A bullet emerges from a barrel of length `1.2 m` with a speed of `640 ms^(1)`. Assuming constant acceleration, after the gun is fired is

A machine gun has a mass of 20kg If fires 25g bullets at the rate of 600 bullets per minute with a speed of 200ms^(-1) Calculate (i) recoil velocity of the gun (ii) force required to keep the gun in position .

A machine gun of mass 10 kg fires 20 g bullets at the rate of 10 bullets per second with a speed of 500 ms^(-1) . What force is required to hold the gun in position ?

A machine gun has a mass 4 kg. It fires 50 gram bullets at the rate of 45 bullets per minute at a speed of 400 ms^(-1) . What force is required to keep the gun in position ?

A machine gun has a mass 5 kg. It fires 50 gram bullets at the rate of 30 bullets per minute at a speed of 400" m s"^(-1) . What force is required to keep the gun in positon ?

A bullet fired from a gun with a velocity of 140 ms^(-1) strikes the ground at the same level as the gun at a distance of 1 km. Find the angle of inclination with the horizontal at which the bullet is fixed. Take g=9.8ms^(-2) .

A machine gun is mounted on an armored car moving with a speed of 20 ms^(-1) . The gun point against the direction of motion of car. The muzzle speed of bullet is equal to speed of sound in air i.e., 340 ms^(-1) . The time difference between bullet actually reaching and sound of firing reaching at a target 544 m away from car at the instant of firing is reaching at a target 544 m away from car at the instant of firing is

A gun fire bullets each of mass 1 g with velocity of 10 ms ^(-1) by exerting a constant force of 5 g weight. Then , the number of bullets fired per second is (take g = 10 ms ^(-2) )

A pendulum consists of a wooden bob of mass m and length l . A bullet of mass m_(1) is fired towards the pendulum with a speed v_(1) . The bullet emerges out of the bob with a speed of (v_(1))//3 and the bob just completes motion along a vertical circle, then v_(1) is