A bullet of mass 10 g travels horizontally with a speed of `100 m*s^(-1)` and penetrates in a wooden block of mass 990 g suspended by a string . Find the vertical height through which the block rises. Take `g=10m*s^(-2)`.

A bullet of mass 0.04 kg moving with a speed of 90 mcdot s^(-1) enters a heavy wooden block and is stopped after a distance of 60 cm. What is the average resistive force exerted by the block on the bullet?

A bullet of mass 50 g , moving a velocity of 200 m*s^(-1) , strikes and penetrates a wooden block. If the resistance f the wooden block on the bullet is 4900 N, find the distance up to which the bullet penetrates the block.

A bullet of mass 6 g is fired with a velocity of 500 m cdot s^(-1) from a gun of mass 4 kg. Find the recoil velocity of gun.

A bullet of mass 50 g , moving with a velocity of 50 m*s^(-1) hits and enters a wooden block of mass 2kg and comes to rest within it. The wooden block was initially at rest on a smooth table. Find the final velocity of the wooden block. What are the initial and final kinetic energies of the block-bullet system?

A bullet, of mass 50 g moving at 400 m cdot s^(-1) , penetrates 20 cm into a wall and stops. Find the average resistance offered by the wall.

A bullet, of mass 50 g and of initial speed 400 m*s^(-1) , penetrates a wall against an average force of 4xx 10^4 N. it comes out with a speed of 50 m*s^(-1) . What is the thickness of the wall ? Another bullet with a lesser mass, but with the same initial velocity , penetrates the wall but is unable to come out . what is the maximum possible mass of the second bullet ?

A ball of mass 100g moves with a velocity of 100m*s^(-1) . Find the wavelength of the wave associated with the moving ball.

A bullet of mass 80 g strikes a target at 100 cm*s^(-1) . After penetration, its velocity reduces to 50 cm*s^(-1) . How much of its kinetic energy is spent ?