Show that the maximum height reached by a projectile launched at an angle of `45^@` is one quarter of its range.

The range of a projectile, when launched at an angle of 15^(@) with the horizontal is 1.5 km. what is the range of the projectile, when launched at an angle of 45^(@) to the horizontal with the same speed ?

The range of particle when launched at an angle of 15^(@) with the horizontal is 1.5 km. What is the range of the projectile when launched at an angle of 45^(@) to the horizontal

The horizontal range (R ) of a projectile becomes (R + 2 H) from R due to a wind in horizontal direction. Here H is the maximum height reached by the projectile. What constant horizontal acceleration is imparted by the wind ?

The range of a projectile launched at an angle of 15^(@) with horizontal is 1.5km. The range of projectile when launched at an angle of 45^(@) to the horizontal is

Prove that the maximum horizontal range is four times the maximum height attained by the projectile, when fired at an inclination so as to have maximum horizontal range.

Prove that the maximum horizontal range is four times the maximum height attained by the projectile, when fired at an inclination so as to have maximum horizontal range.

The maximum height attained by a projectile when thrown at an angle theta with the horizontal is found to be half the horizontal range. Then theta is equal to

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

If R is the horizontal range for theta inclination and h is the maximum height reached by the projectile, show that the maximum ragne is given by (R^(2))/(8h) + 2h .