A body of mass 2kg has an initial speed 5 m/s. A force acts as it for some time in the direction of motion. The force-time graph is shown in figure. Find the final speed of the body.

A particle of mass 2kg is initially at rest. A force starts acting on it in one direction whose magnitude changes with time. The force time graph is shown in figure. Find the velocity of the particle at the end of 10s .

For body of 50 kg. mass, the velocity time graph is shown in figure. Then force acting on the body is :-

A body of mass 4 kg is moving with momentum of 8 kg m s^(-1) . A force of 0.2 N acts on it in the direction of motion of the body for 10 s. The increase in kinetic energy is

A body of mass 2 kg starts with an intitial-velocity 5 m/s. It the body is acted upon by a time dependent force (F) as shown in figure, then work done on the body in 20 s is A. − 875 J B. 875J C. 600J D. − 600 N J

A body of mass m = 4 kg moving with a velocity 10 m/s collides head - on with another object for 1.5 sec. The impulsive force versus time graph is shown during the collision of the body and object. Find the velocity of body after collision.

A force F is applied to the initially stationary cart. The variation of force with time is shown in the figure. The speed of cart at t = 5 sec is

A particle of mass 70 g, moving at 50 cm/s , is acted upon by a variable force opposite to its direction of motion. The force F is shown as a function of time t (a) its speed will be 50 cm/s after the force stops acting (b) its direction of motion will reverse (c) its average acceleration will be 1 m//s^2 during the interval in which the force acts its average acceleration will be 10 m//s^2 during the interval in which the force acts

A body of mass 2.5 kg is subjected to the forces shown in figure. Find the acceleration of the centre of maas.

A block of mass 5 kg is moving with a speed of 8 m/s. A force of 10 N is applied on it for 3 s . Find the final speed of the block if the force is applied (i) along the motion , (ii) opposite to the motion and (iii) normal to the initial direction of motion of the block.

Due to the application of a force on a body of mass 100 kg that is initially at rest, the body moves with an acceleration of 20ms^(-2) in the direction of the force. Find the magnitude of the force.