February 2008 lunar eclipse

February 2008 lunar eclipse
Total eclipse
	Telescopic view, from North Billerica, Massachusetts at 3:25 UT, near greatest eclipse.
Date	21 February 2008
Gamma	-0.39923
Magnitude	1.10618
Saros cycle	133 (26 of 71)
Totality	49 minutes, 46 seconds
Partiality	205 minutes, 28 seconds
Penumbral	339 minutes, 3 seconds
P1
Contacts (UTC)
P1	00:36:34
U1	01:43:17
U2	03:01:09
Greatest	03:26:03
U3	03:50:55
U4	05:08:45
P4	06:15:37
	← August 2007 August 2008 →

A total lunar eclipse occurred on February 20 and February 21, 2008. It was visible in the eastern evening sky on February 20 for all of North and South America, and on February 21 in the predawn western sky from most of Africa and Europe. Greatest Eclipse occurring on Thursday, February 21, 2008 at 03:26:03 UTC, totality lasting 49 minutes and 45.6 seconds.

Occurring 7.1 days after perigee (Perigee on February 14, 2008) and 6.9 days before apogee (Apogee on February 28, 2008), the Moon's apparent diameter was near the average diameter.

The total lunar eclipse was the first of the two lunar eclipses in 2008, with the second, the August 16, 2008 event being partial.^[1] The next total lunar eclipse occurred on December 21, 2010. The tables below contain detailed predictions and additional information on the Total Lunar Eclipse of 21 February 2008.

The moon's apparent diameter was 26.2 arcseconds larger than the August 16, 2008 partial lunar eclipse.

Eclipse season[]

This is the second eclipse this season.

First eclipse this season: 7 February 2008 Annular Solar Eclipse

Date = 21 February 2008

Penumbral Magnitude = 2.14507
Umbral Magnitude = 1.10618
Gamma: -0.39923
Greatest Eclipse: 21 Feb 2008 03:26:03.3 UTC (03:27:08.8 TD)
Ecliptic Opposition: 21 Feb 2008 03:30:30.8 UTC (03:31:36.3 TD)
Equatorial Opposition: 21 Feb 2008 03:48:25.7 UTC (03:49:31.2 TD)
Sun right ascension: 22 hours, 15 minutes, 30.0 seconds
Moon right ascension: 10 hours, 14 minutes, 48.5 seconds
Earth's shadow right ascension: 10 hours, 15 minutes, 30.0 seconds
Sun declination: 10 degrees, 48 minutes, 31.3 seconds south of Celestial Equator
Moon declination: 10 degrees, 28 minutes, 7.6 seconds north of Celestial Equator
Earth's shadow declination: 10 degrees, 48 minutes, 31.3 seconds north of Celestial Equator
Sun diameter: 1941.0 arcseconds
Moon diameter: 1868.4 arcseconds
Penumbra diameter: 2 degrees, 1684.08 arcseconds (8884.08 arcseconds)
Umbra diameter: 1 degree, 1402.56 arcseconds (5002.56 arcseconds)
Saros Series: 133rd (26 of 71)
Node: Descending Node

Libration of Moon[]

Latitude: 4.8 degrees north

Longitude: 0.5 degrees east

Position Angle: 19.4 (NNE)

Eclipse Durations of Total Lunar Eclipse 21 February 2008[]

Totality: 49 minutes, 45.6 seconds

Umbral: 3 hours, 25 minutes, 28.1 seconds

Total: 5 hours, 39 minutes, 3.4 seconds

Viewing[]

NASA chart of the eclipse

The eclipse was visible in the eastern evening sky on February 20 for all of North and South America, and on February 21 in the predawn western sky from most of Africa and Europe.

These simulated views of the earth from the center of the moon during the lunar eclipse show where the eclipse is visible on earth.

The penumbral eclipse began at 00:35 UTC (February 21), and ended at 6:17. A partial eclipse existed from 1:43 until 3:00, followed by 51 minutes of totality (3:00 - 3:51), and then partial again from 3:51 until 5:09. (For local times, see Timing.)

It is possible to mistake the appearance of partial eclipse as the moon being in a different phase, but the shadow from the eclipse changes much more rapidly.^[2]

The bright star Regulus of Leo and the planet Saturn were prominent very near the moon during the total eclipse portion. Shortly before the eclipse began, Regulus was occulted by the moon in parts of the far Southern Atlantic Ocean and Antarctica.

Map[]

Relation to other lunar eclipses[]

Eclipses of 2008[]

An annular solar eclipse on February 7.
A total lunar eclipse on February 21.
A total solar eclipse on August 1.
A partial lunar eclipse on August 16.

Lunar year series[]

Lunar eclipse series sets from 2006–2009
Descending node				Ascending node
Saros # and photo	Date Viewing	Type Chart	Gamma	Saros # and photo	Date Viewing	Type Chart	Gamma
113	2006 Mar 14	penumbral	1.0211	118	2006 Sep 7	partial	-0.9262
123	2007 Mar 03	total	0.3175	128	2007 Aug 28	total	-0.2146
133	2008 Feb 21	total	-0.3992	138	2008 Aug 16	partial	0.5646
143	2009 Feb 09	penumbral	-1.0640	148	2009 Aug 06	penumbral	1.3572

Last set	2005 Apr 24			Last set	2005 Oct 17

Next set	2009 Dec 31			Next set	2009 Jul 07

Saros series[]

This lunar eclipse is part of series 133 of the Saros cycle, which repeats every 18 years and 11 days. Series 133 runs from the year 1557 until 2819. The previous eclipse of this series occurred on February 9, 1990 and the next will occur on March 3, 2026.

It is the 6th of 21 total lunar eclipses in series 133. The first was on December 28, 1917. The last (21st) will be on August 3, 2278. The longest two occurrences of this series (14th and 15th) will last for a total of 1 hour and 42 minutes on May 18, 2152 and May 30, 2170. Solar saros 140 interleaves with this lunar saros with an event occurring every 9 years 5 days alternating between each saros series.

Lunar saros series 133, repeating every 18 years and 11 days, has a total of 71 lunar eclipse events including 54 umbral lunar eclipses (33 partial lunar eclipses and 21 total lunar eclipses).

Greatest	First
The greatest eclipse of the series will occur on 2170 May 30, lasting 102 minutes. ^[3]	Penumbral	Partial	Total	Central
	1557 May 13	1683 Aug 07
	Last
	Central	Total	Partial	Penumbral
	2224 Jul 01	2278 Aug 03	2429 Dec 11	2754 Jun 26

There are 10 series events between 1901 and 2100, grouped into threes (called an exeligmos), each column with approximately the same viewing longitude on earth.

1901–2100
	1936 Jan 08	1954 Jan 19

1972 Jan 30	1990 Feb 09	2008 Feb 21

2026 Mar 03	2044 Mar 13

Metonic cycle (19 years)[]

This is the fourth of five Metonic lunar eclipses.

The Metonic cycle repeats nearly exactly every 19 years and represents a Saros cycle plus one lunar year. Because it occurs on the same calendar date, the earth's shadow will in nearly the same location relative to the background stars.

Metonic lunar eclipse sets 1951–2027
Descending node			Ascending node
Saros	Date	Type	Saros	Date	Type
103	1951 Feb 21.88	Penumbral	108	1951 Aug 17.13	Penumbral

113	1970 Feb 21.35	Partial	118	1970 Aug 17.14	Partial

123	1989 Feb 20.64	Total	128	1989 Aug 17.13	Total

133	2008 Feb 21.14	Total	138	2008 Aug 16.88	Partial

143	2027 Feb 20.96	Penumbral	148	2027 Aug 17.30	Penumbral

Half-Saros cycle[]

A lunar eclipse will be preceded and followed by solar eclipses by 9 years and 5.5 days (a half saros).^[4] This lunar eclipse is related to two annular solar eclipses of Solar Saros 140.

February 16, 1999	February 26, 2017

Timing[]

The moon entered the penumbral shadow at 0:36 UTC, and the umbral shadow at 1:43. Totality lasted for 50 minutes, between 3:01 and 3:51. The moon left the umbra shadow at 5:09 and left the penumbra shadow at 6:16.^[5]

Total Lunar Eclipse^[6]
Event		North and South America						Europe and Africa
		Evening of February 20th						Morning of February 21st
		AKST (-9_h)	PST (-8_h)	MST (-7_h)	CST (-6_h)	EST (-5_h)	AST (-4_h)	GMT (0_h)	CET (+1_h)	EET (+2_h)
P1	Penumbral began	Under Horizon	Under Horizon	Under Horizon	18:36	19:36	20:36	0:36	1:36	2:36
U1	Partial began	Under Horizon	Under Horizon	18:43	19:43	20:43	21:43	1:43	2:43	3:43
U2	Total began	Under Horizon	19:01	20:01	21:01	22:01	23:01	3:01	4:01	5:01
	Mid-eclipse	18:26	19:26	20:26	21:26	22:26	23:26	3:26	4:26	5:26
U3	Total ended	18:51	19:51	20:51	21:51	22:51	23:51	3:51	4:51	Set
U4	Partial ended	20:09	21:09	22:09	23:09	0:09	1:09	5:09	Set	Set

