Slender rod LA hits block Q at end A of the rod which causes the block to move by a distance of 0.500 m before coming to a full stop. The rod has a mass of 1.300 kg and length of 1.600 m while block Q has a mass of 0.300 kg. Knowing that the coefficient of restitution during the impact is zero and the angular velocity of rod LA immediately after the impact is 0.85 rad/s counterclockwise, answer the following questions: L 1. Determine the speed of the block immediately after impact. 2. angular speed of the rod LA just before impact 3. magnitude of the acceleration of the block 4. closest to the coefficient of kinetic friction, uk, between the block and the surface A C x-

Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
ChapterMA: Math Assessment
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Slender rod LA hits block Q at end A of the rod which causes the block to move by a distance of 0.500 m before coming to a full stop. The rod has a mass of
1.300 kg and length of 1.600 m while block Q has a mass of 0.300 kg. Knowing that the coefficient of restitution during the impact is zero and the angular velocity
of rod LA immediately after the impact is 0.85 rad/s counterclockwise, answer the following questions:
L
1. Determine the speed of the block immediately after
impact.
2. angular speed of the rod LA just before impact
3. magnitude of the acceleration of the block
4. closest to the coefficient of kinetic friction, uk,
between the block and the surface
A
X
Transcribed Image Text:Slender rod LA hits block Q at end A of the rod which causes the block to move by a distance of 0.500 m before coming to a full stop. The rod has a mass of 1.300 kg and length of 1.600 m while block Q has a mass of 0.300 kg. Knowing that the coefficient of restitution during the impact is zero and the angular velocity of rod LA immediately after the impact is 0.85 rad/s counterclockwise, answer the following questions: L 1. Determine the speed of the block immediately after impact. 2. angular speed of the rod LA just before impact 3. magnitude of the acceleration of the block 4. closest to the coefficient of kinetic friction, uk, between the block and the surface A X
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