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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 atmosphere surrounding the nucleus known as the coma. The force exerted on the coma by the Sun's radiation pressure and solar wind cause an enormous tail to form, which points away from the Sun. A typical comet nucleus has an albedo of 0.04.[1]

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[edit] Splitting

The nucleus of some comets may be fragile, a conclusion supported by the observation of comets splitting apart.[2] Splitting comets include 3D/Biela in 1846, Shoemaker-Levy 9 in 1992,[3] and 73P/Schwassmann-Wachmann from 1995 to 2006.[4] Greek historian Ephorus reported that a comet split apart as far back as the winter of 372-373 BC.[5] Comets are suspected of splitting due to thermal stress, internal gas pressure, or impact.[6]

[edit] Size

Most cometary nuclei are thought to be no more than about 10 miles (16 kilometers) across.[2] But we do know of cometary nuclei up to 40km across.

The potato-shaped nucleus of Halley's comet (15×8×8 km)[2][7] contains equal amounts of ice and dust. About 80 percent of the ice is water ice, and frozen carbon monoxide makes up another 15 percent. Much of the remainder is frozen carbon dioxide, methane, and ammonia.[2] Scientists believe that other comets are chemically similar to Halley's Comet. The nucleus of Halley's Comet is also extremely dark black. Scientists believe that the surface of the comet, and perhaps most other comets, is covered with a black crust of dust and rock that covers most of the ice. These comets release gas only when holes in this crust rotate toward the sun, exposing the interior ice to the warming sunlight.

During a flyby in 2001, the Deep Space 1 spacecraft observed the nucleus of Comet Borrelly and found it to be about half the size (8×4×4 km)[8] of the nucleus of Halley's Comet.[2] Borrelly's nucleus was also potato-shaped and had a dark black surface.[2] Like Halley's Comet, Comet Borrelly only released gas from small areas where holes in the crust exposed the ice to sunlight.

The nucleus of comet Hale-Bopp was estimated to be about 30 to 40 kilometers across.[2] Hale-Bopp appeared bright to the unaided eye because its unusually large nucleus gave off a great deal of dust and gas.

The nucleus of P/2007 R5 is probably only 100-200 meters in diameter.[9]

The largest centaurs (unstable, planet crossing, icy asteroids) are estimated to be 250 km to 300 km in diameter. Three of the largest would include 10199 Chariklo (258 km), 2060 Chiron (230 km), and the currently lost 1995 SN55 (~300 km).

Known comets have been estimated to have an average density of 0.6 g/cm³.[10] Below is a list of comets that have had estimated sizes, densities, and masses.

Name Dimensions
km		 Density
g/cm³		 Mass
kg[11]
Halley's Comet 15×8×8[2][7] 0.6[12] 3 × 1014
Tempel 1 7.6×4.9[13] 0.62[10] 7.9 × 1013
19P/Borrelly 8×4×4[8] 0.3[10] 2 × 1013
81P/Wild 5.5×4.0×3.3[14] 0.6[10] 2.3 × 1013

[edit] Albedo

Comets are often described as "dirty snowballs", though recent observations have revealed dry dusty or rocky surfaces, suggesting that the ices are hidden beneath the crust. It has been suggested that comets should be referred to as "Icy dirtballs".[1] Cometary nuclei are among the darkest objects known to exist in the solar system. The Giotto probe found that Comet Halley's nucleus reflects approximately 4% of the light that falls on it,[1] and Deep Space 1 discovered that Comet Borrelly's surface reflects only 2.4% to 3% of the light that falls on it;[1] by comparison, asphalt reflects 7% of the light that falls on it. It is thought that complex organic compounds are the dark surface material. Solar heating drives off volatile compounds leaving behind heavy long-chain organics that tend to be very dark, like tar or crude oil. The very darkness of cometary surfaces allows them to absorb the heat necessary to drive their outgassing.

Roughly six percent of the near-earth asteroids are thought to be extinct nuclei of comets (see Extinct comets) which no longer experience outgassing.[15] Two near-earth asteroids with albedos this low include 14827 Hypnos and 3552 Don Quixote.

