May 2003 lunar eclipse
Total Lunar Eclipse 16 May 2003 | |
---|---|
From Minneapolis, MN, 3:17 UTC | |
The moon's path through the Earth's shadow. | |
Series (and member) | 121 (54 of 82) |
Gamma | 0.4123 |
Magnitude | 1.12759 |
Duration (hr:mn:sc) | |
Totality | 51:25 |
Partial | 3:13:53 |
Penumbral | 5:06:31 |
Contacts (UTC) | |
P1 | 1:06:53 |
U1 | 2:03:11 |
U2 | 3:14:26 |
Greatest | 3:40:09 |
U3 | 4:05:51 |
U4 | 5:17:05 |
P4 | 6:13:24 |
The moon's path across the Earth's shadow near its descending node in Libra. |
A total lunar eclipse took place on Friday 16 May 2003, the first of two total lunar eclipses in 2003, the other being on 9 November 2003. A shallow total eclipse saw the Moon in relative darkness for 52 minutes and 3.1 seconds. The Moon was 12.938% of its diameter into the Earth's umbral shadow, and should have been significantly darkened. The partial eclipse lasted for 3 hours, 15 minutes and 3.1 seconds in total. Occurring only 0.5 days after perigee (Perigee on Thursday 15 May 2003), the Moon's apparent diameter was 6.2% larger than average. At greatest eclipse the Moon was only 357,693 km (222,260 mi) from the Earth, making it a Super Full Moon.
This lunar eclipse is first of a tetrad, four total lunar eclipses in series. The previous series was in 1985 and 1986, starting with a May 1985 lunar eclipse. The next one was in 2014 and 2015, starting with the 15 April 2014 lunar eclipse.
Visibility
It was completely visible over central Pacific, North America, South America, Atlantic, Europe, Africa and extreme southwestern Asia, seen rising over central Pacific and North America, and setting over Europe and Africa. In South America the entire eclipse was visible lasting just over 5 hours.
Gallery
- Wide Angle view from Minneapolis at 3:35 UTC, near greatest eclipse
Relation to other lunar eclipses
Eclipse season
This is the first eclipse this season.
Second eclipse this season: 31 May 2003 Annular Solar Eclipse
Eclipses of 2003
- A total lunar eclipse on 16 May.
- An annular solar eclipse (one limit) on 31 May.
- A total lunar eclipse on 9 November.
- A total solar eclipse on 23 November.
Lunar year series
It is also the second of four lunar year cycles, repeating every 354 days.
Lunar eclipse series sets from 2002–2005 | ||||||||
---|---|---|---|---|---|---|---|---|
Descending node | Ascending node | |||||||
Saros Photo | Date View | Type Chart | Gamma | Saros Photo | Date View | Type Chart | Gamma | |
111 | 2002 May 26 | penumbral | 1.1759 | 116 | 2002 Nov 20 | penumbral | −1.1127 | |
121 | 2003 May 16 | total | 0.4123 | 126 | 2003 Nov 09 | total | −0.4319 | |
131 | 2004 May 04 | total | −0.3132 | 136 | 2004 Oct 28 | total | 0.2846 | |
141 | 2005 Apr 24 | penumbral | −1.0885 | 146 | 2005 Oct 17 | partial | 0.9796 | |
Last set | 2002 Jun 24 | Last set | 2001 Dec 30 | |||||
Next set | 2006 Mar 14 | Next set | 2006 Sep 07 |
Metonic series
This eclipse is the second of four Metonic cycle lunar eclipses on the same date, 15–16 May, each separated by 19 years.
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 be in nearly the same location relative to the background stars.
|
|
Half-Saros cycle
A lunar eclipse will be preceded and followed by solar eclipses by 9 years and 5.5 days (a half saros).[1] This lunar eclipse is related to two annular solar eclipses of Solar Saros 128.
