In the arrangement shows in fig. if the surface is smooth then find out acceleration of the block `m_(2)`.

In the arrangement shown, the blocks of unequal masses are held at rest. When released, acceleration of the blocks is

Find the relation between acceleration of blocks a_(1), a_(2) and a_(3) .

The elevator shown in fig. is descending with an acceleration of 2ms^(-2) . The mass of the block A=0.5kg . Find the force (in Newton) exerted by block A on block B.

The fricition coefficient between the table and block shown in fig. is 0.2 find the acceleration of the system (Take g=10 m//s^(2) )

A 2 kg block A is attached to one end of a light string that passes over an an ideal pulley and a 1 kg sleeve B slides down the other part of the string with an acceleration of 5m//s^(2) with respect to the string. Find the acceleration of the block, acceleration of sleeve and tension in the steing. [g=10m//s^(2)]

A block tied between two identical springs is in equilibrium. If upper spring is cut then the acceleration of the block just after cut is 6m//s^(2) downwards. Now, if instead of upper spring, lower spring is being cut then the acceleration of the block just after the cut will be.

A force of 50N acts in the direction as shown in figure. The block of mass 5kg, resting on a smooth horizontal surface. Find out the acceleration of the block.

In the given arrangement shown in figure, surface is frictionless, string is inextensible and massless, pulley B is frictionless. Length of the string is l . At t=0 , AB=l . Find out the velocity of block C , when distance between blocks is minimum, it was released from rest at t=0 .

A block of mass 1kg lies on a horizontal surface in a turck, the coefficient of static fricition between the block and the surface is 0.6, what is the force of fricition on the block. If the acceleration of the truck is 5m//s^(2) .

In the arrangement shown in the figure, mass of the block B and A is 2m and m respectively. Surface between B and floor is smooth. The block B is connected to the block C by means of a string-pulley system. If the whole system is released, then find the minimum value of mass of block C so that A remains stationary w.e.t. B. Coefficient of friction between A and B is mu.