All strings, springs are ideal. the blocks are of equal masses. The system is in equilibrium

Three blocks A,B, and C are suspended as shown in fig. Mass of each of blocks A and B is m. If the system is in equilibrium, and mass of C is M then

Three blocks A,B and C are suspended as shown in the figure. Mass of each block A and C is m. if the system is in equilibrium and mass of B is M, then

In the figure the masses of the blocks A and B are same and each equal to m. The tensions in the strings OA and AB are T_(2) and T_(1) respectively. The system is in equilibrium with a constant horizontal force mg on B. The tension T_(1) is :-

Spring of spring constant k is attached with a block of mass m_(1) , as shown in figure. Another block of mass m_(2) is placed angainst m_(1) , and both mass masses lie on smooth incline plane. Find the compression in the spring when lthe system is in equilibrium.

A spring block pendulum is shown in figure . The system is hanging in equilibrium. A bullet of mass m//2 moving at a speed u bites the block from downwards direction and gets embedded in it. Find the amplitude of oscillation of the block now.

Two block of mass 2kg are connected by a massless ideal spring of spring contant K=10N//m . The upper block is suspended from roof by a light string A . The system shown is in equilibrium. The string A is now cut, the acceleration of upper block just after the string A is cut will be (g=10m//s^(2) .

Two block of mass 2kg are connected by a massless ideal spring of spring contant K=10N//m . The upper block is suspended from roof by a light string A . The system shown is in equilibrium. The string A is now cut, the acceleration of upper block just after the string A is cut will be (g=10m//s^(2) .

Blocks A and B shown in the figure are having equal masses m. The system is released from rest with the spring unstretched. The string between A and ground is cut, when there is maximum extension in the spring. The acceleration of centre of mass of the two blocks at this instant is

System shown in figure is equilibrium in vertical plane. Consider the string and spring to be massless. Both the blocks have same mass 'm' . If the string is cut, then just after cutting it :

Two springs are in a series combination and are attached to a block of mass 'm' which is in equilibrium. The spring constants and extension in the springs are as shown in the figure. Then the force exerted by the spring on the block is :