10 May 1994 | 20 May 2012 |
---|---|
See also
- List of lunar eclipses and List of 21st-century lunar eclipses
- November 2003 lunar eclipse
- October 2004 lunar eclipse
- May 2004 lunar eclipse
References
- ^ Mathematical Astronomy Morsels, Jean Meeus, p.110, Chapter 18, The half-saros
External links
- Saros cycle 121
- 2003 May 16 chart: Eclipse Predictions by Fred Espenak, NASA/GSFC
- NASA Saros series 121
- Lunar Eclipse Gallery
- Pictures of the May 15-16 Lunar Eclipse
- Prof. Druckmüller's eclipse photography site. Czech Republic
- v
- t
- e
by era
by saros series
Partial eclipses
- 1903 Apr
- 1914 Mar
- 1916 Jul
- 1952 Feb
- 1952 Aug
- 1954 Jul
- 1955 Nov
- 1956 May
- 1958 May
- 1959 Mar
- 1961 Mar
- 1961 Aug
- 1963 Jul
- 1965 Jun
- 1970 Feb
- 1970 Aug
- 1972 Jul
- 1973 Dec
- 1974 Jun
- 1976 May
- 1977 Apr
- 1979 Mar
- 1981 Jul
- 1983 Jun
- 1988 Aug
- 1990 Aug
- 1991 Dec
- 1992 Jun
- 1994 May
- 1995 Apr
- 1997 Mar
- 1999 Jul
- 2001 Jul
- 2005 Oct
- 2006 Sep
- 2008 Aug
- 2009 Dec
- 2010 Jun
- 2012 Jun
- 2013 Apr
- 2017 Aug
- 2019 Jul
- 2021 Nov
- 2023 Oct
- → 2024 Sep
- 2026 Aug
- 2028 Jan
- 2028 Jul
- 2030 Jun
- 2034 Sep
- 2035 Aug
- 2037 Jul
- 2039 Jun
- 2039 Nov
- 2041 May
- 2041 Nov
- 2046 Jan
- 2046 Jul
- 2048 Jun
- 2052 Oct
- 2055 Aug
- 2075 Jun
- 2099 Apr
Total eclipses
- 1504 Mar
- 1910 May
- 1913 Sep
- 1920 May
- 1950 Apr
- 1950 Sep
- 1953 Jan
- 1953 Jul
- 1954 Jan
- 1956 Nov
- 1957 May
- 1957 Nov
- 1960 Mar
- 1960 Sep
- 1963 Dec
- 1964 Jun
- 1964 Dec
- 1967 Apr
- 1967 Oct
- 1968 Apr
- 1968 Oct
- 1971 Feb
- 1971 Aug
- 1972 Jan
- 1974 Nov
- 1975 May
- 1975 Nov
- 1978 Mar
- 1978 Sep
- 1979 Sep
- 1982 Jan
- 1982 Jul
- 1982 Dec
- 1985 May
- 1985 Oct
- 1986 Apr
- 1986 Oct
- 1989 Feb
- 1989 Aug
- 1990 Feb
- 1992 Dec
- 1993 Jun
- 1993 Nov
- 1996 Apr
- 1996 Sep
- 1997 Sep
- 2000 Jan
- 2000 Jul
- 2001 Jan
- 2003 May
- 2003 Nov
- 2004 May
- 2004 Oct
- 2007 Mar
- 2007 Aug
- 2008 Feb
- 2010 Dec
- 2011 Jun
- 2011 Dec
- 2014 Apr
- 2014 Oct
- 2015 Apr
- 2015 Sep
- 2018 Jan
- 2018 Jul
- 2019 Jan
- 2021 May
- 2022 May
- 2022 Nov
- → 2025 Mar
- 2025 Sep
- 2026 Mar
- 2028 Dec
- 2029 Jun
- 2029 Dec
- 2032 Apr
- 2032 Oct
- 2033 Apr
- 2033 Oct
- 2036 Feb
- 2036 Aug
- 2037 Jan
- 2040 May
- 2040 Nov
- 2043 Mar
- 2043 Sep
- 2044 Mar
- 2044 Sep
- 2047 Jan
- 2047 Jul
- 2048 Jan
- 2050 May
- 2050 Oct
- 2051 Apr
- 2051 Oct
- 2054 Feb
- 2054 Aug
- 2055 Feb
- 2058 Jun
- 2065 Jul
- 2069 May
- 2072 Aug
- 2076 Jun
- 2083 Jul
- 2084 Jan
- 2087 May
- 2090 Sep
- 2094 Jun
- 2123 Jun
- 2170 May
Penumbral eclipses
- Category
- → symbol denotes next eclipse in series
This lunar eclipse-related article is a stub. You can help Wikipedia by expanding it. |
- v
- t
- e