The potential energy of a projectile at its maximum height is equal to its kinetic energy there. Find its range for velocity of projection u.

The potential energy of a projectile at its maximum height is equal to its kinetic energy there. Its range for velocity of projection u is

The potential energy of a projectile at its maximum height is equal to its kinetic energy there. If the velocity of projection is 20 ms^(-1) , its time of flight is (g=10 ms^(-2) )

The speed of a projectile at its maximum height is half of its initial speed. The angle of projection is .

A body projected obliquely with velocity 19.6ms^(-1) has its kinetic energy at the maximum height equal to 3 times its potential energy there. Its position after t second of projection from the ground is (h = maximum height)

The speed of a projectile at its maximum height is sqrt3//2 times its initial speed. If the range of the projectile is n times the maximum height attained by it, n is equal to :

The speed of a projectile at its maximum height is sqrt3//2 times its initial speed. If the range of the projectile is n times the maximum height attained by it, n is equal to :

The speed of a projectile at its maximum height is sqrt3//2 times its initial speed. If the range of the projectile is n times the maximum height attained by it, n is equal to :

The kinetic energy of a projectile at its highest position is K . If the range of the projectile is four times the height of the projectile, then the initial kinetic energy of the projectile is .

The horizontal range of a projectile is 4 sqrt(3) times its maximum height. Its angle of projection will be

The horizontal range of a projectile is 4 sqrt(3) times its maximum height. Its angle of projection will be