"...asteroids were sometimes assigned numbers before accurate orbital elements had been determined, and so some numbered asteroids could not later be located. These objects were referred to as "lost" asteroids. " — Encyclopædia Britannica
A lost comet is a previously discovered comet that has been missed at its most recent perihelion passage, generally because there is not enough data to reliably calculate the comet's orbit and predict its location.
Lost comets can be compared to lost asteroids, although calculation of cometary orbits differs because of nongravitational forces that can affect comets, such as emission of jets of gas from the nucleus. Some astronomers have specialized in this area, such as Brian G. Marsden who successfully predicted the 1992 return of the once-lost periodic comet Swift–Tuttle.
Reasons for loss
There are a number of reasons why a comet might be missed by astronomers during subsequent apparitions. Firstly, cometary orbits may be perturbed by interaction with the giant planets, such as Jupiter. This, along with nongravitational forces, can result in changes to the date of perihelion. Alternatively, it is possible that the interaction of the planets with a comet can move its orbit too far from the Earth to be seen or even eject it from the Solar System, as is believed to have happened in the case of Lexell's Comet. As some comets periodically undergo "outbursts" or flares in brightness, it may be possible for an intrinsically faint comet to be discovered during an outburst and subsequently lost.
Comets can also run out of volatiles. Eventually most of the volatile material contained in a comet nucleus evaporates away, and the comet becomes a small, dark, inert lump of rock or rubble, an extinct comet that can resemble an asteroid (see also Comets#Fate of comets). This may have occurred in the case of 5D/Brorsen, which was considered by Marsden to have probably "faded out of existence" in the late 19th century.
Comets are in some cases known to have disintegrated during their perihelion passage, or at other points during their orbit. The most well-known example is Biela's Comet, which was observed to split into two components before disappearing after its 1852 apparition. In modern times 73P/Schwassmann–Wachmann has been observed in the process of breaking up.
Occasionally, the discovery of an object turns out to be a rediscovery of a previously lost object, which can be determined by calculating its orbit and matching calculated positions with the previously recorded positions. In the case of lost comets this is especially tricky. For example, the comet 177P/Barnard (also P/2006 M3), discovered by Edward Emerson Barnard on June 24, 1889, was rediscovered after 116 years in 2006. On July 19, 2006, 177P came within 0.36 AU of the Earth.
Comets can be gone but not considered lost, even though they may not be expected back for hundreds or even thousands of years. With more powerful telescopes it has become possible to observe comets for longer periods of time after perihelion. For example, Comet Hale–Bopp was observable with the naked eye about 18 months after its approach in 1997. It is expected to remain observable with large telescopes until perhaps 2020, by which time it will be nearing 30th magnitude.
Comets that have been lost or which have disappeared have names beginning with a "D" according to current IAU conventions.
Comets are typically observed on a periodic return. When they do not they are sometimes found again, while other times they may break up into fragments. These fragments can sometimes be further observed, but the comet is no longer expected to return. Other times a Comet will not be considered lost until it does not appear at a predicted time. Comets may also collide with another object, such as Comet Shoemaker–Levy 9, which collided with Jupiter in 1994.
Name(s) Initially Discovered Recovered or Lost Fate/Status 34D/Gale 1927 1938 Lost since 1938 206P/Barnard–Boattini 1892 2008 Found since 2008 15P/Finlay 1886–1926 1953 Found since 1953 107P/Wilson–Harrington 1949 1992 Found since 1992 73P/Schwassmann–Wachmann 1930 ? Breakup (1995) 25D/Neujmin 1916 Considered lost since 1927 69P/Taylor 1915 1976, 1984, 1990, 1998 11P/Tempel–Swift–LINEAR 1908 2001 Found since 2001 113P/Spitaler 1897 1993 Found since 1994 205P/Giacobini (D/1896 R2) 1896 2008 18D/Perrine–Mrkos 1896 1955 Lost 17P/Holmes 1892–1906 1964 Found Since 1964 177P/Barnard 1889 2006 Recovered after 116 years 20D/Westphal 1852 1913 Lost 5D/Brorsen 1846 1857, 1868, 1879 Lost since 1879 54P/de Vico–Swift–NEAT 1844 1894, 1965, 2002 Found since 2002 27P/Crommelin 1818 1873, 1928 Found since 1928 3D/Biela 1772 1852 Broke up (1846), Andromedids D/1770 L1 (Lexell) 1770 Lost since 1770
- List of periodic comets
- List of non-periodic comets
- Extinct comets
- Lost asteroids
- Brian G. Marsden, comet orbit expert
- The Lost Comet (1964), book by Stanton A. Coblentz
- ^ lost asteroid. (2009). In Encyclopædia Britannica. Retrieved February 27, 2009, from Encyclopædia Britannica Online: http://www.britannica.com/EBchecked/topic/348392/lost-asteroid
- ^ "If comets melt, why do they seem to last for long periods of time?", Scientific American, November 16, 1998
- ^ Kronk, G. W.5D/Brorsen, Cometography.com
- ^ a b Naoyuki Kurita. "Comet Barnard 2 on Aug 4, 2006". Stellar Scenes. http://www.ne.jp/asahi/stellar/scenes/comet_e/barnard2_060804.htm. Retrieved 2006-09-01.
