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.

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.

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

In the figure-2.205 shown in blocks A, B and C has masses m_(A)= 5 kg, m_(B) = 5 kg and m_(C )= 10kg respectively, find the acceleration of the three blocks. Assume all pulleys and strings are ideal. (Take g = 10m//s^(2) )

find the acceleration of the block of mass M in the situation shown in figure. All the surfaces are frictionless and the pulleys and the string are light.

In the shown ,two blocks one of mass 5kg and the other of mass 2kg are connected by light and inextensible string Pulleys are light an d frictionless Choose the correct statement .

A small, light pulley is attached with a block C of mass 4 kg as shown in fig A block B of mass 1.5kg is placed on the top horizontal surface of C. Another block A of mass 2 kg is hanging from a string, attached with B and passing over the pulley. Taking g=10 ms^(-2) and neglecting friction, acceleration of block C when the system is released from rest is x//4 calculate x.

Blocks m_(1) and m_(2) starts from rest and move to right with accelerations as shown. If t is in second then the time when block m_(3) again come to rest from t =0 is (pulley and strings are ideal) : .

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: