In figure shown, both blocks are released from rest. Find the time to cross each other?

In figure shown, both blocks are released from rest. Length of 4 kg block is 2 m and of 1 K g is 4 m . Find the time they take to cross each other ? Assume pulley to be light and string to be light and inelastic .

In fig shown, both blocks are released from rest Length of 4 kg block is 2m and of 1kg is 4m. Find the time they take to cross each other? Assume pulley to be light and string to be light and inelastic.

In Fig. shown, both blocks are released from rest. Length of 4 kg block is 2 m and of 1 kg is 4 m. Find the time they take to cross each other? Assume pulley to be light and string to be light and inelastic.

For the figure shown, block of mass m is released from the rest. Find the distance of the wedge from initial position, when block m arrives at the bottom of the wedge. All surfaces are frictionless.

In the figure shown, the system is released frrom rest. Find the velocity of block A when block B has fallen a distance l . Assume all pulleys to be massless and frictionless.

In the system shown in figure, the block A is released from rest. Find Tension in the string.

shown, both blocks are released room rest. Length of 4kg block is 2m and of 1kg is 4m . Find the time they take to cross each other Assume pulley to be light and string to be light and inelastic .

In the figure shown, the system is released from rest with both the springs in unstretched positions. Mass of each block is 1 kg and force constant of each spring is 10 N/m. Maximum speed of the block placed horizontally is:

In the system shown in figure, the block A is released from rest. Find Contact force between ‘A’ and ‘B’.