The force F acting on a particle of mass m is indicated by the force-time graph shown below. The change in momentum of the particle over the time interval from 0 to 8 s is

The force F acting on a partical of mass m is indicated by the force-time graph shown below. The change in momentum of the particle over time interval from zero to 8 s is.

The force acting on a particle of mass 20 kg is indicated by force - time graph as shown in figure. The magnitude of change in linear momentum of particle during time interval 0 to 6 second is

The force(F) acting on a particle of mass m changing with time(t) is as shown in (F-t) graph. The change in linear momentum from t=0 to t=6 s (in kN s) is

A position dependent force F ia acting on a particle and its force-position curve is shown in the figure. Work done on the particle, when its displacement is from 0 to 5 m is

For the acceleration - time (a - t) graph shown in figure, the change in velocity of particle from t = 0 to t = 6 s is

Displacement of a particle of mass 2 kg varies with time as s=(2t^(2)-2t + 10)m . Find total work done on the particle in a time interval from t=0 to t=2s .

A particle moves rectilinearly possessing a parabolic s-t graph. Find the average velocity of the particle over a time interval from t = 1/2 s to t = 1.5 s.

The variation of force (F) acting on a particle of mass 800 g with position (x) is as shown in figure. The time period of oscillation of the particles is

A force F acting on a particle varies with the position x as shown in figure. Find the work done by this force in displacing the particle from

The diagram shows the displacement - time graph for a particle moving in a straight line. The distance (in m) coverted by the particle in the time interval t=0 to t=5s is