Figure shows a particle slideing on a frictionles track which terminates in straight horizontal section. If the particle starts slipping from the point. A, how far way from the track will the particle hit the ground ?

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 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 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?

Figure shows a circular frictionless track of radius R, centred at point O. A particle of mass M is released from point A (OA = R//2) . After collision with the track, the particle moves along the track. (a) Find the coefficient of restitution e . (b) What will be value of e if the velocity of the particle becomes horizontal just after collision ?

The velocity-time graph of a particle in straight line motion is veloity-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 .

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 .

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

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

Figure shows a circular frications trck of radius R , centred at point O . A particle of mass M is released from point A (OA = R//2) . After collision with the track, the particle moves along on the track. Then the coefficient of restitution e is.