- ^ "177P/Barnard". Kazuo Kinoshita. 2006-11-18. http://jcometobs.web.fc2.com/pcmtn/0177p.htm. Retrieved 2007-01-06.
- ^ Kidger, M.R.; Hurst, G; James, N. (2004). "The Visual Light Curve Of C/1995 O1 (Hale–Bopp) From Discovery To Late 1997". Earth, Moon, and Planets 78 (1–3): 169–177. Bibcode 1997EM&P...78..169K. doi:10.1023/A:1006228113533. http://www.springerlink.com/content/h72381014307x661/.
- ^ West, Richard M. (February 7, 1997). "Comet Hale–Bopp (February 7, 1997)". European Southern Observatory. http://www.eso.org/public/events/astro-evt/hale-bopp/comet-hale-bopp-summary-feb07-97-rw.html. Retrieved 2008-11-01.
Comets Features Types Lists See also
Wikimedia Foundation. 2010.
Look at other dictionaries:
Lost asteroid — Lost asteroids or lost planets are asteroids that observers lose track of after discovering. Many early lost asteroids were rediscovered in the 1980s and 1990s, but a number of asteroids and other types of small Solar System bodies continue to be … Wikipedia
Comet — This article is about the astronomical object. For other uses, see Comet (disambiguation). Comet Hale– … Wikipedia
Comet Holmes — 17P/Holmes Comet Holmes on November 4, 2007, showing the blue ion tail on the right, taken from Hungary Discovery Discovery date: November 6, 1892 Alternate designations: 1892 V1; 1892 III; 1892f; 1899 L1; 1899 II; 1899d; … Wikipedia
Comet dust — refers to cosmic dust that originates from a comet. Comet dust can provide clues to comets origin. Dust and comet origin Microscopic view of comet dust particle The models for the origin of comets are: 1) the interstellar model, 2) the solar… … Wikipedia
Comet Queen — s first appearance in Legion of Super Heroes #304. Publication information Publisher DC Comics … Wikipedia
Comet in Moominland (film) — Comet in Moominland ムーミン谷の彗星 Directed by Hiroshi Saitô Produced by Kazuo Tabata Written by Tove Jansson (novel) Lars Jansson Dennis Livson … Wikipedia
Comet (Auto) — Comet war eine US amerikanische Automobilmarke, die zwischen 1946 und 1948 von der General Developing Company in Richwood (New York) gebaut wurde. Der Comet war ein offener Roadster mit drei Rädern, zwei Sitzplätzen und einem erstaunlich großen… … Deutsch Wikipedia
comet — cometary /kom i ter ee/, cometic /keuh met ik/, cometical, adj. cometlike, adj. /kom it/, n. Astron. a celestial body moving about the sun, usually in a highly eccentric orbit, consisting of a central mass surrounded by an envelope of dust and… … Universalium
Comet nucleus — The nucleus of Comet Tempel 1. The nucleus is the solid, central part of a comet, popularly termed a dirty snowball. A cometary nucleus is composed of rock, dust, and frozen gases. When heated by the Sun, the gases sublimate and produce an… … Wikipedia
Comet tail — Diagram of a comet showing the dust trail, the dust tail (or antitail) and the gas tail. NASA … Wikipedia