A ball of mass 150 g moving with an acceleration 20 `m//s^(2)` is hit by a force, which acts on it for 0.1 s. The impulsive force is

A ball of mass 0.5 kg is moving with a velocity of 2 ms^(-1) . It if subjected to a force of x Newton for 2s. Because of this force, the ball moves with a velocity of 3ms^(-1) . The value of x is :

A body of mass (1)/(4) kg moving with velocity 12 m//s is stopped by applying a force of 0.6 N. Then impulse is :-

A player takes 0.1s I catching a ball of mass 150 g moving with velocity of 20 m/s. The force imparted by the bal on the hands of the player is

A balloon os mass 2 KG is rising up with an acceleration of 4m/s^2 . The upward force acting on the balloon is (g = 10 ms^-2)

A cricket ball of mass 150 kg is moving with a velocity of 12 m//s and is hit by a bat so that ball is turned back with a velocity of 20 m//s . The force of the blow acts for 0.01 s on the ball . Find the average force exerted by the bat on the ball.

A ball of mass 10 g is moving with a velocity of 50 "ms"^(-1) . On applying a constant force on ball for 2.0 s, it acquires a velocity of 70 "ms"^(-1) . Calculate the acceleration of ball

A cricket ball of mass 150 g is moving with a speed of 12ms^(-1) and is hit by a bat so that the ball is turned back with velocity of 20ms^(-1) if duration of contact between bat and ball is 0.01 s then:

A ball of mass 10 g is moving with a velocity of 50 "ms"^(-1) . On applying a constant force on ball for 2.0 s, it acquires a velocity of 70 "ms"^(-1) . Calculate the magnitude of force applied.

A cricket ball of mass 150 g moving at a speed of 25 m s^(-1) is brought to rest by a player in 0.03 s. Find the average force applied by the player.

A ball of mass 10 g is moving with a velocity of 50 "ms"^(-1) . On applying a constant force on ball for 2.0 s, it acquires a velocity of 70 "ms"^(-1) . Calculate the initial momentum of ball