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A '''meteorite''' is a small extraterrestrial body that impacts the [[Earth]]'s surface. While in space they are called [[meteoroid]]s, and while falling through Earth's atmosphere they are called [[meteor]]s. These are small [[asteroid]]s, approximately [[boulder]]-sized or less. When it enters the atmosphere, [[air resistance]] causes the body to heat up and emit light, thus forming a [[fireball]] or [[shooting star]].
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{{Copyedited}}{{Paid}}{{Approved}}{{Images OK}}{{Submitted}}
 
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[[Category:Public]]
More generally, a meteorite on a celestial body is a small body that has come from elsewhere in space. The only example of a meteorite that didn't fall on Earth is the [[Heat Shield Rock]], which was found on [[Mars]].
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[[Image:willamette meteorite.jpg|thumb|300px|The [[Willamette Meteorite]], the largest ever to be found in the [[United States]]]]
 
 
Meteorites are classified according to their structure and mineral composition. The three main classes of meteorite are stony, stony-iron and iron. These classes are further
 
divided in to [[Meteorites classification|sub-classes]].
 
  
==Overview==
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A '''meteorite''' is a small extraterrestrial body that impacts the [[Earth]]'s surface. While in space they are called [[meteoroid]]s, and while falling through Earth's atmosphere they are called [[meteor]]s. Most of them were small [[asteroid]]s, approximately [[boulder]]-sized or less. Some meteorites have come from the [[Moon]] and [[Mars]]. When it enters the atmosphere, [[air resistance]] causes the body to heat up and emit light, thus forming a [[fireball]] or [[shooting star]]. More generally, meteorites fall on every solid planetary body, creating [[crater]]s such as those on the [[Moon]]. Meteorites are so far the most important materials for studying [[planetary science]].
[[Image:Meteorite Lapham.jpg|right|frame|Meteorite which fell in [[Wisconsin]] in [[1868]] (''[[Media:Increase Lapham.meteor.jpg|Full image]]'')]]
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{{toc}}
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==Population==
  
Most meteors disintegrate when entering the Earth's atmosphere, making [[impact event]]s (Earth impacts) on the surface uncommon.  About 500 baseball-sized rocks reach the surface each year. Large meteorites may strike the ground with considerable force, leaving behind an [[impact crater]]. The kind of crater will depend on the size, composition, degree of fragmentation, and incoming angle of the meteor. The force of collision may cause widespread destruction.  Occasional damage to property, livestock, and even people has been recorded in historic times. In the case of [[comet]] fragments, which are largely composed of [[ice]], a considerable concussion may occur, even though no fragment of the original meteoroid survives; the famed [[Tunguska event]] is thought to have resulted from such an incident.
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79 percent of meteorites are [[chondrite]]s - balls of [[mafic]] [[mineral]]s with small grain size, indicative of rapid cooling. In most chondrites, small spherules called chondrules can be found. Chondrites are typically about 4.6 billion years old and are thought to represent material from the [[asteroid belt]]. There are different models to explain how chondrules formed. Carbonaceous chondrites, some of which are thought to be unaltered [[solar nebula]] material, constitute about five percent of meteorites and contain small amounts of organic materials, including [[amino acid]]s. Also, presolar grains are identified in carbonaceous chondrites. The [[isotope]] ratios of carbonaceous chondrites are similar to those of the [[Sun]].
  
79% of meteorites are [[chondrite]]s - balls of [[mafic]] [[mineral]]s with small grain size indicative of rapid cooling. In most chondrites small spherules, called [[chondrule]]s, can be found. Chondrites are typically about 4.6 billion years old and are thought to represent material from the [[asteroid belt]]. It is unknown how they formed. Carbonaceous chondrites, thought to be unaltered [[solar nebula]] material, constitute about 5% of meteorites and contain small amounts of organic materials, including [[amino acid]]s. Also, [[presolar grains]] are identified in carbonaceous chondrites. The [[isotope]] ratios of carbonaceous chondrites are similar to those of the [[Sun]].
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Achondrites are similar to terrestrial mafic [[igneous rock]]s and sometimes are brecciated. Achondrites constitute about eight percent of the incoming material and are thought to represent crustal material of some of the larger asteroids and occasionally [[Moon]] or [[Mars]]. About six percent of meteorites are [[iron]] meteorites with intergrowths of iron-[[nickel]] [[alloy]]s, such as kamacite. Unlike chondrites, the crystals are large and appear to represent slow crystallization. Iron meteorites are thought to be the core material of one or more planets that subsequently broke up. Stony iron meteorites constitute the remaining two percent. They are a mixture of iron-nickel and [[silicate]] minerals. They are thought to have originated in the boundary zone above the core regions where iron meteorites originated.
  
