Find the speed of the block B when the wedges A and C are moving toward each other with speed v and the strings connected to block make and angle `theta` with the vertical, as shown in figure

If the blocks A and B are moving towards each other with accelerations a and b shown in fig. find the net acceleration of block C.

If the blocks A and B are moving towards each other with accelerations a and b shown in fig. find the net acceleration of block C.

Find the speed of the box-3, if box-1 and box-2 are moving with speeds v_(1) and v_(2) as shown in figure when the string makes an angle theta_(1) and theta_(2) with the horizontal at its left and right end.

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

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

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

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

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

In the figure shown the pulley is smooth . The spring and the string are light. The block 'B' slides down from the top along the fixed rought wedge of inclination theta . Assuming that the block reaches the end of the wedge. Find the speed of the block at the end. Take the coefficient of friction between the block and the wedge to be mu and the spring was relaxed when the block was relased from the top of the wedge.

In figure, the pulley shown is smooth. The spring and the string are light. Block B slides down from the top along the fixed rough wedge of inclination theta . Assuming that the block reaches the end of the wedge, find the speed of the block at the end. Take the coefficient of friction between the block and the wedge to be mu and that the spring was relaxed when the block was released from the top of the wedge.