Heat from the friction of rocks caused by tidal forces could be the "engine" for the hydrothermal activity on Saturn’s moon Enceladus. This presupposes that the moon has a porous core that allows water from the overlying ocean to seep in, where the tidal friction exerted on the rocks heats it. This shows a computer simulation based on observations from the European-American Cassini-Huygens mission. It also offers among others an answer to the long-standing question of where the energy that can support water in liquid form on the small, cryovulcanic moon far from the sun comes from. ...
Frictional Heat Powers Hydrothermal Activity on Enceladus
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