Two blocks of mass M and m are connected through an ideal string passing over two identical pulleys, each having radius R and moment of inertia I. The acceleration of block M is

The pulleys in figure are identical, each having a radius R and moment of inertia I. Find the acceleration of the block M.

Three blocks of masses m_(1)=4kg, m_(2)=2kg, m_(3)=4kg are connected with ideal strings passing over a smooth, massless pulley as shown in figure. The acceleration of blocks will be (g=10m//s^(2))

Two blocks of masses of 40 kg and 30 kg are connected by a weightless string passing over a frictionless pulley as shown in the figure.

Two blocks, each having mass m, are connected with an ideal string through ideal pulleys on a frictionless fixed wedge as shown in the figure. The acceleration of the blocks is

Two blocks of masses 10 kg and 9 kg are connected with light string which is passing over an ideal pulley as shown in figure. If system is released from rest then the acceleration of 9 kg block at the given instant is about (Assume all the surfaces are smooth and g = 10 m/s^2 )

Two blocks of equal masses are connected by an ideal string passing over an ideal pulley as shown in the figure All the surfaces in contact with blocks are rough having coefficient of kinetic friction mu between them. If the blocks slide with constant velocity, find the value of mu

Two identical blocks 'A' and 'B' each of mass 5kg are connected with an ideal string and placed on a rough horizontal table having coefficient of friction (mu = 0.4 ) third block of mass 'm' are connected to block 'B' with another ideal string which is passing over a ideal pully as shown in figure.The minimum value of mass of block 'C' such that blocks just starts moving is (g= 10 m/ s^2 )

Two blocks of masses m and 2m are connected by a light string passing over a frictionless pulley. As shown in the figure, the mass m is placed on a smooth inclined plane of inclination 30° and 2m hangs vertically. If the system is released, the blocks move with an acceleration equal to :

Two block of masses M_(1) and M_(2) are connected with a string passing over a pulley as shown in figure The block M_(1) lies on a horizontal surface friction between the block M_(1) and the horizontal surface is mu The system accelerates. What additional mass m should be plased on the block M_(1) so that the system does not accelerate ?

Two blocks each of mass 4 kg connected by a light string which is passing over an ideal pulley is as shown in figure. If the system is released from rest then the acceleration (in m/ s^2 ) of centre of mass is (g = 10 m/ s^2 )