A uniformly accelerating body passes 12 metres in the 2nd second and 28 metres in the 4th second. Find the acceleration of the body

A body moving with a uniform acceleration describes 12 m in third second of its motion and 20 m in the fifth second. Find the velocity after 10 seconds.

A body moving with uniform acceleration goes 65 m in 5th second and 105 m in the 9th second. How far will it go in the 20th second?

If a body starts from rest and travels 1.2 m in 8th second , then acceleration is

A body moving with uniform acceleration attains velocity 25m/s after 5 seconds and 34 m/s after 8 second. Calculate the distance it covers in the 10th second.

A body covers 4 m in 3rd second and 12 m in 5th second. How far will it travel in the next three seconds ( assume uniform acceleration ) ?

Write the expression for distance covered in nth second by 'a uniformly accelerated body.

The distances travelled by a body falling freely from rest in the 1st, 2nd and 3rd seconds are in the ratio.

The displacement equation of a particle moving along a straight line with uniform acceleration is x = v_0t + 1/2at^2 . Find the distance covered by the particle in the last second of its motion.

The distance x of a particle moving in one dimension, under the action of constant force is related to time t by equation. t = sqrt x + 3 where x in metre and t in second. Find the displacement of the particle when its velicity is zero.

A rectangle is of dimensions 12 metres x 5 metres. If the second dimension of the rectangle is increased by R metres and the first dimension is decreated by 2 metres, its area does not change. Find the value of R.