A particle initially at rest is released from A as shown in figures. The approximate variation of direction of resultant acceleration as particle moves from A to B is :

A particle moves along a path ABCD as shown in the figure. Then the magnitude of net displacement of the particle from position A to D is:

A particle travels from A to B path shown in figure, then the displacement of particle is : .

A particle moves in a of radius R from A to B , as shown in the figure. Find the distance and displacement covered.

Acceleration-velocity graph of a moving particle is shown in figure. The particle is

A charged particle initially at rest at O, when released follows a trajectory as shown. Such a trajectory is possible in the presence of

A particle starts from rest. Its acceleration is varying with time as shown in the figure. When the particle comes to rest, its distance from its starting point is

A particle starts from rest and undergoes an acceleration as shown in figure. The velocity-time graph from figure will have a shape.

A particle is moving in a straight line. Particle was initially at rest. Acceleration versus time graph is shown in figure. Acceleration of particle is given by a=3sin pi t in m//s^(2) . The time (in s) when the particle comes to rest is

A particle starts from a pointn A and travels along the solid curve shown in figure. Find approximately the position B of the particle such that the average velocity between the positions A and B has the same direction as the instantaneous velocity at B.