If the point P on string shown in figure-1.96 is pulled down with a velocity v, find the velocity of the block A connected to another string passing over a step pulley with radii ratio `1:2`.

In the arrangement shown, end A of light intextensible string is pulled with constant velocity v. the velocity of block B is

In the arrangement shown, end A of light intextensible string is pulled with constant velocity v. the velocity of block B is

If block B shown in figure-l.78(a) is going down with acceleration 5 m//s^(2) , find the acceleration of the block A. All pulleys and strings are ideal. Radii ratio for the two step pulleys are 1 : 3 : 5 and 1 :2 .

Two blocks of masses of 40 kg and 30 kg are connected by a weightless string passing over a frictionless pulley as shown in the figure.

Two blocks of masses of 40 kg and 30 kg are connected by a weightless string passing over a frictionless pulley as shown in the figure.

Two blocks are connected by an inextensible string as shown. The pulley is fixed. If block A moves down with speed v, find the velocit of block B at instant.

In the arrangement shown in the fig, end A of the string is being pulled with a constant horizontal velocity of 6 m//s . The block is free to slide on the horizontal surface and all string segments are horizontal. Find the velocity of point P on the thread.

Two masses m_(1) and m_(2) are connected to the ends of string passing over a pulley. Find the tension and the acceleration associated.

Two blocks A and B are shown in figure. Block A moves to the left with a constant velocity of 6m/s. Find : (a) Velocity of the blocks B. (b) Velocity of the point P of the string. Relative velocity of the point M of the cable with respect to the point P.

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.