(A):A body thrown up from the top of a tower and another body thrown down from the same point strike the ground witht the same velocity.
(R ):Initial speed and acceleration are common for both.

For body thrown horizontally from the top of a tower,

A body is thrown horizontally from the top of a tower. It reaches the ground after 4s at an angle 45° to the ground. The velocity of projection is

A ball is thrown vertically upwards from the top of tower of height h with velocity v . The ball strikes the ground after time.

STATEMENT-1: When a body is dropped and another body is thrown horizontally from the same height, it reaches the ground at the same time. STATEMENT-2: They have same acceleration and same initial speed in vertical direction.

All the particles thrown with same initial velocity would strike the ground. .

(A):Body projected vertically up or down from the top of a tower with same velocity will reach the ground with same velocity. (R ):Both the bodies projected vertically up and town will have same displacement and acceleration.

A stone thrown upward with a speed u from the top of a tower reaches the ground with a velocity 4u. The height of the tower is

Assertion : A body droped from a given height and another body projected horizontal from the same height strike the ground simultaneously Reason : Because horizontal velocity has no effect in the vertical direction .

A body P is thrown vertically up with velocity 30 ms^(-1) and another body Q is thrown up along the same vertically line with the same velocity but 1 second later from the ground. When they meet (g = 10 ms-2)

A ball is thrown upwards from the top of a tower 40 m high with a velocity of 10 m//s. Find the time when it strikes the ground. Take g=10 m//s^2 .