[[Image:Nickel-Iron-Meteorite-Slice.jpg|thumb|left|Slice of meteorite on display at the [[Vanderbilt Museum]], [[New York]].]]
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==Classification==
  
[[Achondrite]]s are similar to terrestrial mafic [[igneous rock]]s and sometimes are [[breccia]]ted. Achondrites constitute about 8% of the incoming material and are thought to represent crustal material of
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Meteorites are classified according to their structure and mineral composition. The three main classes of meteorite are stones, stony irons, and irons. Each chondrite is described using the following two-character group name and a petrologic type. Starting from the most primitive type 3, decreasing numbers (2~1) indicate higher degrees of aqueous alteration, and increasing numbers (4~7) indicate degrees of thermally metamorphism.
some of the larger asteroids (mostly [[4 Vesta]]) and occasionally [[Mars]]. About 6% of meteorites are [[iron]] meteorites with intergrowths of iron-[[nickel]] [[alloy]]s, such as [[kamacite]]. Unlike chondrites, the crystals are large and appear to represent slow crystallization. Iron meteorites are thought to be the core material of one or more planets that subsequently broke up. Stony iron meteorites constitute the remaining 2%. They are a mixture of iron-nickel and [[silicate]] minerals. They are thought to have originated in the boundary zone above the core regions where iron meteorites originated. A small number of meteorites belong to additional groups or subgroups with unique chemical characteristics relative to other members of the larger groups, such as [[lunar meteorite]]s or [[Martian meteorite]]s. [[Tektites]] (from Greek ''tektos'', molten), natural glass objects up to a few centimeters in size, were formed—according to most scientists—by the impact of large meteorites on Earth's surface, although a few researchers favor an origin from the [[Moon]] as volcanic ejecta.
 
  
== Meteorites in history ==
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* Stones
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** Chondrites
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*** Carbonaceous chondrites: CI (Ivuna), CM (Mighei), CV (Vigarano), CO (Omans), CK (Karoonda), CR (Renazzo), CH (High iron), CB (Bencubbinites)
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*** Ordinary chondrites: H (High iron), L (Low iron), LL (Low, low iron)
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*** E (Enstatite) chondrites: EL (Low iron), EH (High iron)
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*** R (Rumuruti) chondrites
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*** K (Kakangari) chondrites
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** Achondrites
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*** HEDs: Howardites, Eucrites, Diogenites
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*** Lunar
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*** Martian
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*** Primitive achondrites: Acapulcoites, Lodranites, Brachinites, Winonaites
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*** Others: Angrites, Aubrites, Ureilites
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* Stony irons: Pallasites, Mesosiderites
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* Irons: IAB, IC, IIAB, IIC, IID, IIE, IIF, IIG, IIIAB, IIICD, IIIE, IIIF, IVA, IVB
  
One [[theory]] suggests that a large meteorite impact caused the [[Cretaceous-Tertiary extinction event|mass extinction]] of the [[dinosaur]]s. It is also theorized that meteorites caused other [[mass extinction events]] throughout the [[history of the Earth]].
 
  
[[Image:willamette meteorite.jpg|thumb|300px|The [[Willamette Meteorite]], the largest ever to be found in the [[United States]]]]
 
  
The only reported fatality from meteorite impacts is an Egyptian dog who was killed in [[1911]], although this report is disputed. The meteorites that struck this area were identified in the [[1980s]] as [[Mars|Martian]] in origin.
 
 
The first known modern case of a [[human]] hit by a space rock [http://imca.repetti.net/metinfo/metstruck.html]  occurred on [[November 30]] [[1954]] in [[Sylacauga, Alabama]]. There a 4 kg stone chondrite meteorite [http://internt.nhm.ac.uk/jdsml/research-curation/projects/metcat//detail.dsml?Key=S4530&index= ] crashed through a roof and hit [[Ann Hodges]] in her living room after it bounced off her [[radio]]. She was badly bruised. Several persons have since claimed [http://home.earthlink.net/~magellon/news1.html] to have been struck by 'meteorites' but no verifiable meteorites have resulted.
 
