Having gone through a plank of thickness h, a bullet changed its velocity from `v_(0)` to `v_(1)`. Find the time of motion of the bullet on the plank, assuming the resistance force to be proportional to the square of the velocity.

A bullet leaving the muzzle of a rifle barrel with a velocity v penetrates a plank and loses one-fifth of its velocity. It then strikes second plank, which it just penetrates through. Find the ratio of the thickness of the planks, supposing the average resistance to the penetration is same in both the cases.

A gun fires N ' bullets per second,each of mass m with velocity v .The force exerted by the bullets on the gun is

A gun fires N bullets per second, each of mass m with velocity v. The force exerted by the bullets on the gun is :

A bullet losses 1/n of its velocity in passing through a plank. What is the least number of plancks required to stop the bullet ? (Assuming constant retardation)

A bullet having a speed of 100 m//see crashes through a plank of wood. After passing through a plank , its speed is 80 m//s . Another bullet of the same mass and size , but traveling at 80 m//s is fired at the plank . The speed of the second bullet after traveling through the plank is (Assume that resistance of the plank is independent of the speed of the bullet) :

A particle traversed on third of the distance with a velocity v_(0) , the remaining part of the distance was covered with velocity v_(1) for half the time and with a velocity v_(2) for the remaining half of time. Assuming motion to be rectilinear, find the the mean velocity of the particle averaged over the whole time of motion.