In 2005 the Cassini spacecraft performed several close flybys of Enceladus, revealing the moon’s surface and environment in greater detail. In particular, the probe discovered a water-rich plume venting from the moon’s south polar region. This discovery, along with the presence of escaping internal heat and very few (if any) impact craters in the south polar region, shows that Enceladus is geologically active today. Moons in the extensive satellite systems of gas giants often become trapped in orbital resonances that lead to forced libration or orbital eccentricity; proximity to the planet can then lead to tidal heating of the satellite’s interior, offering a possible explanation for the activity. NASA’s Cassini mission will take advantage of the position of two of the three stars in Orion’s belt when the spacecraft flies by Saturn’s moon Enceladus on Wed., Oct. 19. As the hot, bright stars pass behind the moon’s icy jets, Cassini’s ultraviolet imaging spectrograph will acquire a two-dimensional view of these dramatic plumes of water vapor and icy material erupting from the moon’s southern polar region. This flyby is the mission’s first-ever opportunity to probe the jets with two stars simultaneously, a dual stellar occultation.
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Enceladus View
