A block of weight W is placed on a wedge and arranged as shown in fig. find the force F needed to hold the cart equilibrium if there is no friction.

If the tension T needed to hold the cart equilibrium is (sqrt3W)/(x) there is no friction. Find value of x .

A block of mass m is at rest on a rought wedge as shown in figure. What is the force exerted by the wedge on the block?

Two identical blocks of weigth w are placed one on top of the other as shown in figure. The upper block is tied to the wall. The coefficient of static friction between B and ground is mu and friction between A and B is absent. When F=mu w force is applied on the lower block as shown. The tension in the string will be

A block of mass m=5 kg is placed on the wedge of mass M=32 kg as shown in the figure. Find the acceleration of wedge with respect to ground. (Neglect any type of friction. String and pulley are ideal )

A block weighing w is held against a vertical wall be pressing horizontally with a force F. Then, F needed to hold the block is

Find the acceleration of rod A and wedge B in the arrangement shown in fig if the ratio of the mass of wedge to that of the rod equals eta and the friction between the contact surfaces are negligible.

A rod of mass m is supported on a wedge of mass M shown in fig. Find the accelerations of rod a and wedge A in the arrangment. The friction between all contact surfaces in negligible.

A block of mass m is released from the top of a wedge of mass M as shown in figure. Find the displacement of wedges on the horizontal ground when the block reaches the bottom of the wedges. Neglect friction everywhere.

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.