For the pulley system shown in fig. each of the cables at A and B is given a velocity of `2ms^(-1)` in the direction of the arrow. Determine the upward velocity v of the load m.

A block A has a velocity of 0.6ms^(-1) the right. Determine the velocity of cylinder B.

System is shown in fig. and wedge is moving toward left with speed 2ms^(-1) . Find the velocity of the block B.

The car A is used to pull a load B with the pulley arrangement shown. If A has a forwed pulley arraangement shown. If A has a forward velcotiy v_(A) determine an experssion for the upward velcotiy v_(B) of the load in terms of V_(A) and theta, theta is angle between string and horizontal .

Two masses A and B of mass M and 2M respectively are connected by a compressed ideal spring. The system in placed on a horizontal frictionless table and given a velocity uhat(k) in the z-direction as shown in the figure. The spring is then released. In the subsequent motion the line from B to A alwyas points along the hat(i) unit vector. All some instant of time mass B has a x-component of velocity as v_(x)hat(i) . The velocity vec(v)_(A) of mass A at that instant is :-

In the figure shown the block B moves with , velocity 10 ms^(-1) . The velocity of A in the position shown is

A car A moves with velocity 15 m s^(-1) and B with velocity 20 m s^(-1) are moving in opposite directions as shown in . Find the relative velocity of B w.r.t. A and w.r.t. B . .

Find the velocity of point B in the crank mechanism if the velocity of point A is v_(A) , in the direction shown. The information is given in the figure.

In the system shown, the block A is moving down eith velocity v_(1) and C is moving up with velocity v_(3) . Express velocity of the block B in terms of velocities of the blocks a and C.

In the pully system shown, if radii of the bigger and smaller pulley are 2m and 1m respectively and the acceleration of block A is 5 m//s^(2) in the downward direction, then the acceleration of block B will be

For the system shown in Fig. the string is light and pulley is frictionless. The 4 kg block is given an upward velocity of 1 m//s . The centre of mass of the two blocks will [neglect the impulse duration]