A particle `A` is projected verically upwards. Another indentical particle `B` is projected at an angle of `45^(@)`. Both reach the same height. The ratio of the initial kinetic energy of `A` to that of `B` is `-`

A ball P is projected vertically up. Another similar ball Q is projected at ari angle 45^(@) . Both reach the same height during their motion. Then, at the starting point, ratio of kinetic energy of P and Q is?

Two stones of masses m and 2 m are projected vertically upwards so as to reach the same height. The ratio of the kinetic energies of their projection is

A particle is projected vertically upwards from O with velocity v and a second particle is projected at the same instant from P (at a height h above O) with velocity v at an angle of projection theta . The time when the distance between them is minimum is :

A ball is projected vertically upwards with a certain initial speed. Another ball of the same mass is projected at an angle of 60^(@) with the vertical with the same initial speed. At highest points of their journey, the ratio of their potential energies will be

A stone is projected vertically up to reach maximum height h. The ratio of its potential energy to its kinetic energy at a height 4/5h , will be

If 2 balls are projected at angles 45^(@) and 60^(@) and the maximum heights reached are same, what is the ratio of their initial velocities ?