The figure shown a particle sliding on a frictionless track, which teminates in a straight horizontal section. If the particle starts slipping from the point `A`, how far away from the track will the particle hit the ground?

The velocity-time graph of a particle in straight line motion is velocity-time graph of a particle in straight line motion is shown in. The particle starts its motion from origin. . The distance of the particle from the origin after 8 s is .

In the figure shown, find (a) the time when the particle strikes the ground at P. (b) the horizontal distance QP (c) velocity of the particle at P.

A stone is just released from the window of a train moving along a horizontal straight track. The stone will hit the ground in

The figure shows the v - t graph of a particle moving in a straight line. Starting from rest, the time after which the particle returns to its starting position is

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

A graph of acceleration versus time of a particle starting from rest at t=0 is as shown in figure. The speed of the particle at t = 14s is

A particle is fired from a point on the ground with speed u making an angle theta with the horizontal.Then

In the figure shown, a particle is released from the position A on a smooth track. When the particle reaches at B, then normal reaction on it by the track. When the particle reaches at B, then normal reaction on it by the track is

The velocity time graph of a particle moving in a straight line is given line is given in the figure. Then starting from t=0, the particle

A particle of mass m=5.00kg is released from point A and it slides on the frictionless track shown in figure. Determine (a) the particle's speed at points B and C and (b) the net work done by the gravitational force as the particle moves from A to C.