A particle is projected from a point A vertically upwards with a speed of `50 ms ^(-1)` and another is dropped simultaneously from B which is 200 m vertically above A. They cross each other after [Given: `g = 10 ms ^(-2)].`

A particle is projected from a point A verically upwards with a speed of 50 ms ^(-1) and another is dropped simulataneously from B which is 200 m veritically above A. They cross each other after [Given: g = 10 ms ^(-2)].

A ball is thrown vertically upward with speed 40 m//s . Simultaneously, another ball is dropped from a height 200 m in the same verticle line. When and where the balls meet?

A body is projected vertically up with a speed of 20ms^(-1) .The distance travelled by it in "3" seconds it (g=10ms^(-2))

From a point A, 80 m above the ground, a particle is projected vertically upwards with a velocity of 29 .4. m s^(-1) , Five seconds later, another particle is dropped from a point B, 34. 3 m vertically below A Derermine when and where one voertakes the other. Take g=9.8 m s^(-2) .

A particle is projected vertically upward with velocity u from a point A , when it returns to the point of projection .

A particle is projected vertically upward with initial velocity 25" ms"^(–1) . During third second of its motion, which of the following statement is correct ?

A body is vertically projected at 100 ms^(-1) . It returns after ( g=10 ms^(-2) )

A particle is projected from a point O with an initial speed of 30 ms^(-1) to pass through a point which is 40 m from O horizontally and 10 m above O. There are two angles of projection for which this is possible. These angles are alpha and beta . The value of |tan (alpha+beta)| is

A ball is dropped from top of a tower 250 m high. At the same time, another ball is thrown upwards with a velocity of 50 ms^(-1) from the ground. The time at which they cross each other is