(A) : When range of a projectile is maximum, its angle of projection may be `45^(@)` or `135^(@)`
(R): Whether is `45^(@)` or `135^(@)` value of range remains the same, only the sign changes.

Assertion: When theta = 45^(@) or 135^(@) , the value of R remains the same, only the sign changes. Reason: R= (u^(2)sin2theta)/(g)

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.

The range of a projectile is R when the angle of projection is 40^(@) . For the same velocity of projection and range, the other possible angle of projection is

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

In the following questions a statement of assertion (A) is followed by a statement of reason ( R). A: Horizontal range of a projectile is always same for angle of projection theta with horizontal or theta with vertical . R : Horizontal range depends only on angle of projection .

Prove that the horizontal range is same when angle of projection is (i) greater than 45^(@) by certain value and (ii) less than 45^(@) by the same value.

Find the ratio of maximum horizontal range and the maximum height attained by the projectile. i.e. for theta_(0) = 45^(@)

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