A large plate is initially rotating about an axis through its center with angular velocity of 3w, as shown in the figure. The upper plate is initially not rotating and has the same mass but half the radius as the large plate. The small plate is lowered onto the large plate, and after a short time they will rotate together and will have the same final angular velocity. Which of the following best describes the ratio of the kinetic energy of the system before the collision to after the collision (Ratio = KEbe forey ? KEafter

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A large plate is initially rotating about an axis through its center with angular velocity of 3w, as shown in the figure. The upper plate
is initially not rotating and has the same mass but half the radius as the large plate.
The small plate is lowered onto the large plate, and after a short time they will rotate together and willI have the same final angular
velocity.
Which of the following best describes the ratio of the kinetic energy of the system before the collision to after the collision (Ratio
KEbefore
KEafter
%D
3w.
1.50
1.25
1.00
0.80
0.67
Transcribed Image Text:A large plate is initially rotating about an axis through its center with angular velocity of 3w, as shown in the figure. The upper plate is initially not rotating and has the same mass but half the radius as the large plate. The small plate is lowered onto the large plate, and after a short time they will rotate together and willI have the same final angular velocity. Which of the following best describes the ratio of the kinetic energy of the system before the collision to after the collision (Ratio KEbefore KEafter %D 3w. 1.50 1.25 1.00 0.80 0.67
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