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Cerulli (crater)

Coordinates: 32°30′N 337°54′W / 32.5°N 337.9°W / 32.5; -337.9
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Crater characteristics
PlanetMars
Coordinates32°30′N 337°54′W / 32.5°N 337.9°W / 32.5; -337.9
QuadrangleIsmenius Lacus
Diameter130 km (81 mi)
EponymVicenzo Cerulli, an Italian astronomer (1859-1927)

Cerulli is a crater in the Ismenius Lacus quadrangle on Mars with a diameter of 130 km. It lies in the northern hemisphere south of the very large crater Lyot.[1] It is named after Vincenzo Cerulli, an Italian astronomer (1859–1927).[2]

Impact craters generally have a rim with ejecta around them; in contrast, volcanic craters usually do not have a rim or ejecta deposits. As craters get larger (greater than 10 km in diameter) they usually have a central peak.[3] The peak is caused by a rebound of the crater floor following the impact.[4] If one measures the diameter of a crater, the original depth can be estimated with various ratios. Because of this relationship, researchers have found that many Martian craters contain a great deal of material; much of it is believed to be ice deposited when the climate was different.[5] Sometimes, craters expose layers that were buried. Cerulli shows evidence of glacial activity in the past. The density of impact craters is used to determine the surface ages of Mars and other solar system bodies.[3] The older the surface, the more craters present. Crater shapes can reveal the presence of ground ice.

The area around craters may be rich in minerals. On Mars, heat from the impact melts ice in the ground. Water from the melting ice dissolves minerals, and then deposits them in cracks or faults that were produced with the impact. This process, called hydrothermal alteration, is a major way in which ore deposits are produced. The area around Martian craters may be rich in useful ores for the future colonization of Mars.[6]

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See also

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References

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  1. ^ Moore, P. et al. 1990. The Atlas of the Solar System. Crescent Books. NY
  2. ^ "Gazetteer of Planetary Nomenclature | Cerulli". usgs.gov. International Astronomical Union. Retrieved 4 March 2015.
  3. ^ a b "Stones, Wind, and Ice: A Guide to Martian Impact Craters".
  4. ^ Hugh H. Kieffer (1992). Mars. University of Arizona Press. ISBN 978-0-8165-1257-7. Retrieved 7 March 2011.
  5. ^ Garvin, J., et al. 2002. Global geometric properities of martian impact craters. Lunar Planet Sci. 33. Abstract @1255.
  6. ^ "Indiana University Bloomington". Indiana.edu. Archived from the original on 2016-01-04. Retrieved 2022-03-20.