Assuming all the surface to be frictionless, acceleration of the block C shown in the figure is :

Assuming all the surfaces to be frictionless accelration of the block c shown in the figure is

The acceleration of the 10 kg mass block shown in the figure is : -

In the arrangement shown in figure, the rod of mass m held by two smooth walls, remains always perpendicular to the surface of the wedge of mass M . Assumming all the surface to be frictionless, find the acceleration of the rod and that of the wedge.

In the figure shown acceleration of the block is

Three block A,B,and C of mass m_(1),m_(2) and m_(3) , respectively are resting one on top of the other as shown in fig. A horizontal force F is applied on block B. Assuming all the surfaces are frictionless, calculate (1) acceleration of block A, block B, and block C, (2) normal reactions between A and B, B and C, and between C and ground .

In the setup shown, fird acceleration of the block C.

In the arrangement shown in the figure , the rod of mass m held by two smooth walls , remain always perpendicular to the surface of the wedge of mass M . Assuming all the surface are frictionless, find the acceleration of the rod wedge.

The system shown in fig. is given an acceleration a towards left. Assuming all the surfaces to be frictionless, find the normal reactions applied by wedge on the sphere.

In the situation shown in figure, both the pulleys and the strings are light and all the surfaces are frictionless. The acceleration of mass M, tension in the string PQ and force exerted by the clamp on the pulley, will respectively be -

Assuming all the surface to be frictionless. The smaller block m is moving horizontally with acceleration a and vertically downwards with acceleration a. Then magnitude of net acceleration of smaller block m with respect to ground