A 20 g bullet pierces through a plate of mass `M_(1)=1kg` and then comes to rest inside a second plate of mass `M_(2)=2.98` kg as shown in the figure. It is found that the two plates, initially at rest, now move with equal velocities, Find the percentage loss in the initial velocity of the bullet when it is between `M_(1)and M_(2)`. Neglect any loss of material of the plates due to the action of bullet

A m=20gm bullet pierces through a plate of mass M_(1) = 1kg and then comes to rest inside a second plate of mass M_(2) = 2.98 kg as shown in figure. It is found that the two plates, initially at rest, now move with equal velocities. Find the percentage loss in the initial velocity of the bullet when it is between M_(1) "and"M_(2) . Neglect any loss of material of the plates, due to the action ofthe bullet.

A 20 g bullet pierces through a plate of mass M_(1) = 1 kg and then comes to rest inside a second plate of mass M_(2) = 2.98 kg as shown in Fig. It is found that the two plates, initially at rest, now move with equal velocities. Find the percentage loss in the initial velocity of the bullet when it is between M_(1) and M_(2 . Neglect any loss of material of the plates due to the action of bullet.

A 20 g bullet pierces through a plate of mass M_(1) = 1 kg and then comes to rest inside a second plate of mass M_(2) = 2.98 kg as shown in Fig. It is found that the two plates, initially at rest, now move with equal velocities. Find the percentage loss in the initial velocity of the bullet when it is between M_(1) and M_(2 . Neglect any loss of material of the plates due to the action of bullet.

A 20 g bullet pierces through a plate of mass M_1 = 1 kg and then comes to rest inside a second plate of mass M_2 = 2.98 kg as shown in figure. It is found that the two plates, initially at rest, now move with equal velocities. Find the percentage loss in the initial velocity of the bullet when it is between M_1 and M_2 Neglect any loss of material of the plates, due to action of bullet.

A 20 gm bullet pierces through a plate of mass m_(1) = 1 kg and then comes to rest inside a second plate of mass M_(2) = 2.98 kg as shown , it is found that the two plates initily atrest , now move with equal velocity . Find the percentage loss in the initial velocity of the bullet when it is between M and M_(2) neglet any loss of material of the pletes due to the action of the bullet

A bullet of mass 10g plerces through a plane A of mass 500g and then gets embedded into a second plate B of mass 1.49kg as shown in the figure. Initially, the two plates A and B are at rest and move with same velocity after collision. The percentage loss in the initial kinetic energy of the bullet, when it is between the plates A and B is ______(Neglect any loss of material of the plates during the collision)

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 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 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?