Discovery | |
---|---|
Discovered by | Wilhelm Tempel and Horace Parnell Tuttle |
Discovery date | December 19, 1865 |
Designations | |
1366 U1; 1699 U1; 1699 II; 1865 Y1; 1866 I; 1965 M2; 1965 IV; 1965i; 1997 E1 | |
Orbital characteristics | |
Epoch | 2031-05-14 ( JD 2463000.5) |
Aphelion | 19.96 AU |
Perihelion | 0.9644 AU |
Semi-major axis | 10.46 AU |
Eccentricity | 0.9078 |
Orbital period | 33.83 yr |
Inclination | 162.57° |
Last perihelion | February 28, 1998 [1] |
Next perihelion | May 20, 2031 [2] [3] [1] [4] |
Earth MOID | 0.008 AU (1,200,000 km) [5] |
Physical characteristics | |
Dimensions | 3.6 km [5] |
55P/TempelâTuttle (commonly known as Comet TempelâTuttle) is a retrograde periodic comet with an orbital period of 33 years. It fits the classical definition of a Halley-type comet with a period of between 20 and 200 years. It was independently discovered by Wilhelm Tempel on December 19, 1865, and by Horace Parnell Tuttle on January 6, 1866.
It is the parent body of the Leonid meteor shower. In 1699, it was observed by Gottfried Kirch [6] but was not recognized as a periodic comet until the discoveries by Tempel and Tuttle during the 1866 perihelion. In 1933, S. Kanda deduced that the comet of 1366 was TempelâTuttle, which was confirmed by Joachim Schubart in 1965. [6] On 26 October 1366, the comet passed 0.0229 AU (3,430,000 km; 2,130,000 mi; 8.9 LD) from Earth. [7]
Comet Tempel-Tuttle was recovered on March 4, 1997 by Karen Meech, Olivier Hainaut and James "Gerbs" Bauer, at the University of Hawai`i. At the time it was very faint (22.5 mag), but the recovery proved that it was returning on schedule and that its orbit was very well determined. [8]
The retrograde orbit of 55P/TempelâTuttle causes meteors to impact Earth at a high speed of 70 km/s. The orbit intersects that of Earth nearly exactly, hence streams of material ejected from the comet during perihelion passages do not have to spread out much over time to encounter Earth. The comet currently has an Earth- MOID of 0.008 AU (1,200,000 km; 740,000 mi). [5] This coincidence means that past streams from the comet at perihelion are still dense when they encounter Earth, resulting in the 33-year cycle of Leonid meteor storms. For example, the 1833 meteor storm was created by the previous 1800 perihelion passage. [9] Between 2021â2030, Earth will often pass through the meteoroid stream left behind from the 1733 orbit. [10]
Year |
Nominal geocentric distance ( AU) |
---|---|
1366 | 0.023 AU (3.4 million km) [7] [6] |
1699 | 0.064 AU (9.6 million km) [1] [6] |
1832 | 0.171 AU (25.6 million km) [11] [1] |
1998 | 0.356 AU (53.3 million km) [12] [1] |
2031 | 0.791 AU (118.3 million km) [13] [1] |
2163 | 0.132 AU (19.7 million km) [5] |
55P/TempelâTuttle is estimated to have a nucleus of mass 1.2Ă1013 kg [14] and radius 1.8 km [14] and a stream of mass 5Ă1012 kg. [14]
Discovery | |
---|---|
Discovered by | Wilhelm Tempel and Horace Parnell Tuttle |
Discovery date | December 19, 1865 |
Designations | |
1366 U1; 1699 U1; 1699 II; 1865 Y1; 1866 I; 1965 M2; 1965 IV; 1965i; 1997 E1 | |
Orbital characteristics | |
Epoch | 2031-05-14 ( JD 2463000.5) |
Aphelion | 19.96 AU |
Perihelion | 0.9644 AU |
Semi-major axis | 10.46 AU |
Eccentricity | 0.9078 |
Orbital period | 33.83 yr |
Inclination | 162.57° |
Last perihelion | February 28, 1998 [1] |
Next perihelion | May 20, 2031 [2] [3] [1] [4] |
Earth MOID | 0.008 AU (1,200,000 km) [5] |
Physical characteristics | |
Dimensions | 3.6 km [5] |
55P/TempelâTuttle (commonly known as Comet TempelâTuttle) is a retrograde periodic comet with an orbital period of 33 years. It fits the classical definition of a Halley-type comet with a period of between 20 and 200 years. It was independently discovered by Wilhelm Tempel on December 19, 1865, and by Horace Parnell Tuttle on January 6, 1866.
It is the parent body of the Leonid meteor shower. In 1699, it was observed by Gottfried Kirch [6] but was not recognized as a periodic comet until the discoveries by Tempel and Tuttle during the 1866 perihelion. In 1933, S. Kanda deduced that the comet of 1366 was TempelâTuttle, which was confirmed by Joachim Schubart in 1965. [6] On 26 October 1366, the comet passed 0.0229 AU (3,430,000 km; 2,130,000 mi; 8.9 LD) from Earth. [7]
Comet Tempel-Tuttle was recovered on March 4, 1997 by Karen Meech, Olivier Hainaut and James "Gerbs" Bauer, at the University of Hawai`i. At the time it was very faint (22.5 mag), but the recovery proved that it was returning on schedule and that its orbit was very well determined. [8]
The retrograde orbit of 55P/TempelâTuttle causes meteors to impact Earth at a high speed of 70 km/s. The orbit intersects that of Earth nearly exactly, hence streams of material ejected from the comet during perihelion passages do not have to spread out much over time to encounter Earth. The comet currently has an Earth- MOID of 0.008 AU (1,200,000 km; 740,000 mi). [5] This coincidence means that past streams from the comet at perihelion are still dense when they encounter Earth, resulting in the 33-year cycle of Leonid meteor storms. For example, the 1833 meteor storm was created by the previous 1800 perihelion passage. [9] Between 2021â2030, Earth will often pass through the meteoroid stream left behind from the 1733 orbit. [10]
Year |
Nominal geocentric distance ( AU) |
---|---|
1366 | 0.023 AU (3.4 million km) [7] [6] |
1699 | 0.064 AU (9.6 million km) [1] [6] |
1832 | 0.171 AU (25.6 million km) [11] [1] |
1998 | 0.356 AU (53.3 million km) [12] [1] |
2031 | 0.791 AU (118.3 million km) [13] [1] |
2163 | 0.132 AU (19.7 million km) [5] |
55P/TempelâTuttle is estimated to have a nucleus of mass 1.2Ă1013 kg [14] and radius 1.8 km [14] and a stream of mass 5Ă1012 kg. [14]