[edit] References

  1. ^ a b c d Robert Roy Britt (2001-11-29). "Comet Borrelly Puzzle: Darkest Object in the Solar System". Space.com. http://www.space.com/scienceastronomy/solarsystem/borrelly_dark_011129.html. Retrieved 2008-10-26. 
  2. ^ a b c d e f g h Yeomans, Donald K. (2005). "Comets (World Book Online Reference Center 125580)". NASA. http://www.nasa.gov/worldbook/comet_worldbook.html. Retrieved 2007-11-20. 
  3. ^ JPL Public Information Office. "Comet Shoemaker-Levy Background". JPL/NASA. http://www2.jpl.nasa.gov/sl9/background.html. Retrieved 2008-10-25. 
  4. ^ Whitney Clavin (2006-05-10). "Spitzer Telescope Sees Trail of Comet Crumbs". Spitzer Space Telescope at Caltech. http://www.spitzer.caltech.edu/Media/releases/ssc2006-13/release.shtml. Retrieved 2008-10-25. 
  5. ^ Donald K. Yeomans (1998). "Great Comets in History". Jet Propulsion Laboratory. http://ssd.jpl.nasa.gov/?great_comets. Retrieved 2007-03-15. 
  6. ^ H. Boehnhardt. "Split Comets". Lunar and Planetary Institute (Max-Planck-Institut für Astronomie Heidelberg). http://www.lpi.usra.edu/books/CometsII/7011.pdf. Retrieved 2008-10-25. 
  7. ^ a b "What Have We Learned About Halley's Comet?". Astronomical Society of the Pacific (No. 6 - Fall 1986). 1986. http://www.astrosociety.org/education/publications/tnl/06/06.html. Retrieved 2008-12-14. 
  8. ^ a b Weaver, H. A.; Stern, S.A.; Parker, J. Wm. (2003). "Hubble Space Telescope STIS Observations of Comet 19P/BORRELLY during the Deep Space 1 Encounter". The American Astronomical Society 126: 444–451. doi:10.1086/375752. http://www.iop.org/EJ/article/1538-3881/126/1/444/202321.text.html. Retrieved 2008-12-14. 
  9. ^ "SOHO's new catch: its first officially periodic comet". European Space Agency. 2007-09-25. http://www.esa.int/esaCP/SEMAU2C1S6F_index_0.html. Retrieved 2007-11-20. 
  10. ^ a b c d D. T. Britt; G. J. Consol-magno SJ; W. J. Merline (2006). "Small Body Density and Porosity: New Data, New Insights". Lunar and Planetary Science XXXVII. http://www.lpi.usra.edu/meetings/lpsc2006/pdf/2214.pdf. Retrieved 2008-12-14. 
  11. ^ Halley: Using the volume of an ellipsoid of 15x8x8km * a rubble pile density of 0.6 g/cm³ yields a mass (m=d*v) of 3.02E+14 kg.
    Tempel 1: Using a spherical radius of 6.25 km; volume of a sphere * a density of 0.62 g/cm³ yields a mass of 7.9E+13 kg.
    19P/Borrelly: Using the volume of an ellipsoid of 8x4x4km * a density of 0.3 g/cm³ yields a mass of 2.0E+13 kg.
    81P/Wild: Using the volume of an ellipsoid of 5.5x4.0x3.3km * a density of 0.6 g/cm³ yields a mass of 2.28E+13 kg.
  12. ^ RZ Sagdeev; PE Elyasberg; VI Moroz. (1988). "Is the nucleus of Comet Halley a low density body?". AA(AN SSSR, Institut Kosmicheskikh Issledovanii, Moscow, USSR), AB(AN SSSR, Institut Kosmicheskikh Issledovanii, Moscow, USSR), AC(AN SSSR, Institut Kosmicheskikh Issledovanii, Moscow, USSR). http://adsabs.harvard.edu/abs/1988Natur.331..240S. Retrieved 2007-05-15. 
  13. ^ "Comet 9P/Tempel 1". The Planetary Society. http://www.planetary.org/explore/topics/asteroids_and_comets/tempel1.html. Retrieved 2008-12-15. 
  14. ^ "Comet 81P/Wild 2". The Planetary Society. http://www.planetary.org/explore/topics/asteroids_and_comets/wild2.html. Retrieved 2007-11-20. 
  15. ^ Whitman, Kathryn; Alessandro Morbidelli and Robert Jedicke (2006). The Size-Frequency Distribution of Dormant Jupiter Family Comets. http://arxiv.org/abs/astro-ph/0603106v2. Retrieved 2008-02-06. 

[edit] External links

[edit] See also

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Comets
General
Comet · Comet nucleus · Comet Coma  · Comet tail  · Antitail (dust trail)  · Comet dust
 Comet C/1996 B2 (Hyakutake)
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See also
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