Eratosthenes (crater)

Eratosthenes

Coordinates 14°28′N 11°19′W / 14.47°N 11.32°W / 14.47; -11.32Coordinates: 14°28′N 11°19′W / 14.47°N 11.32°W / 14.47; -11.32
Diameter 59 km
Depth 3.6 km
Colongitude 12° at sunrise
Eponym Eratosthenes
Eratosthenes (lower right of center) and surroundings from Apollo 17. NASA image.
Eratosthenes crater. Photo taken from Earth. Author: Georgi Georgiev, Stara Zagora, Bulgaria.
Eratosthenes as seen from Earth.
Detail map of Mare Imbrium's features. Eratosthenes is marked "L".

Eratosthenes is a relatively deep lunar impact crater that lies on the boundary between the Mare Imbrium and Sinus Aestuum mare regions. It forms the western terminus of the Montes Apenninus mountain range. The crater has a well-defined circular rim, terraced inner wall, central mountain peaks, an irregular floor, and an outer rampart of ejecta. It lacks a ray system of its own, but is overlain by rays from the prominent crater Copernicus to the south-west.

It is named after ancient Greek astronomer Eratosthenes of Cyrene, who estimated the diameter of the earth, and the distance to the moon and sun.

The Eratosthenian period in the lunar geological timescale is named after this crater, though it does not define the start of this time period.[1] The crater is believed to have been formed about 3.2 billion years ago.

At low Sun-angles, this crater is prominent due to the shadow cast by the rim. When the Sun is directly overhead, however, Eratosthenes visually blends into the surroundings, and it becomes more difficult for an observer to locate it. The rays from Copernicus lie across this area, and their higher albedo serves as a form of camouflage.

In 1851 Shropshire Astronomer Henry Blunt constructed a model of the moon's surface showing Eratosthenes. The model is based on observations made by Blunt with a reflecting telescope from his home in Shrewsbury and was displayed in the same year at the Great Exhibition, London.

In 1910–1920th, William H. Pickering noted dark patches in the crater that varied in a regular manner over each lunar day. He put forward the speculative idea that these patches appeared to migrate across the surface, suggestive of herds of small life forms.[2][3] The idea received a degree of attention primarily due to Pickering's reputation.

Satellite craters

By convention these features are identified on lunar maps by placing the letter on the side of the crater midpoint that is closest to Eratosthenes.

Eratosthenes Coordinates Diameter, km
A 18°20′N 8°20′W / 18.34°N 8.33°W / 18.34; -8.33 (Eratosthenes A) 5.7
B 18°42′N 8°42′W / 18.70°N 8.70°W / 18.70; -8.70 (Eratosthenes B) 5.3
C 16°53′N 12°23′W / 16.89°N 12.39°W / 16.89; -12.39 (Eratosthenes C) 5.2
D 17°26′N 10°54′W / 17.44°N 10.90°W / 17.44; -10.90 (Eratosthenes D) 3.8
E 17°56′N 10°53′W / 17.93°N 10.89°W / 17.93; -10.89 (Eratosthenes E) 3.8
F 17°41′N 9°55′W / 17.69°N 9.91°W / 17.69; -9.91 (Eratosthenes F) 4.0
H 13°19′N 12°15′W / 13.31°N 12.25°W / 13.31; -12.25 (Eratosthenes H) 3.5
K 12°51′N 9°16′W / 12.85°N 9.26°W / 12.85; -9.26 (Eratosthenes K) 4.3
M 14°01′N 13°35′W / 14.02°N 13.59°W / 14.02; -13.59 (Eratosthenes M) 3.5
Z 13°45′N 14°06′W / 13.75°N 14.10°W / 13.75; -14.10 (Eratosthenes Z) 0.6

References

  1. Wilhelms D. (1987). "Chapter 12. Eratosthenian System" (PDF). Geologic History of the Moon. United States Geological Survey Professional Paper 1348. pp. 249–250. Archived from the original (PDF) on 2013-05-14.
  2. Pickering, W. H. (1919). "Eratosthenes I, a study for the amateur". Popular Astronomy. 27: 579–583. Bibcode:1919PA.....27..579P.
  3. Pickering, W. H. (1924). "Eratosthenes". Popular Astronomy. 32 (6): 392–404. Bibcode:1924PA.....32..393P.

External links

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