The fastest possible rate of rotation of a planet is that for which the gravitational force on
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The fastest possible rate of rotation of a planet is that for which the gravitational force on material at the equator just barely provides the centripetal force needed for the rotation. (Why?)
(a) Show that the corresponding shortest period of rotation is T = √3π/Gp’ where p is the uniform density (mass per unit volume) of the spherical planet.
(b) Calculate the rotation period assuming a density of 3.0 g/cm3, typical of many planets, satellites, and asteroids. No astronomical object has ever been found to be spinning with a period shorter than that determined by this analysis.
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Related Book For
Fundamentals of Physics
ISBN: 978-0471758013
8th Extended edition
Authors: Jearl Walker, Halliday Resnick
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