In the figure shown, all surfaces are smooth and block A and wedge B have mass a respectively, and the system is in equilibrium. Find normal reaction between blockA&, and normal reaction of ground on block B. (g= 10 m/s).

In the figure shown, friction exists between wedge and block and also between wedge and floor. The system is in equilibrium in the shown position.

The system is released from rest from the positon shown in the diagram. If A and B has mass m and M respectively and all surfaces are smooth, then the normal reaction between A and B is

The system is released from rest from the positon shown in the diagram. If A and B has mass m and M respectively and all surfaces are smooth, then the normal reaction between A and B is

In the figure if block A and wedge b will move with same acceleration, then the magnitude of normal reaction between the block and the wedge will be (There is no friction between block and the wedge and the wedge moves on horizontal surface as shown.)

In the figure if block A and wedge b will move with same acceleration, then the magnitude of normal reaction between the block and the wedge will be (There is no friction between block and the wedge and the wedge moves on horizontal surface as shown.)

Consider the shown arrangement. Assume all surfaces to be smooth. If N represents magnitudes of normal reaction between block and wedge, then acceleration of M along horizontal is equla to

In the arrangement shown, what is the normal reaction the block A ( mass = 5 kg) and ground

In the system shown in the figure, all surfaces are smooth. Block A and B have mass m each and mass of block C is 2 m. All pulleys are massless and fixed to block C. Strings are light and the force F applied at the free end of the string is horizontal. Find the acceleration of all three blocks.

Two blocks A and B of masses 10 kg and 5 kg respectively are placed inside a cart which is moving horizontally with an acceleration of 2 m/s^2 as shown in the figure. If all the surfaces are smooth then the ratio of normal reaction between the block A and vertical surface of the cart and normal reaction between the blocks A and B is