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)`.
The ratio of time to reach the ground and to reach first half of the distance is .

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 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

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

In the time taken by the projectile to reach from A to B is t . Then the distance AB is equal to. .

Body 1 of mass M is dropped from a height of 1 m and body 2 of mass 3 M is dropped from a height of 9 m. Ratio of time taken by bodies 1 and 2 to reach the ground is

A tank is filled with a liquid upto a height H, A small hole is made at the bottom of this tank Let t_(1) be the time taken to empty first half of the tank and t_(2) time taken to empty rest half of the tank then find (t_(1))/(t_(2))

A tank is filled with a liquid upto a height H, A small hole is made at the bottom of this tank Let t_(1) be the time taken to empty first half of the tank and t_(2) time taken to empty rest half of the tank then find (t_(1))/(t_(2))

Two stones are falling at a place from heights in the ratio 2:3. Their velocities on reaching the ground are in the ratio

A body is released form the top of a tower of height h meters. It takes t seconds to reach the ground. Where is the ball at the time t/2 sec ?

In figure shown below, the time taken by the projectile to reach from A to B is t then, the distance AB is equal to