In the given fig, pulley is frictionless and massless. Both the springs are having same force constant 10 N/m. Initially with the string attached to the ground, the total system is at rest. Now if the string is cut, then immediately after cutting the string,

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 identical blocks are connected by a light spring. The combination is suspended at rest from a string attached to the ceiling, as shown in the figure-2.190 below. The string breaks suddenly. Immediately after the string breaks:

The system shown in the figure is in equilibrium at rest. The spring and string are massless Now the string is cut. Find the acceleration of the blocks just after the string is cut.

A block of mass m is connected to a massless pulley and mass-less spring of stiffness k. The pulley is frictionless. The string is mass-less. Initially the spring is unstretched when the block is released. When the spring is maximum stretched, find the ratio of tenstion in the rope and weight of the block.

A body of mass m is attached by an inelastic string to a suspended spring of spring constant k . Both the string and the spring have negligible mass and the string is inextensible and of length L . Initially, the mass m is at rest. Q. If the mass m is now raised up to point A (the top end of the string see fig. and allowed to fall from rest, the maximum extension of the spring in the subsequent motion will be

In Fig. a pulley is shown which is frictionless and a ring of mass m can slide on the string without any friction. One end of the string is attached to point B and to the other end, a block 'P' of mass m is attached. The whole system lies in vertical plane. Now another block 'C' of same mass m is attached to the block 'P' and system is released from rest. If a_(1) and a_(2) are the magnitudes of initial accelerations of ring and blocks, respectively, then

A uniform rod of mass m and length l is in equilibrium under the action of constraint forces, gravity and tension in the string. Find the a. frictional force acting on the rod. b. tension in the string. c. normal reaction on the rod. Now, the string is cut. Find the d. angular acceleratiion of the rod just after the string is cut. e. normal reaction on the rod just after the string is cut.

In Fig. a pulley is shown which is frictionless and a ring of mass m can slide on the string without any friction. One end of the string is attached to point B and to the other end, a block 'P' of mass m is attached. The whole system lies in vertical plane. If the system is released from rest, it is found that the system remains at rest. What is the value of theta

System shown in fig is in equilibrium and at rest. The spring and string are massless now the string is cut. The acceleration of mass 2m and m just after the string is cut will be:

System shown in fig is in equilibrium and at rest. The spring and string are massless now the string is cut. The acceleration of mass 2m and m just after the string is cut will be: