long Total Solar Eclipses are relatively rare. The following catalog lists concise details and local circumstances for all Total Solar Eclipses with durations exceeding 06m 00s. The Key to Catalog of Solar Eclipses contains a detailed description and explanation of each item listed in the catalog. For eclipses from -1999 to +3000, the Catalog Number in the first column serves as a link to a global map of Earth showing the geographic visibility of each eclipse. The date and time of the eclipse are given at the instant of greatest eclipse[4] in Terrestrial Dynamical Time. The Saros Number in the sixth column links to a table listing all eclipses in the Saros series. The Key to Solar Eclipse Maps explains the features plotted on each map.

The data presented here are based in part on the Five Millennium Canon of Solar Eclipses: -1999 to +3000.



Catalog of Long Total Solar Eclipses: 4001 to 5000


                      TD of
Catalog  Calendar   Greatest          Luna Saros Ecl.           Ecl.                Sun Sun  Path Central
Number     Date      Eclipse     ΔT    Num  Num  Type  Gamma    Mag.   Lat.   Long. Alt Azm Width   Dur.
                                  s                                      °      °    °    °   km

-----  4009 Aug 04  10:00:56  14788  24855  197   T   -0.3853  1.0785   5.9S  89.8E  67  11  274  07m12s
-----  4027 Aug 15  17:32:59  15033  25078  197   T   -0.4580  1.0781  13.4S  24.8W  63  14  283  06m58s
-----  4045 Aug 26  01:04:41  15279  25301  197   T   -0.5309  1.0767  21.4S 139.9W  58  16  292  06m34s
-----  4063 Sep 06  08:39:33  15528  25524  197   T   -0.6010  1.0747  29.7S 103.7E  53  19  301  06m05s
-----  4249 Sep 21  04:38:49  18213  27825  219   T    0.4512  1.0747  25.8N 166.1W  63 199  270  06m11s
-----  4267 Oct 02  12:21:06  18484  28048  219   T    0.3867  1.0734  17.8N  76.6E  67 198  257  06m19s
-----  4273 May 30  20:49:07  18570  28118  203   T   -0.4254  1.0666   2.7S  48.8W  65 347  240  06m10s
-----  4285 Oct 12  20:09:02  18758  28271  219   T    0.3270  1.0714  10.3N  41.7W  71 196  245  06m22s
-----  4291 Jun 11  04:43:03  18844  28341  203   T   -0.4801  1.0692   5.5S 166.8W  61 352  257  06m28s
-----  4303 Oct 25  04:02:48  19034  28494  219   T    0.2725  1.0688   3.5N 161.1W  74 194  233  06m17s

-----  4309 Jun 22  12:32:20  19120  28564  203   T   -0.5386  1.0712   9.4S  75.9E  57 356  275  06m40s
-----  4318 Jul 12  19:57:48  19260  28676  222   T   -0.7031  1.0701  22.1S  47.4W  45  15  319  06m07s
-----  4321 Nov 04  12:02:09  19311  28717  219   T    0.2227  1.0659   2.8S  78.6E  77 191  221  06m07s
-----  4327 Jul 03  20:15:00  19399  28787  203   T   -0.6026  1.0725  14.6S  40.4W  53 360  295  06m42s
-----  4336 Jul 23  03:33:03  19539  28899  222   T   -0.6329  1.0733  18.1S 161.0W  51  18  305  06m21s
-----  4345 Jul 14  03:54:50  19679  29010  203   T   -0.6692  1.0731  20.9S 156.7W  48   4  319  06m33s
-----  4354 Aug 03  11:05:56  19820  29122  222   T   -0.5605  1.0759  15.1S  86.6E  56  22  293  06m28s
-----  4363 Jul 25  11:29:11  19961  29233  203   T   -0.7401  1.0727  28.5S  87.3E  42   8  351  06m13s
-----  4372 Aug 13  18:38:46  20104  29345  222   T   -0.4878  1.0774  13.1S  25.4W  61  24  284  06m28s
-----  4390 Aug 25  02:09:59  20389  29568  222   T   -0.4135  1.0782  11.9S 136.7W  66  27  275  06m25s

-----  4408 Sep 04  09:43:57  20676  29791  222   T   -0.3414  1.0781  11.6S 111.5E  70  28  267  06m18s
-----  4426 Sep 15  17:19:00  20965  30014  222   T   -0.2700  1.0772  11.7S   0.3W  74  29  258  06m11s
-----  4444 Sep 26  00:58:58  21257  30237  222   T   -0.2028  1.0756  12.4S 113.3W  78  29  250  06m02s
-----  4531 Jul 28  23:50:53  22687  31311  225   T    0.3772  1.0777  40.1N  75.6W  68 191  271  06m04s
-----  4549 Aug 08  07:25:11  22990  31534  225   T    0.3055  1.0790  32.7N 171.7E  72 194  268  06m25s
-----  4567 Aug 19  14:57:30  23295  31757  225   T    0.2324  1.0795  24.9N  58.6E  76 195  264  06m41s
-----  4585 Aug 29  22:30:10  23602  31980  225   T    0.1596  1.0792  16.9N  55.2W  81 196  259  06m51s
-----  4603 Sep 11  06:03:40  23911  32203  225   T    0.0877  1.0781   8.9N 169.4W  85 197  253  06m52s
-----  4618 May 29  21:34:17  24165  32385  228   T   -0.4990  1.0633   8.4S  41.1W  60 357  239  06m01s
-----  4621 Sep 21  13:40:01  24222  32426  225   Tm   0.0184  1.0762   0.9N  75.5E  89 197  247  06m46s

