A student sits on a freely rotating stool holding two dumbbells, each of mass 2.93 kg (see figure below). When his arms are extended horizontally (Figure a), the dumbbells are 0.95 m from the axis of rotation and the student rotates with an angular speed of 0.746 rad/s. The moment of inertia of the student plus stool is 2.67 kg m² and is assumed to be constant. The student pulls the dumbbells inward horizontally to a position 0.295 m from the rotation axis (Figure b).

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A student sits on a freely rotating stool holding two dumbbells, each of mass 2.93 kg (see figure below). When his arms are
extended horizontally (Figure a), the dumbbells are 0.95 m from the axis of rotation and the student rotates with an
angular speed of 0.746 rad/s. The moment of inertia of the student plus stool is 2.67 kg · m² and is assumed to be
constant. The student pulls the dumbbells inward horizontally to a position 0.295 m from the rotation axis (Figure b).
Wi
a
Wf
(a) Find the new angular speed of the student.
rad/s
(b) Find the kinetic energy of the rotating system before and after he pulls the dumbbells inward.
J
Kbefore
J
Kafter
=
Transcribed Image Text:A student sits on a freely rotating stool holding two dumbbells, each of mass 2.93 kg (see figure below). When his arms are extended horizontally (Figure a), the dumbbells are 0.95 m from the axis of rotation and the student rotates with an angular speed of 0.746 rad/s. The moment of inertia of the student plus stool is 2.67 kg · m² and is assumed to be constant. The student pulls the dumbbells inward horizontally to a position 0.295 m from the rotation axis (Figure b). Wi a Wf (a) Find the new angular speed of the student. rad/s (b) Find the kinetic energy of the rotating system before and after he pulls the dumbbells inward. J Kbefore J Kafter =
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