A ball A is dropped from a certain height h. Another ball B is thrown simultaneously from the ground vertically upwards with a velocity `sqrt(gh)` . When and where would the two balls cross each other?

A stone is dropped from the top of a tower 400 m high. At the same time another stone is thrown upwards from the ground with a velocity of 100 "m.s"^(-2) . When and where will they meet each other? [g = 9.8 "m.s"^(-2) ]

Statement I : A body is dropped from a height h and another body is thrown simultaneously from the ground with a velocity u in the vertically upward direction. The meet after a time of (h)/(u) . Statement II : For a body projected in the vertically upward direction the ascent in the last second is always 4.9 m, whatever be the velocity of projection.

A stone is dropped from a tower 400m high. Simultaneously, another stone is thrown upwards from the earth's surface with a velocity of 100m/s. When and where would these two stones meet? (g= 9.8 m//s^(2)) .

From the top of a tower 100 m in height, a ball is dropped and at the same time another ball is projected vertically upwards from the ground with a velocity of 25 "m.s"^(-1) . Find when and where the two balls meet. Take g = 9.8 "m.s"^(-2) .

A rubber ball is thrown vertically downwards from the top of a tower with an initial velocity of 14"m.s"^(-1) . A second ball is dropped 1 s later from the same place. In 2 s the first ball reaches the ground and rebounds upwards with the same velocity. When will they collide with each other?

A stone is dropped from the top of a tower 50 m high. Simultaneously another stone is thrown upwards from the ground with a speed of 20 "m.s"^(-1) . Calculate the time at which both the stone cross each other.

A ball is dropped from a height of a building while another is thrown horizontally at the same instant. Do they touch ground simultaneously?