3. A block of mass m = 2.00 kg rests on the left edge of a block of mass M = 8.00 kg. The coefficient of kinetic friction between the two blocks is 0.300, and the surface on which the 8.00 kg block rests is frictionless. A constant horizontal force of magnitude F = 10.0N is applied to the 2.00-kg block, setting it in motion as shown in Figure. The distance L that the leading edge of the smaller block travels on the larger block is 3.00 m. L M F> m M (a) Draw a separate free-body diagram for each block. (b) In what time interval will the smaller block make it to the right side of the 8.00-kg block? as (Note: Both blocks are set into motion when the force is applied.) (c) How far does the 8.00-kg block move in the process?
3. A block of mass m = 2.00 kg rests on the left edge of a block of mass M = 8.00 kg. The coefficient of kinetic friction between the two blocks is 0.300, and the surface on which the 8.00 kg block rests is frictionless. A constant horizontal force of magnitude F = 10.0N is applied to the 2.00-kg block, setting it in motion as shown in Figure. The distance L that the leading edge of the smaller block travels on the larger block is 3.00 m. L M F> m M (a) Draw a separate free-body diagram for each block. (b) In what time interval will the smaller block make it to the right side of the 8.00-kg block? as (Note: Both blocks are set into motion when the force is applied.) (c) How far does the 8.00-kg block move in the process?
International Edition---engineering Mechanics: Statics, 4th Edition
4th Edition
ISBN:9781305501607
Author:Andrew Pytel And Jaan Kiusalaas
Publisher:Andrew Pytel And Jaan Kiusalaas
Chapter7: Dry Friction
Section: Chapter Questions
Problem 7.3P: Two identical chairs, each weighing 14 lb, are stacked as shown. The center of gravity of each chair...
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![3. A block of mass m = 2.00 kg rests on the left edge of a block of mass M = 8.00 kg. The
coefficient of kinetic friction between the two blocks is 0.300, and the surface on which the 8.00
kg block rests is frictionless. A constant horizontal force of magnitude F = 10.0 N is applied to
the 2.00-kg block, setting it in motion as shown in Figure. The distance L that the leading edge of
the smaller block travels on the larger block is 3.00 m.
m
(a) Draw a separate free-body diagram for each block.
(b) In what time interval will the smaller block make it to the right side of the 8.00-kg block? as
(Note: Both blocks are set into motion when the force is applied.)
(c) How far does the 8.00-kg block move in the process?](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F43d17834-a4f1-42d1-be8f-c73eb70c5a02%2F3f22f540-8f43-4453-a577-f902eb9b61ca%2F6qqmfgd_processed.jpeg&w=3840&q=75)
Transcribed Image Text:3. A block of mass m = 2.00 kg rests on the left edge of a block of mass M = 8.00 kg. The
coefficient of kinetic friction between the two blocks is 0.300, and the surface on which the 8.00
kg block rests is frictionless. A constant horizontal force of magnitude F = 10.0 N is applied to
the 2.00-kg block, setting it in motion as shown in Figure. The distance L that the leading edge of
the smaller block travels on the larger block is 3.00 m.
m
(a) Draw a separate free-body diagram for each block.
(b) In what time interval will the smaller block make it to the right side of the 8.00-kg block? as
(Note: Both blocks are set into motion when the force is applied.)
(c) How far does the 8.00-kg block move in the process?
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