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An ice skater is spinning on frictionless ice with her arms extended outward. She then pulls her

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An ice skater is spinning on frictionless ice with her arms extended outward. She then pulls her arms in toward her body, reducing her moment of inertia. Her angular momentum is conserved, so as she reduces her moment of inertia, her angular velocity increases and she spins faster. Compared to her initial rotational kinetic energy, her final rotational kinetic energy is
(a) The same
(b) Larger, because her angular speed is larger
(c) Smaller, because her moment of inertia is smaller.
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b The rotational kinetic energy of a rotating body is KE g I 2 see Equation 99 ...View the full answer


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