For a freely falling body, Find the ratio of the times taken to fall successive equal distances.

A stone is allowed to fall freely from rest. The ratio of the time taken to fall through the first metre and the second metre distance is

If the distance travelled by a freely falling body in the last second of its journey is equal to the distance travelled in the first 2s, the time of descent of the body is

Read the following statements and choose the correct answer. (a) For a freely falling body the average velocity is proportional to square root of height of fall. (b) For a freely falling body the displacements in successive equal time intervals are in the ratio 1:4:9:.... (c) For a vertically projected body the displacement during last second of time of flight changes with velocity of projection. (d) For a body projected from the top of the tower the displacement of the body is negative when the body crosses the point of projection

A freely falling body travels _____ of total distance in 5th second

A particle is dropped from rest from a large height Assume g to be constant throughout the motion. The time taken by it to fall through successive distance of 1 m each will be :

A freely falling body covers _____ of total distance in 3rd second.

A, B, C are points in a vertical line such that AB = BC. If a body falls freely from rest at A and t_(1) and t_(2) are times taken to travel distances AB and BC, then ratio (t_(2)//t_(1)) is

A body freely falling from the rest has velocity v after it falls through a height h the distance it has to fall down for its velocity to become double is

Show that the sum of kinetic energy and potential energy (ie, total mechanical energy) is always conserved in the case of a freely falling body under gravity (with air resistance neglected from a height by finding it when (i) the body is at the top c) the body has fallen a distance in the body has reached the ground.