The distance travelled by a body moving along a line in time t is proportional to `t^3`. The acceleration - time (a, t) graph for the motion of the body will be 

The distance covered by a moving body is directly proportional to the square to the time. The acceleration of the body is

The displacement-time graph of a body is shown in. . The velocity-time graph of the motion of the body will be .

The distance travelled by a particle in a straight line motion is directly proportional to t^(1//2) , where t is the time elapsed.

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

A particle move a distance x in time t according to equation x = (t + 5)^-1 . The acceleration of particle is proportional to.

The position of a body moving along x-axis at time t is given by x= (t^(2)-4t+6)m . The velocity of the body at time t = 3s is

A variable force F acts on a body which is free to move. The displacement of the body is proportional to t^(3) , where t = time. The power delivered by F to the body will be proportional to

If the kinetic energy of a body is directly proportional to time t, the magnitude of the force acting on the body is

A body is moved along a straight line by a machine delivering a power proportional to time (P prop t) . Then, match the following.

In the given v-t graph the distance travelled by the body in 5 seconds will be