If block `A` of the pulley system is moving downward with a speed of `1 m//s` while block `C` moving up at `0.5m//s` determine the speed of block `B`

In pulley system shown in figure, block C is going up at 2(m)/(s) and block B is going up at 4(m)/(s) . Find the velocity of block A.

In pulley syste shown in figure, block C is going up at 2(m)/(s) and block B is going up at 4(m)/(s) . Find the velocity of block A.

In the figure, the pulley P moves to the right with a constant speed of 4 m//s . The downward speed of A is v_(A) = 3 m//s . Then find the speed of B of the right (in m//s ).

A block of mass 5 kg is moving with a speed of 8 m/s. A force of 10 N is applied on it for 3 s . Find the final speed of the block if the force is applied (i) along the motion , (ii) opposite to the motion and (iii) normal to the initial direction of motion of the block.

A system is shown in the figure. Block A is moving with 1m//s towards left. Wedge is moving with 1m//s towards right. Then speed of the block B will be :

A lift is moving upwards with a constant speed of 5(m)/(s) . The speed of one of the pulleys is 5(m)/(s) as shown. Then the speed of second pulley is:

A rod can freely rotate in vertical plane about the hinge at its bottom. Two strings tie the top of the rod with blocks A and B as shown in the figure. At the instant shown,, the rod is vertical and the speed of block A is u (m)/(s) downwards. Find the speed of block B.

Point B of the rod is always in contract with block and point A of the rod is moving parallel to ground with 5 m//s . Block also has velocity of 5 m//c . What will be speed of point B at this instant ?

The 10 kg block is moving to the left with a speed of 1.2 m//s at time t = 0 A force F is applied kinetic friction is mu_(k) = 0.2 . Determine the time t at which the block comes to a slip. (g = 10 m//s^(2))

In figure, a block A of mass 2kg is moving to the right with a speed 5m//s on a horizontal frictionless surface. Another block B of mass 3kg a massless spring of spring constant 222N//m attached to it, is moving to the left on the same surface and with a speed 2m//s . Let us take the direction to the right as the positive X- direction. At some instant, block A collides with the spring attached to block B . At some other instant , the spring has maximum compression and then, finally, blocks move with their final velocities. Assuming that (i) the spring force is conservative and so there is no conversion of kinetic energy to internal energy and (ii) , no sound is made when block A hits the spring, answer the following questions. When the blocks are yet to attain their final velocities, in this situation at any instant when block A is moving with a velocity 4 hat(i) m//s , velocity of block B will then be :