A body is falling from height 'h' it takes `t_(1)` time to rech the ground. The time taken to cover the first half of height is:-

A body dropped from the top of a tower hits the ground after 4 s. How much time does it take to cover the first half of the distance from the top of the tower?

A body is dropped from a large height h in time t_(0) second. Find the time taken to cover the last meter of fall in terms of t_(0)

A body is allowed to fall from a height of 10 m . If the time taken for the first 50 m is t_(1) and for the remaining 50 s ,is t_(2) . The ratio of time to reach the ground and to reach first half of the distance is .

A body is dropped from a height H. The time taken to cover second half of the journey is

A body is released from the top of a tower of height h. It takes t sec to reach the ground. Where will be the ball after time (t)/(2) sec?

A body is allowed to fall from a height of 100 m . If the time taken for the first 50 m is t_1 and for the remaining 50 m is t_2 then :

A body is allowed to fall from a height of 10 m . If the time taken for the first 50 m is t_(1) and for the remaining 50 s ,is t_(2) . The ratio t_(1) and t_(2) . Is nearly .

A body is allowed to fall from a height of 10 m . If the time taken for the first 50 m is t_(1) and for the remaining 50 s ,is t_(2) . Which is correct?

A ball falls from a height ‘h’ and collides with the ground. Each time it collides, its velocity is halved. Which of the following graphs are correct? Here t, v and y represent time, velocity and height above ground respectively. (vertically upwards direction is taken as positive and ground as y = 0)

A particle is projected vertically upwards from a point A on the ground. It takes t_(1) time to reach a point B but it still continues to move up. If it takes further t_(2) time to reach the ground from point B then height of point B from the ground is :-