 
 
Indigenous peoples often prized iron-nickel meteorites as an easy, if limited, source of iron metal.  For example, the Inuit used chips of the [[Cape York meteorite]] to form cutting edges for tools.
 
  
 
==Notable meteorites==
 
==Notable meteorites==
 
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[[Image:ALH84001_BacteriaFossil.jpg|thumb|right|Possible fossils of bacteria inside a Martian meteorite [[ALH84001]]]]
*[[Heat Shield Rock]] - Found ''on'' [[Mars]].
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*Heat Shield Rock - Found on [[Mars]].
*[[Sayh al Uhaymir]] - Originated from the [[moon]].
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*Orgueil meteorite - Object of a 1965 hoax that involved embedding a [[seed]] within part of the meteorite.
*[[Willamette Meteorite]] - The largest meteorite ever found in the [[United States]].
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*Murchison meteorite and Allende meteorite - These CM2 and CV3 chondrites fell in 1969 and greatly contributed to meteoritics and planetary science.
*[[Orgueil meteorite]] - Object of a 1965 hoax that involved embedding a [[seed]] within part of the meteorite.
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*Canyon Diablo meteorite - Used by pre-historic [[Native Americans]].
*[[Canyon Diablo meteorite]] - Used by pre-historic [[Native Americans]].
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*Sikhote-Alin Meteorite - Massive impact event that occurred on February 12, 1947.
*[[Sikhote-Alin Meteorite]] - Massive [[impact event]] that occurred on [[February 12]], [[1947]].
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*ALH84001 - Mars meteorite that was claimed to prove the existence of [[life]] on [[Mars]].
*[[Cape York meteorite]] - One of the largest meteorites in the world.
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*Kaidun meteorite - Possibly from the martian moon [[Phobos (moon)|Phobos]].
*[[ALH84001]] - [[Mars meteorite]] that was claimed to prove the existence of [[life]] on [[Mars]].
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*Tagish Lake meteorite - Possibly from a D/T-type asteroid or comet.
*[[Kaidun meteorite]] - Possibly from the [[Mars' natural satellites|martian moon]] [[Phobos (moon)|Phobos]].
 
*[[Hoba meteorite]] - The largest known meteorite.
 
  
 
== See also ==
 
== See also ==
 
*[[Meteor]]
 
*[[Meteor]]
*[[Baetylus]]
 
*[[Carbonaceous chondrite]]
 
*[[Lake Siljan]]
 
*[[Leonids]]
 
*[[Geminids]]
 
 
*[[Solar System]]
 
*[[Solar System]]
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*[[Planetary science]]
  
 
== External links ==
 
== External links ==
{{Commons|Meteorite}}
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All links retrieved November 9, 2022.
* [http://www.aerolite.org/meteorite-photography.htm www.aerolite.org:  Meteorite photographs, articles on meteorite hunting]
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* [http://www-curator.jsc.nasa.gov/antmet/ Antarctic Meteorites at NASA]
* [http://www.meteoritetimes.com/ MeteoriteTimes.com: Free On-line Meteorite Magazine]
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* [http://www.meteoriticalsociety.org/ The Meteoritical Society]
* [http://www.meteorites.com.au/ Meteorites.com.au - No. 1 Meteorite Information Website]
 
* [http://www.meteorite.fr/en/news/ Meteorite.fr - All about Meteorites]
 
* [http://www.nhm-wien.ac.at/NHM/Mineral/MetCollecte.htm Natural History Museum of Vienna]
 
* [http://www.meteorieten.com Heavenly Bodies - Meteorite information (E / NL)]
 
* [http://www.meteoriticalsociety.org/ Meteoritical Society]
 
* [http://flood.nhm.ac.uk/cgi-bin/earth/metcat/ The Natural History Museum's Meteorite Catalogue Database]
 
* [http://imca.repetti.net/metinfo/metstruck.html Meteorite hits]
 
* [http://www.jensenmeteorites.com/largestmeteorites.htm Largest meteorites]
 
