A body starts from rest, what is the ratio of the distance travelled by the body during the 4th and 3rd s?

A body starting from rest has an acceleration of 4ms^(-2) . Calculate distance travelled by it in 5th second.

A body starts from rest and moves with constant acceleration. The ratio of distance covered by the body in nth second to that covered in n second is.

A body starts from rest with a uniform acceleration of 2 m s^(-1) . Find the distance covered by the body in 2 s.

A body starts from rest and is uniformly accelerated for 30 s. The distance travelled in the first 10 s is x_(1) , next 10 s is x_(2) and the last 10 s is x_(3) . Then x_(1):x_(2):x_(3) is the same as :-

A body is thrown vertically upwards with initial velocity 'u' reaches maximum height in 6 seconds. The ratio of distances travelled by the body in the first second and seventh second is

A body starting from rest has an acceleration of 5m//s^(2) . Calculate the distance travelled by it in 4^(th) second.

A body starts from rest and moves with a uniform acceleration. The ratio of the distance covered in the nth sec to the distance covered in n sec is

A body starts from rest and travels with uniform acceleration the time taken by the body to cover the whole distance is t. Then the time taken the body to cover the second half of the distance is

A body is thrown vertically upward with velocity u. The distance travelled by it in the 7^(th) and 8^(th) seconds are equal. The displacement in 8^(th) seconds is equal to (take g=10m//s^(2) )

The distance travelled by a body during last second of its total flight is d when the body is projected vertically up with certain velocity. If the velocity of projection is doubled, the distance travelled by the body during last second of its total flight is