A bullet of mass m moving with velocity `upsilon_(1)` strikes a suspended wooden block of mass M as shown in the figure and sticks to it. If the block rises to a height y. the initial of the bullet is

A bullet of mass m moving with velocity v strikes a suspended wooden block of mass M . If the block rises to a height h , the initial velocity of the block will be ?

A bullet of mass 'm' moving with velocity 'u' passes through a wooden block of mass M = nm as shown in figure. The block is resting on a smooth horizontal floor. After passing through the block, velocity relative to the block is .

A bullet of mass m moving with velocity v strikes a block of mass M at rest and gets embedded into it. The kinetic energy of the composite block will be

If a bullet of mass 5g moving withg a velocity of 100m/s penetrates a wooden block upto 6cm . Find the average force imposed .

If a bullet of mass 5gm moving with velocity 100m/sec, penertates the wooden block upto 6cm. Then the average force imposed by the bullet on the block is

A bullet of mass m moving with a horizontal velocity u strikes a stationary wooden block of mass M suspended by a string of length L = 50 cm. The bullet emerges out of the block with speed (u)/(4) . If M = 6 m, minimum value of u so that the block can complete the vertical circle (take, g = 10 ms^(-2) )

A bullet of mass 10 g moving with a velocity 300 ms^(-1) strikes a wooden block and comes out from ot her side with a velocity of 200ms^(-1). Find the work done by t he resistive force on the bullet.

A bullet of mass 10 g moving with a velocity 300 ms^(-1) strikes a wooden block and comes out from ot her side with a velocity of 200ms^(-1). Find the work done by t he resistive force on the bullet.

A block of mass m moving at a velocity upsilon collides head on with another block of mass 2m at rest. If the coefficient of restitution is 1/2, find the velocities of the blocks after the collision.

A particle of mass 2m moving with velocity v strikes a stationary particle of mass 3m and sticks to it . The speed of the system will be