A stone is dropped from the window of a bus moving at `60 kmh^(-1)`. If the window is 1.96 m high, find the distance along the track, which the stone moves before striking the ground.

A stone is dropped from the window of a bus moving at 7m h^(-1) on the road, IF the window is 2.0m high, determine the distance aling the road where the stone will strike the road. Use g= 10 ms^(-2) .

A stone is dropped from a balloon going up with a uniform velocity of 5.0 m/s. If the balloon was 50 m high when the stone was dropped, find its height when the stone hits the ground. Take g=10 m/s^2 .

A stone is just dropped from the window of a train moving along a horizontal straight track with uniform speed. The path of the stone is

A stone is dropped from rest from a point 0.4 m above a window 0.5m high. Find the time taken by the stone to pass against window.

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 dropped from the window of a stationary bus. It takes 4 seconds to reach the ground. In what time the stone will reach the ground when the bus is moving with (a) constant velcity of 72 km h^(-1) (b) constant acceleration 4 km h^(-1) ?

A stone is dropped from rest the top of a building 44.1 m high. It takes 3 s to reach the ground. Use this information to calcualte g.

A stone is dropped from the top of a tower of height 100 m. The stone penetrates in the sand on the ground through a distance of 2m. Calculate the retardation of the stone.

A ball is dropped from the top of a building. The ball takes 0.5 s to pass the 3 m length of a window some distance from the top of the building. Find the distance between the top of the building and top of the window

Given the magnitude and direction of the force acting on a stone of mass 0.1 kg (a) just after it is dropped from the window of a stationary train (b) just after it is dropped from the window of a train running at a constant velocity of 36 km//hr (c) just after it is droped from the window of a train accelerating with 1 ms^(-2) (d) lying on the floor of a trin which is accelerating with 1 ms^(-2) the stone being at rest relative to the train . Neglect the resistance of air throuhout .