A block of mass m= 5.6 kg, moving on a frictionless surface with a velocity of v;= 6.5 m/s to the right, collides with a block of mass M at rest, as shown in the figure. After the collision, the 5.6-kg block recoils with a velocity of vf= 0.70 m/s to the left. If the blocks are in contact for 0.20 s, what is the magnitude of the average force on the 5.6-kg block, while the two blocks are in contact? A.) 202 N B.)192 N C.)182 N D.) 10 N E.) 0 N
A block of mass m= 5.6 kg, moving on a frictionless surface with a velocity of v;= 6.5 m/s to the right, collides with a block of mass M at rest, as shown in the figure. After the collision, the 5.6-kg block recoils with a velocity of vf= 0.70 m/s to the left. If the blocks are in contact for 0.20 s, what is the magnitude of the average force on the 5.6-kg block, while the two blocks are in contact? A.) 202 N B.)192 N C.)182 N D.) 10 N E.) 0 N
Glencoe Physics: Principles and Problems, Student Edition
1st Edition
ISBN:9780078807213
Author:Paul W. Zitzewitz
Publisher:Paul W. Zitzewitz
Chapter9: Momentum And Its Conservation
Section9.2: Conservation Of Momentum
Problem 23PP
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A block of mass m= 5.6 kg, moving on a frictionless surface with a velocity of v;= 6.5 m/s to the right, collides with a block of mass M at rest, as shown in the figure. After the collision, the 5.6-kg block recoils with a velocity of vf= 0.70 m/s to the left. If the blocks are in contact for 0.20 s, what is the magnitude of the average force on the 5.6-kg block, while the two blocks are in contact?
A.) 202 N B.)192 N C.)182 N D.) 10 N E.) 0 N
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