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.

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

Find out velocity of point P which is present on a disc rolling on horizontal surface as shown.

In the Fig. the blocks 'A' and 'B' are connected with an inextensible string. The block 'A' can slide on a smooth horizontal surface.

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.

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.

The blocks are in equilibrium with a constant horizontal force 2mg acting on block B . The strings are light, find tensions in the strings and values of angles alpha and beta

In the arrangement shown in figure, m_A = m_B = 2kg. String is massless and pulley is frictionless. Block B is resting on a smooth horizontal surface, while friction coefficient beteen block A and B is mu=0.5 . the Maximum horizontal force F that can be applied so that block A does not slip over block B is.

The block A is moving downward with constant velocity v_(0.) Find the velocity of the block B. When the string makes an angle theta with the horizontal

In each of the three arrangements, the block of mass m_(1) is being pulled left with constant velocity. There is no friction anywhere. The string are light and anextensible and pulleys are massless. The ratio of the speed of the block of mass m_(2) in the three cases respectively is:

In the arrangement shown in the fig, block A is pulled so that it moves horizontally along the line AX with constant velocity u. Block B moves along the incline. Find the time taken by B to reach the pulley P if u = 1m//s . The string is inextensible.