A freely falling body traveled xm in `n^(th)` second distance travelled in `n-1^(th)` second is

A freely falling body travels _____ of total distance in 5th second

A particle start moving from rest state along a straight line under the action of a constant force and travel distance x in first 5 seconds. The distance travelled by it in next five seconds will be

If the distance travelled by a freely falling body in the last second of its journey is equal to the distance travelled in the first 2s, the time of descent of the body is

A particle travels a distance of 20 m in the 7^(th) seconds and 24 m in 9^(th) second. How much distance shall it travel in the 15^(th) second?

Initially a body is at rest. If its acceleration is 5ms^(-2) then the distance travelled in the 18^(th) second is :-

An object that is dropped freely from rest travels for 5 seconds.What is the distance travelled in the last 2 seconds of its journey.

A body moving with uniform acceleration covers a distance of 14 m in first 2 second and 88 m in next 4 second. How much distance is travelled by it in 5^(th) second?

A freely falling body covers _____ of total distance in 3rd second.

A freely falling body takes t second to travel (1//x)^(th) distance then time of descent is

A particle is moving in a straight line with initial velocity u and uniform acceleration f . If the sum of the distances travelled in t^(th) and (t + 1)^(th) seconds is 100 cm , then its velocity after t seconds, in cm//s , is.