The time of flight of a projectile is related to its horizontal range by the equation `gT^2 = 2R`. The angle of projection is

The equation of a projectile is y = ax - bx^(2) . Its horizontal range is

A body is projected at such an angle that the horizontal range is three times the greatest height. The-angle of projection is

The equation of projectile is y=16x-(x^(2))/(4) the horizontal range is:-

If the time of flight of a bullet over a horizontal range R is T, then the angle of projection with horizontal is -

The horizontal range of projectile is 4sqrt(3) times the maximum height achieved by it, then the angle of projection is

The ratio of the speed of a projectile at the point of projection to the speed at the top of its trajectory is x. The angle of projection with the horizontal is

If the maximum vertical height and horizontal ranges of a projectile are same, the angle of projection will be

Assertion: In projectile motion, when horizontal range is n times the maximum height, the angle of projection is given by tan theta=(4)/(n) Reason: In the case of horizontal projection the vertical increases with time.

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 2 sqrt(3) times its maximum height. Find the angle of projection.