The horizontal range and the maximum height of a projectile are equal. The angle of projection of the projectile is :

Assertion: For projection angle tan^(-1)(4) , the horizontal range and the maximum height of a projectile are equal. Reason: The maximum range of projectile is directely proportional to square of velocity and inversely proportional to acceleration due to gravity.

If R and H represent horizontal range and maximum height of the projectile, then the angle of projection with the horizontal is

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

The horizontal range and miximum height attained by a projectile are R and H , respectively. If a constant horizontal acceleration a = g//4 is imparted to the projectile due to wind, then its horizontal range and maximum height will be

The horizontal range and miximum height attained by a projectile are R and H , respectively. If a constant horizontal acceleration a = g//4 is imparted to the projectile due to wind, then its horizontal range and maximum height will be

If R and H are the horizontal range and maximum height attained by a projectile , than its speed of prjection is

The velocity at the maximum height of a projectile is half of its velocity of projection u . Its range on the horizontal plane is

The velocity at the maximum height of a projectile is half of its velocity of projection u . Its range on the horizontal plane is

The velocity at the maximum height of a projectile is sqrt(3)/2 times the initial velocity of projection. The angle of projection is

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