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

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

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

A body of mass 'm' at rest is applied with a force F = (2 + 4t)N. The change in momentum of the interval one second to two second is

The force F acting on a particle is moving in a straight line as shown in figure. What is the work done by the force on the particle in the 4 m of the trajectory?

Force acting on a particle of mass m moving in straight line varies with the velocity of the particle as F=K//V K is constant then speed of the particle in time t

A force of 10 N acts on a body of mass 2 kg for 3s , initially at rest. Calculate change in momentum 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 .