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Transcript
Terrestrial bodies Cratering and Volcanism Surfaces of planets and moons A lot of good material, including pictures and movies, at http://www.solarviews.com/ Small bodies: Phobos, Deimos • Heavy cratering, irregular shapes • Some variety in surface texture – why? Phobos (R=11.1 km) Deimos (R=6.3 km) • Hyperion (Saturn) Small bodies R=300 km • Phoebe (Saturn) R=220 km very dark surface • Amalthea (Jupiter). R=90.5 km Intermediate-size satellites of Saturn (R=200-800 km) Mimas Dione Tethys Rhea Enceladus Mimas Tethys Dione http://www.maniacworld.com/Saturn-Dione-Flyby.htm Iapetus • Bright side mainly water ice • Dark side has spectrum similar to a class of asteroid Matches mixture of organic compounds from carbonaceous meteorites, ice and hydrated silicates Enceladus Enceladus • Presence of nitrogen suggests high internal temperatures to cause the decomposition of ammonia (850 K). Models suggest a period of early, intense heating due to short-lived radioactive isotopes Continued heating due to long-lived isotopes and tidal forces Triton and Pluto (R~1200 km) • Triton and Pluto: tenuous atmospheres – why? • Both probably large members of Kuiper belt Pluto Break The Moon (R=1738 km) The Moon Io and moons of Jupiter Almathea Europa Io Callisto Ganymede Io • Most volcanically active world in the solar system • Subdued topography, with isolated mountains to Jupiter Europa, Ganymede, Callisto Europa (smaller than Moon) Ganymede (larger than Mercury) Callisto Europa
