Q6:The two blocks (m =16, M=88 kg) in Fig. are not attached to each other. The coefficient of static friction between theblocks is us =0.38, but the surface beneath the larger block is frictionless. What is the minimum magnitude of the horizontal force required to keep the smaller block from slipping down the larger block?
Q6:The two blocks (m =16, M=88 kg) in Fig. are not attached to each other. The coefficient of static friction between theblocks is us =0.38, but the surface beneath the larger block is frictionless. What is the minimum magnitude of the horizontal force required to keep the smaller block from slipping down the larger block?
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![Q6:The two blocks (m =16, M =88 kg) in Fig. are not attached to each other. The coefficient of
static friction between theblocks is us =0.38, but the surface beneath the larger block is
frictionless. What is the minimum magnitude of the horizontal force required to keep the smaller
block from slipping down the larger block?
M
Frictionless](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F7092f803-db2e-4cd3-8377-39c162364119%2Fff464a43-6abd-40ac-b2d9-0454218a4bde%2F9wyzox_processed.png&w=3840&q=75)
Transcribed Image Text:Q6:The two blocks (m =16, M =88 kg) in Fig. are not attached to each other. The coefficient of
static friction between theblocks is us =0.38, but the surface beneath the larger block is
frictionless. What is the minimum magnitude of the horizontal force required to keep the smaller
block from slipping down the larger block?
M
Frictionless
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