Photo gallery[]

Composites[]

Eclipse observed from Sandim, Portugal. 41°02′22″N 8°30′50″W / 41.03944°N 8.51389°W / 41.03944; -8.51389.	Eclipse observed from Regina, Saskatchewan. Each image is roughly taken 5 minutes apart.
Images taken in 3-5 minute Intervals - from Bradley, Illinois.	Eclipse observed from Halton Hills, Ontario. From 01:47 to 03:15 UTC, each image is roughly taken 5min apart.
Eclipse observed from Winnipeg, Manitoba
Lunar eclipse observed from Burlington, Ontario
Observed from Baltimore, Maryland from 2:30 to 3:01 UTC. Lunar north is near left.

North America[]

Canada[]

Eclipse Observed from Burlington, Ontario at 2:00 UTC.
Eclipse observed from Victoria, British Columbia at 2:49 UTC. Lunar north is near top-left.
Eclipse observed from Victoria, British Columbia at 2:56 UTC, just prior to total. Lunar north is near top-left.
Eclipse observed from Salmon Arm, Canada at 3:11 UTC. Lunar north is near top-left.
Eclipse observed from Burlington, Ontario at 4:05 UTC.

USA (west)[]

Eclipse observed from Salem, Oregon. Lunar north is near top-left.
Observed from Urbana, Illinois at 3:06 UTC. Lunar north is near top-left.
Observed from Boulder, Colorado at 4:17 UTC. Lunar north is near top-left. Mare Humorum appears at bottom, Tycho's rays at bottom right.

USA (east)[]

Moon observed from West Hartford, Connecticut at 1:42 UTC. Lunar north is left.
Eclipse observed from Philadelphia, Pennsylvania at 2:49 UTC.
Eclipse observed from Millersville, Pennsylvania at 3:15 UTC. Lunar north is near left.
Eclipse observed from West Hartford, Connecticut at 3:17 UTC. Lunar north is near top-left.
Eclipse observed from West Hartford, Connecticut at 3:18 UTC. Lunar north is near top-left.
Eclipse observed from Philadelphia, Pennsylvania at 3:36 UTC. Lunar north is top-left.
Eclipse observed from Wellesley, Massachusetts at 3:52 UTC
Eclipse observed from Fredericksburg, Virginia at 3:57 UTC.

South America[]

Eclipse observed from São Joaquim, Brazil at 3:52 UTC.

Europe and Africa[]

Eclipse observed from Rostock, Germany at 1:50 UTC. Lunar north is near top.
Eclipse observed from Sasolburg, South Africa - around 2:55 UTC. Lunar north is right.
Eclipse observed from Prague, Czech Republic at 3:41 UTC

Notes[]

^ sunearth.gsfc.nasa.gov^{[dead link]}
^ http://www.spaceweather.com/eclipses/20feb08e/John-Doukoumopoulos2.jpg^{[bare URL]}
^ "NASA - Catalog of Lunar Eclipses in Saros 133". eclipse.gsfc.nasa.gov. Retrieved 24 January 2021.
^ Mathematical Astronomy Morsels, Jean Meeus, p.110, Chapter 18, The half-saros
^ "Total lunar eclipse of 2008 Feb 21" (PDF). NASA. 21 February 2008.^{[dead link]} Eclipse Predictions by Fred Espenak, NASA's GSFC
^ "NASA - Total Lunar Eclipse: February 20, 2008". 2008. Archived from the original on 21 February 2008. Retrieved 21 February 2008.

External links[]

[1] sunearth.gsfc.nasa.gov^{[dead link]}

[2] ttp://www.spaceweather.com/eclipses/20feb08e/John-Doukoumopoulos2.jpg^{[bare URL]}

[auto2-3] "NASA - Catalog of Lunar Eclipses in Saros 133". eclipse.gsfc.nasa.gov. Retrieved 24 January 2021.

[4] Mathematical Astronomy Morsels, Jean Meeus, p.110, Chapter 18, The half-saros

[5] "Total lunar eclipse of 2008 Feb 21" (PDF). NASA. 21 February 2008.^{[dead link]} Eclipse Predictions by Fred Espenak, NASA's GSFC

[6] "NASA - Total Lunar Eclipse: February 20, 2008". 2008. Archived from the original on 21 February 2008. Retrieved 21 February 2008.

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