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Question

In the arrangement shown in the figure, mass of the block B and A are 2m, 8m respectively. Surface between B and the floor is smooth. The block B is connected to block C by means of a pulley. If the whole system is released from rest, then find the minimum value of mass of block C so that the block A remains stationary with respect to B. Given coefficient of static friction between A and B is μ and pulley is ideal.


A
mμ
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B
2mμ+1
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C
10mμ
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D
10mμ1
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Solution

The correct option is D 10mμ1
Assume the acceleration of system is a. Hence to maintain string constraint, aB=aC=a and if block A remains stationary w.r.t block B, then aA=aB=a
FBD of block A:


Applying equilibrium condition on A from frame of block B in horizontal direction.
N=8ma ...(i)
Equilibrium condition in vertical direction,
fs=8mg ....(ii)
But fs=μN ...(iii) (limiting condition for minimum value of block C)
From Eq (i), (ii)& (iii)
8mg=μ×(8ma)
a=gμ ...(iv)

Net pulling force on the system of A, B, C is the weight of block C i.e m1g [assume m1 is the minimum mass of C]


Hence, acceleration a of system can be written as:
F=ma
m1g=(m1+2m+8m)a
From eqn. (iv),
m1g=(10m+m1)×(gμ)
μm1=10m+m1
m1=10mμ1 is the minimum mass of C for A to remain stationary w.r.t B.

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