Block B, with mass 5.00 kg, rests on block A, with mass 8.00 kg, which in turn is on a horizontal tabletop (the figure (Figure 1)). There is no friction between block A and the tabletop, but the coefficient of static friction between block A and block B is 0.750. A light string attached to block A passes over a frictionless, massless pulley, and block C is suspended from the other end of the string.
Block B, with mass 5.00 kg, rests on block A, with mass 8.00 kg, which in turn is on a horizontal tabletop (the figure (Figure 1)). There is no friction between block A and the tabletop, but the coefficient of static friction between block A and block B is 0.750. A light string attached to block A passes over a frictionless, massless pulley, and block C is suspended from the other end of the string.
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Block B, with mass 5.00 kg, rests on block A, with mass
8.00 kg, which in turn is on a horizontal tabletop (the
figure (Figure 1)). There is no friction between block A
and the tabletop, but the coefficient of static friction
between block A and block B is 0.750. A light string
Part A
attached to block A passes over a frictionless, massless
pulley, and block C is suspended from the other end of
the string.
What is the largest mass that block C can have so that blocks A and B still slide together when the system is released from rest?
Express your answer in kilograms.
kg
m =
Figure
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A
C
Expert Solution
Step 1
Given,
m = 5kg
= 0.750
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