* [http://ourworld.compuserve.com/homepages/dp5/dust2.htm Article with image of Hoba, world's largest meteorite]
 
 
 
  
[[Category:Meteorites|*]]
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[[Category:Physical sciences]]
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[[Category:Planetary science]]
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[[Category:Astronomy]]
  
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Latest revision as of 16:25, 9 November 2022


The Willamette Meteorite, the largest ever to be found in the United States

A meteorite is a small extraterrestrial body that impacts the Earth's surface. While in space they are called meteoroids, and while falling through Earth's atmosphere they are called meteors. Most of them were small asteroids, approximately boulder-sized or less. Some meteorites have come from the Moon and Mars. When it enters the atmosphere, air resistance causes the body to heat up and emit light, thus forming a fireball or shooting star. More generally, meteorites fall on every solid planetary body, creating craters such as those on the Moon. Meteorites are so far the most important materials for studying planetary science.

Population

79 percent of meteorites are chondrites - balls of mafic minerals with small grain size, indicative of rapid cooling. In most chondrites, small spherules called chondrules can be found. Chondrites are typically about 4.6 billion years old and are thought to represent material from the asteroid belt. There are different models to explain how chondrules formed. Carbonaceous chondrites, some of which are thought to be unaltered solar nebula material, constitute about five percent of meteorites and contain small amounts of organic materials, including amino acids. Also, presolar grains are identified in carbonaceous chondrites. The isotope ratios of carbonaceous chondrites are similar to those of the Sun.

Achondrites are similar to terrestrial mafic igneous rocks and sometimes are brecciated. Achondrites constitute about eight percent of the incoming material and are thought to represent crustal material of some of the larger asteroids and occasionally Moon or Mars. About six percent of meteorites are iron meteorites with intergrowths of iron-nickel alloys, such as kamacite. Unlike chondrites, the crystals are large and appear to represent slow crystallization. Iron meteorites are thought to be the core material of one or more planets that subsequently broke up. Stony iron meteorites constitute the remaining two percent. They are a mixture of iron-nickel and silicate minerals. They are thought to have originated in the boundary zone above the core regions where iron meteorites originated.

Classification

Meteorites are classified according to their structure and mineral composition. The three main classes of meteorite are stones, stony irons, and irons. Each chondrite is described using the following two-character group name and a petrologic type. Starting from the most primitive type 3, decreasing numbers (2~1) indicate higher degrees of aqueous alteration, and increasing numbers (4~7) indicate degrees of thermally metamorphism.

  • Stones
    • Chondrites
      • Carbonaceous chondrites: CI (Ivuna), CM (Mighei), CV (Vigarano), CO (Omans), CK (Karoonda), CR (Renazzo), CH (High iron), CB (Bencubbinites)
      • Ordinary chondrites: H (High iron), L (Low iron), LL (Low, low iron)
      • E (Enstatite) chondrites: EL (Low iron), EH (High iron)
      • R (Rumuruti) chondrites
      • K (Kakangari) chondrites
    • Achondrites
      • HEDs: Howardites, Eucrites, Diogenites
      • Lunar
      • Martian
      • Primitive achondrites: Acapulcoites, Lodranites, Brachinites, Winonaites
      • Others: Angrites, Aubrites, Ureilites
  • Stony irons: Pallasites, Mesosiderites
  • Irons: IAB, IC, IIAB, IIC, IID, IIE, IIF, IIG, IIIAB, IIICD, IIIE, IIIF, IVA, IVB


Notable meteorites

Possible fossils of bacteria inside a Martian meteorite ALH84001
  • Heat Shield Rock - Found on Mars.
  • Orgueil meteorite - Object of a 1965 hoax that involved embedding a seed within part of the meteorite.
  • Murchison meteorite and Allende meteorite - These CM2 and CV3 chondrites fell in 1969 and greatly contributed to meteoritics and planetary science.
  • Canyon Diablo meteorite - Used by pre-historic Native Americans.
  • Sikhote-Alin Meteorite - Massive impact event that occurred on February 12, 1947.
  • ALH84001 - Mars meteorite that was claimed to prove the existence of life on Mars.
  • Kaidun meteorite - Possibly from the martian moon Phobos.
  • Tagish Lake meteorite - Possibly from a D/T-type asteroid or comet.

See also

External links

All links retrieved November 9, 2022.

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