A solid disk of moment of inertia 0.563 kg m2 is spinning about its center of mass at a rate of 10.5 rad/s on top of a frictionless table surface. An identical disk that is not rotating is carefully placed on top of the rotating one, such that their centers coincide. If there is no external force and no loss of mechanical energy, how fast will the two-disk system rotate? a. 5.91 rad/s b. 21.0 rad/s c. 5.25 rad/s d. 10.5 rad/s
A solid disk of moment of inertia 0.563 kg m2 is spinning about its center of mass at a rate of 10.5 rad/s on top of a frictionless table surface. An identical disk that is not rotating is carefully placed on top of the rotating one, such that their centers coincide. If there is no external force and no loss of mechanical energy, how fast will the two-disk system rotate? a. 5.91 rad/s b. 21.0 rad/s c. 5.25 rad/s d. 10.5 rad/s
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ISBN:9781305952300
Author:Raymond A. Serway, Chris Vuille
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A solid disk of moment of inertia 0.563 kg m2 is spinning about its center of mass at a rate of 10.5 rad/s on top of a frictionless table surface. An identical disk that is not rotating is carefully placed on top of the rotating one, such that their centers coincide. If there is no external force and no loss of mechanical energy, how fast will the two-disk system rotate?
a. 5.91 rad/s
b. 21.0 rad/s
c. 5.25 rad/s
d. 10.5 rad/s
Transcribed Image Text:A solid disk of moment of inertia 0.563 kg m2 is spinning
about its center of mass at a rate of 10.5 rad/s on top of a
frictionless table surface. An identical disk that is not
rotating is carefully placed on top of the rotating one, such
that their centers coincide. If there is no external force and
no loss of mechanical energy, how fast will the two-disk
system rotate?
O 5.91 rad/s
O 21.0 rad/s
O 5.25 rad/s
O 10.5 rad/s
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