The block Q moves to the right with a constant velocity `v_(0)` as shown in figure. The relatives velocity of body P with respect to Q is ( assume all pulleys and strings are ideal)

Block B moves to the right with a constant velocity v_(0) . The velocity of body A relative to B is :

A spring block system is kept inside a lift moving with a constant velocity v_(0) as shown in figure. Block is in equilibrium and at rest with respect to lift. The lift is suddenly stoped at time t = 0 . Taking upward direction as the positive direction, write x - t equation of the block.

A block is dragged on a smooth plane with the help of a rope which moves with a velocity v as shown in figure. The horizontal velocity of the block is :

Block 5 shown in figure moves to the right with a constant velocity of 30 cm/s. Find : (a) The velocity of block A. (b) The velocity of the point P of the string. (c) The velocity of the point M of the string. (d) The relative velocity of the point P of the string with respect to the block A.

The velocities of A and B are marked in the figure-1.130. The velocity of block C is (assume that the pulleys are ideal and string inextensible) :

The velocities of A and B shown in fig. Find the speed (in ms^(-1) ) of block C. (Assume that the pulleys and string are ideal).

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) : .

Four particles A, B, C and D are moving with constant speed v each at the instant shown relative velocity of A with respect to B, C and D are in directions

Find out velocity of block B in the given figure : (all the pulleys are ideal and string are inextensible massless)