A particle starts to move along a straight line. The acceleration versus time graph of particle is as shown in figure. The correct velocity versus time graph is :

The acceleration versus time graph of a particle is shown in the figure. The respective v-t graph of the particle is . .

Position (x) versus time (t) graph of a particle is as shown. The velocity is zero at?

The acceleration versus time graph of a particle moving in a straight line is show in. The velocity-time graph of the particle would be .

Velocity versus time graph of a body is shown in figure. It explains that

The acceleration versus time graph of a particle moving along a straight line is shown in the figure. Draw the respective velocity-time graph Given v=0 at t=0.

The acceleration versus displacement graph of a particle performing SHM is shown in figure. The time period of oscillation of particle in second is

A particle starts moving from rest in a from rest in a straight line. Its acceleration vs time (a - t) graph is shown in figure. The speed of particle is maximum at.

A particle moves in straight line. Acceleration of particle changes with velocity as showns in graph:

A particle is moving in a straight line whose acceleration versus time graph is given. Assume that initial velocity is in the direction of acceleration. Then which of the statement is correct between time t =0 to t = t_(0) . .

A particle starts from rest at the origin and moves along the positive x direction. Its acceleration a versus position x graph is shown in the figure. The velocity of the particle at x = 6 m is?