A body starts to fall freely under gravity. The distances covered by it in first, second and third second are in ratio

A ball falls freely from rest. The ratio of the distance travelled in first, second, third and fourth second is

A stone falls freely rest. The distance covered by it in the last second is equal to the distance covered by it in the first 2 s. The time taken by the stone to reach the ground is

" The distances traveled by a body falling freely from rest in the first,second and third seconds are in the ratio "

A stone falls freely such that the distance covered by it in the last second of its motion is equal to the distance covered by it in the first 5 seconds. It remained in air for :-

A stone falls freely under gravity. It covered distances h_1, h_2 and h_3 in the first 5 seconds. The next 5 seconds and the next 5 seconds respectively. The relation between h_1, h_2 and h_3 is :

Find the ratio of the distances travelled by a freely falling body in first, second and third second of its fall.

A stone falls freely from rest and the total distance covered by it in last second of its motion equals the distance covered by it in the first 3s of its motion. How long the stone will remain in the air?

True/False type quesiton : The ratio of the distances covered by a body falling freely from rest in the first, second and third seconds of its fall is 1 : 3 : 5 .

A particle is projected vertically upward and moves freely under gravity.If the distance travelled by the particle in the 4^(th) second of its motion is twice of that in the 5^( th ) second,then the speed of projection is ?[g=10m/ s^(2) ]

The distances covered by a freely falling body in its first, second, third, ……, b^(th) seconds of its motion