-----  4636 Jun 09  05:33:16  24477  32608  228   T   -0.4487  1.0671   3.9S 161.0W  63   1  245  06m24s
-----  4639 Oct 02  21:19:43  24535  32649  225   T   -0.0481  1.0737   6.9S  40.3W  87  17  239  06m33s
-----  4654 Jun 20  13:26:19  24792  32831  228   T   -0.3932  1.0706   0.1N  81.2E  67   6  250  06m40s
-----  4657 Oct 13  05:03:25  24850  32872  225   T   -0.1109  1.0705  14.4S 156.9W  84  16  231  06m14s
-----  4672 Jun 30  21:13:36  25108  33054  228   T   -0.3325  1.0736   3.5N  34.8W  71  10  253  06m50s
-----  4690 Jul 12  04:56:23  25427  33277  228   T   -0.2676  1.0761   6.3N 149.1W  75  14  255  06m53s
-----  4708 Jul 23  12:34:37  25748  33500  228   T   -0.1989  1.0779   8.4N  98.2E  79  18  256  06m50s
-----  4726 Aug 03  20:10:07  26070  33723  228   T   -0.1278  1.0789   9.8N  13.5W  83  21  257  06m44s
-----  4744 Aug 14  03:43:33  26395  33946  228   T   -0.0549  1.0792  10.6N 124.6W  87  25  256  06m35s
-----  4762 Aug 25  11:16:56  26722  34169  228   Tm   0.0183  1.0786  10.8N 124.5E  89 205  254  06m25s

-----  4780 Sep 04  18:49:06  27050  34392  228   T    0.0923  1.0774  10.7N  13.9E  85 208  251  06m15s
-----  4798 Sep 16  02:23:53  27381  34615  228   T    0.1639  1.0753  10.2N  97.4W  81 209  247  06m04s
-----  4849 Jun 25  09:48:12  28323  35243  231   T    0.1366  1.0728  30.9N 152.8E  82 177  239  06m11s
-----  4867 Jul 06  17:35:37  28661  35466  231   T    0.0757  1.0749  26.5N  38.6E  86 182  244  06m32s
-----  4885 Jul 17  01:16:33  29001  35689  231   Tm   0.0096  1.0764  21.0N  75.0W  89 185  247  06m49s
-----  4903 Jul 29  08:55:01  29344  35912  231   T   -0.0588  1.0772  14.7N 171.3E  87   9  250  07m00s
-----  4921 Aug 08  16:28:39  29688  36135  231   T   -0.1310  1.0772   7.7N  58.0E  83  12  252  07m03s
-----  4939 Aug 20  00:02:31  30034  36358  231   T   -0.2030  1.0766   0.2N  55.9W  78  14  253  06m58s
-----  4957 Aug 30  07:34:10  30383  36581  231   T   -0.2763  1.0750   7.7S 169.8W  74  16  252  06m44s
-----  4975 Sep 10  15:06:38  30733  36804  231   T   -0.3490  1.0728  15.8S  75.8E  69  18  252  06m23s


Calendar

The Gregorian calendar is used for all 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..


Predictions

The coordinates of the Sun used in these predictions are based on the VSOP87 theory [Bretagnon and Francou, 1988]. The Moon's coordinates are based on the ELP-2000/82 theory [Chapront-Touze and Chapront, 1983]. For more information, see: Solar and Lunar Ephemerides. The revised value used for the Moon's secular acceleration is n-dot = -25.858 arc-sec/cy*cy, as deduced from the Apollo lunar laser ranging experiment (Chapront, Chapront-Touze, and Francou, 2002).

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 -1999 to +3000. The uncertainty in ΔT over this period can be estimated from scatter in the measurements.


Footnotes

[1] Hybrid eclipses are also known as annular/total eclipses. Such an eclipse is both total and annular along different sections of its umbral path. (See: Five Millennium Catalog of Hybrid Solar Eclipses)

[2] The terms BCE and CE are abbreviations for "Before Common Era" and "Common Era," respectively. They are the secular equivalents to the BC and AD dating conventions. (See: Year Dating Conventions )

[3] Central solar eclipses are eclipses in which the central axis of the Moon's shadow strikes the Earth's surface. All partial (penumbral) eclipses are non-central eclipses since the shadow axis misses Earth. However, umbral eclipses (total, annular and hybrid) may be either central (usually) or non-central (rarely).

[4] Greatest eclipse is defined as the instant when the axis of the Moon's shadow passes closest to the Earth's center. For total eclipses, the instant of greatest eclipse is virtually identical to the instants of greatest magnitude and greatest duration. However, for annular eclipses, the instant of greatest duration may occur at either the time of greatest eclipse or near the sunrise and sunset points of the eclipse path.


Acknowledgments

Special thanks to Dan McGlaun for extracting the individual eclipse maps from the Five Millennium Canon of Solar Eclipses: -1999 to +3000 for use in this catalog.

The Besselian elements used in the predictions were kindly provided by Jean Meeus. All eclipse calculations are by Fred Espenak, and he assumes full responsibility for their accuracy. Some of the information presented on this web site is based on data originally published in Five Millennium Canon of Solar Eclipses: -1999 to +3000

Permission is freely granted to reproduce this data when accompanied by an acknowledgment:

"Eclipse Predictions by Fred Espenak and Jean Meeus (NASA's GSFC)"


Eclipse Links

Five Millennium Catalog of Solar Eclipses

Ten Millennium Catalog of Long Solar Eclipses

Catalog of Solar Eclipse Saros Series

World Atlas of Solar Eclipse Paths

2007 May 11