Geodynamics of Venus
http://dbpedia.org/resource/Geodynamics_of_Venus an entity of type: Thing
NASA's Magellan spacecraft mission discovered that Venus has a geologically young surface with a relatively uniform age of 500±200 Ma (million years). The age of Venus was revealed by the observation of over 900 impact craters on the surface of the planet. These impact craters are nearly uniformly distributed over the surface of Venus and less than 10% have been modified by plains of volcanism or deformation. These observations indicate that a catastrophic resurfacing event took place on Venus around 500 Ma, and was followed by a dramatic decline in resurfacing rate. The radar images from the Magellan missions revealed that the terrestrial style of plate tectonics is not active on Venus and the surface appears to be immobile at the present time. Despite these surface observations, there ar
rdf:langString
rdf:langString
Geodynamics of Venus
rdf:langString
Venus
rdf:langString
Venus
xsd:integer
42070435
xsd:integer
1082143430
xsd:double
0.902
rdf:langString
<bar>
92.0
rdf:langString
Global radar view of the surface from Magellan radar imaging between 1990 and 1994
rdf:langString
Venus as seen by the Magellan radar.
xsd:double
0.8149999999999999
rdf:langString
rdf:langString
<degreeCelsius>
462.0
737.0
rdf:langString
<gram>
0.904
rdf:langString
Celsius
xsd:double
0.866
rdf:langString
rdf:langString
NASA's Magellan spacecraft mission discovered that Venus has a geologically young surface with a relatively uniform age of 500±200 Ma (million years). The age of Venus was revealed by the observation of over 900 impact craters on the surface of the planet. These impact craters are nearly uniformly distributed over the surface of Venus and less than 10% have been modified by plains of volcanism or deformation. These observations indicate that a catastrophic resurfacing event took place on Venus around 500 Ma, and was followed by a dramatic decline in resurfacing rate. The radar images from the Magellan missions revealed that the terrestrial style of plate tectonics is not active on Venus and the surface appears to be immobile at the present time. Despite these surface observations, there are numerous surface features that indicate an actively convecting interior. The Soviet Venera landings revealed that the surface of Venus is essentially basaltic in composition based on geochemical measurements and morphology of volcanic flows. The surface of Venus is dominated by patterns of basaltic volcanism, and by compressional and extensional tectonic deformation, such as the highly deformed tesserae terrain and the pancake like volcano-tectonic features known as coronae. The planet's surface can be broadly characterized by its low lying plains, which cover about 80% of the surface, 'continental' plateaus and volcanic swells. There is also an abundance of small and large shield volcanoes distributed over the planet's surface. Based on its surface features, it appears that Venus is tectonically and convectively alive but has a lithosphere that is static.
<kelvin>
737.0
735.15
<cubicKilometre>
8.66E-10
xsd:nonNegativeInteger
22086
xsd:double
735.15
737.0
xsd:double
0.866
