The system shown in the figure is given an acceleration 'a' towards left. Assume all contact surfaces to be smooth (m: mass of the sphere) The magnitude of the contact force between wedge and sphere between wedge and sphere at A is `(xmg)/sqrt3` then 'x' is

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.

A sphere is rotatiing between a a rough wall and a smooth wedge as shown in figure If mu is the cofficent of frication between wall and sphere then normal reation between wall and sphere will

All the surfaces are smooth as shown in figure. The acceleration of mass m relative to wedge is :

A system is shown in the figure. Block A is moving with 1m//s towards left. Wedge is moving with 1m//s towards right. Then speed of the block B will be :

A block of mass m is placed on a wedge of mass M and a force F is acting on its as shown . If all surfaces are smooth , find the force F such that, there is no relative motion between m and M.

A smooth wedge of mass M is pushed with an acceleration a=g tantheta and a block of mass m is projected down the slant with a velocity v relative to the wedge. Q. The normal reaction between wedge and block is:

Find the accelerations of rod A and wedge B in the arrangement shown in figure if the ratio of the mass of the wedge to that of the rod equals eta , and the friction between all contact surfaces is negligible.

In fig. mass m is being pulled on the incline of a wedge of mass M. All the surfaces are smooth. Find the acceleration of the wedge.

Consider the situation as shown in the figure. A solid sphere of mass m is released from rest from the rim of a hemispherical cup so that it rolls along the surface. Find the normal contact force between the solid sphere and the cup at the bottom most point.

A block of mass m is placed on an inclined plane. With what acceleration A towards right should the system move on a horizontal surface so that m does not slide on the surface of inclined plane? Also calculate the force supplied by wedge on the block. Assume all surfaces are smooth.