A body is projected at an angle `theta` so that its range is maximum. If T is the time of flight then the value of maximum range is (acceleration due to gravity= g)

A body is projected with an angle theta . The maximum height reached is h. If the time of flight is 4 sec and g=10m//s^2 , then the value of h is

A body is projected with kinetic energy E such that its range is maximum. Its potential energy at the maximum height is

Acceleration due to gravity is maximum at

A body is projected with an angle theta .The maximum height reached is h .If the time of flight is 4 sec and g=10m//s^(2) ,then the value of h is

A ball is thrown at an angle theta with the horizontal and the range is maximum. The value of tantheta is:-

A particle is projected with a velocity v so that its range on a horizontal plane is twice the greatest height attained. If g is acceleration due to gravity, then its 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

A body is projected with velocity 'u' so that the maximum height is thrice the horizontal range. Then the maximum height is

(A): When a body is projected at angle 45^(@) its range is maximum (R): For maximum of range, the value of sin 2 theta should be equal to one.

A body is projected with velocity 'u' so that the maximum height is thrice the horizontal range. Then find the maximum height .