For a projectile 'R' is range and 'H' is maximum height

The horizontal range of a projectile is R and the maximum height attained by it is H. A strong wind now begins to below in the direction of motion of the projectile, giving it a constant horizontal acceleration =g//2 . Under the same conditions of projection. Find the horizontal range of the projectile.

The horizontal range of a projectile is R and the maximum height attained by it is H. A strong wind now beings to blow in the direction of horizontal motion of projectile, giving to constant horizontal acceleration equal to g. Under the same conditions of projections , the new range will be (g = acceleration due to gravity)

The time of flight of a projectile is 10 s and range is 500m. Maximum height attained by it is [ g=10 m//s^(2) ]

The time of flight of a projectile is 10 s and range is 500m. Maximum height attained by it is [ g=10 m//s^(2) ]

The range R of projectile is same when its maximum heights are h_(1) and h_(2) . What is the relation between R, h_(1) and h_(2) ?

Assertion : If time of flight in a projectile motion is made two times, its maximum height will become four times. Reason : In projectile motion H prop T^2 , where H is maximum height and T the time of flight.

If the horizontal range of a projectile be a and the maximum height attained by it is b, then prove that the velocity of projection is [2g(b+a^2/(16b))]^(1/2)

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

The horizontal range of a projectile is 2 sqrt(3) times its maximum height. Find the angle of projection.