A body is dropped from a height `h`. If `t_1 and t_2` be the times in covering first half and the next distances respectively, then the relation between `t_1 and t_2` is.

An object is dropped from a height h . Then the distance travelled in times t,2t,3t are in the ratio.

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 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 .

The normal at t_(1) on the parabola meets again at t_(2) then find relation between t_(1) and t_(2)

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 block released from rest from the top of a smooth inclined plane of angle theta_1 reaches the bottom in time t_1 . The same block released from rest from the top of another smooth inclined plane of angle theta_2 reaches the bottom in time t_2 If the two inclined planes have the same height, the relation between t_1 and t_2 is

Time taken by an object falling from rest to cover the height of h_(1) and h_(2) is respectively t_(1) and t_(2) then the ratio of t_(1) to t_(2) is