A body A is thrown up vertically from the ground with velocity `V_(0)` and another body B is simultaneously dropped from a height H. They meet simultaneously dropped from a height H. They meet at a height `(H)/(2)` if `V_(0)` is equal to

A body is dropped from a certain height.

A body is dropped vertically from a certain height. Draw velocity time graph of the body.

A body A is thrown vertically upwards with initial velocity v_(1) . Another body B is dropped from a height h. Find how the distance x between the bodies depends on the time t if the bodies begin to move simultaneously.

A body is just dropped from a height. What is its initial velocity?

A body is dropped from a height H. The time taken to cover second half of the journey 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.

A body is projected vertically up from ground with a velocity u so as to reach maximum height 'h'. At half of the maximum height its velocity will be

A body A of mass 4 kg is dropped from a height of 100 m. Another body B of mass 2 kg is dropped from a height of 50 m at the same time. Then :

One body is thrown up with velocity of 34.6ms 1. Another body is dropped from a height of 50m. Relative acceleration between the two bodies is

A body A is thrown vertically upwards with such a velocity that it reaches a maximum height of h. Simultaneously, another body B is dropped from height h. It strikes the ground and does not rebound. The velocity of A relative to B versus time graph is best represented by (upward direction is positive).