Figure-2.54 shows a block of mass m is placed on an inclined wedge of mass M If the system is released from rest find the acceleration of m and M.

Figure-2.64 shows a block of mass M supporting a bar of mass m through a pulley system. If system is released from rest, find the acceleration of block M and the tension in the strings

A wedge of mass m is placed on a smooth fixed horizontal surface and block of mass m is placed on smoth inclined surface of wedfe as shown. The system is then released from rest. ( g is acceleration due to gravity) Select correct option(s)

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.

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.

In the Fig. shown, mass 'm' is being pulled on the incline of a wedge of mass M. All the surface are smooth. Find the acceleration of the wedge.

A block of mass 'm' is placed on wedge of mass 'M'. If all the surfaces are smooth Normal reaction between the wedge and block is

Two block m_(1) and m_(2) are placed on a smooth inclined plane as shown in figure. It they are released from rest. Find : (i) acceleration of mass m_(1) and m_(2) (ii) tension in the string (iii) net force on pulley exerted by string

A triangular wedge W having mass M is placed on an incline plane with its face AB horizontal. Inclination of the incline is theta . On the flat horizontal surface of the wedge there lies an infinite tower of rectangular blocks. Blocks 1, 2, 3, 4 ………. have masses M , (M)/(2) , (M)/(4) , (M)/(8) ......... respectively . All surfaces are smooth. Find the contact force between the block 1 and 2 after the system is released from rest. Also find the acceleration of the wedge.