A stone is projected with an initial velocity at some angle to the horizontal. A small piece separates from the stone before the stone reaches its maximum height. Then the piece will

A stone is projected at an angle alpha to the horizontal from the top of a tower of height 3h. If the stone reaches a maximum height 'h', above the tower, show that it reaches the ground at a distance 6h cot alpha from the foot of the lower.

A stone is projected at an angle alpha to the horizontal from the top of a tower of height 3h If the stone reaches a maximum height h above the tower, then calculate the distance from the foot of the tower where particle strikes the foot of the where particle strikes the ground.

A stone is projected with a velocity 20sqrt2 m//s at an angle of 45^(@) to the horizontal.The average velocity of stone during its motion from starting point to its maximum height is

A stone is projected with speed of 50 ms^(-1) at an angle of 60^(@) with the horizontal. The speed of the stone at highest point of trajectory is

A stone is thrown with a velocity V making an angle theta with the horizontal. The horizontal distance covered by it, before it falls to the ground, is maximum when theta is equal to:

A stone is thrown with a velocity v at an angle theta with the horizontal.Its speed when it makes an angle beta with the horizontal is

A stone is thrown at an angle theta to the horizontal reaches a maximum height H. Then the time of flight of stone will be:

Two stones are projected with the same speed but making different angles with the horizontal. Their reanges are equal. If the angles of projection of one is pi//3 and its maximum height is h_(1) then the maximum height of the other will be:

A stone projected upwards with a velocity u reaches two points P and Q separated by a distance h with velocities u//2 and u//3 . The maximum height reached by it is