Computer Science
Scientific paper
Jan 1982
adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1982icar...49...71k&link_type=abstract
Icarus, vol. 49, Jan. 1982, p. 71-85.
Computer Science
8
Atmospheric Effects, Atmospheric Models, Meteorite Craters, Planetary Craters, Planetary Evolution, Venus Atmosphere, Aerodynamic Drag, Atmospheric Chemistry, Climatology, Erosion, Time Dependence, Venus, Ages, Density, Atmosphere, Craters, Size, History, Surface, Erosion, Meteors, Comparisons, Tectonism, Production Rate, Diameters, Outgassing, Data, Models, Drag
Scientific paper
It is shown how crater size-density counts may be used to help constrain the history of the Venus atmosphere, based on the predictions of simple but reasonable models for crater production, surface erosion, and the effects of atmospheric drag and breakup on incident meteors in the Venus atmosphere. In particular, if the atmosphere is young, the old (uneroded) surfaces will have crater densities upward of 0.0001/sq km and a ratio of small (4 km) craters to large (128 km) craters near 1000. If the atmosphere is old and the breakup mechanism is dominant, absolute crater densities on Venus surfaces will be diminished by several orders of magnitude relative to the young atmosphere case. If atmospheric drag is dominant, the absolute crater density will be lowered by perhaps an order of magnitude relative to the young atmosphere case, and the ratio of small to large craters will be reduced to a value near 10 to the 1.5 power. Once a large fraction of Venus surface has been imaged at kilometer resolution, as the VOIR project promises to do, it could be possible to make an early determination of the age of the Venus atmosphere.
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