The kinetic energy of a body moving along a straight line varies with time as shown in figure. The force acting on the body:

Kinetic energy of a particle moving in a straight line varies with time t as K = 4t^(2) . The force acting on the particle

Kinetic energy of a particle moving in a straight line varies with time t as K = 4t^(2) . The force acting on the particle

The net force acting on a particle moving along a straight line varies with time as shown in the diagram. Force is parallel to velocity. Which of the following graph is best representative of its speed with time? (Initial velocity of the particle is zero)

The net force acting on a particle moving along a straight line varies with time as shown in the diagram. Force is parallel to velocity. Which of the following graph is best representative of its speed with time? (Initial velocity of the particle is zero)

The speed - time graph for a body moving along a straight line is shown in figure. The average acceleration of body may be

The speed - time graph for a body moving along a straight line is shown in figure. The average acceleration of body may be

The kinetic energy (KE) versus time graph for a particle moving along a straight line is as shown in the figure. The force versus time graph for the particle may be

The kinetic energy (KE) versus time graph for a particle moving along a straight line is as shown in the figure. The force versus time graph for the particle may be

The velocity time graph of a body moving along a straight line is shown in Fig. The acceleration of the body during OA will be:

The velocity versus time graph of a body moving along a straight line is as shown in figure. The ratio of displacement and distance covered body in 5 second is :-