Find the acceleration of the pulley after `5s`, if the system is released from rest.

Find the acceleration of the hemisphere immediately after the system is released from rest. There is no friction anywhere.

In the system shown in the diagram all surfaces are smooth, pulley and strings are ideal. If vec( a_(A)) and vec( a_(B)) are the accelerations of the two blocks, then just after the system is released from rest, then choose correct statement(s) :

In the figure, the massless and inextensible thread does not slip on the pulley. It is wound over pulley as shown. If the system is released from rest,

In the system shown all the surfaces are frictionless while pulley and string are massless. The mass of block A is 2m and that of block B is m. The acceleration of block B immediately after system is released from rest is

What is the acceleration of block A when the system is released from rest ?

Three blocks A, B, & C are arranged as shown. Pulley and strings are ideal. All surfaces are frictionless. If block C is observed moving down along the incline at 1 m//s^(2) . Find mass of block B, tension in string and accelerations of A. B as the system is released from rest.

A thin uniformed rod of mass m and length L is hinged at one end and from other end a light string is attached. The string is wound over a frictionless pullely (having mass 2m ) and a block of mass 2m is connected to string on other side of pulley as shown. the system is released from rest when the rod id making an angle of 37^(@) with horizontal. Based on above information answer the following question : Just after releases of the system from rest acceleration of block is

Two bodies of masses 2kg and 3kg are connected by a very light string passed over a clamped light smooth pulley. If the system is released from rest, find the acceleration of the two masses and the tension in the string (g=10m s^(-2) )