From the top of a tower, a stone is thrown up. It reaches the ground in 5 sec. A second stone is thrown down with the same speed and reaches the ground in 1 sec. A third stone is released from rest and reaches the ground in

From the top of a tower, a stone is thrown up and it reaches the ground in time t_1 A second stone is thrown down with the same speed and it reaches the ground in time t_2 A third stone is released from rest and it reaches the ground in time The correct relation between t_1,t_2 and t_3 is :

A stone is thrown up from the top of a tower and it takes time t_(1) to reach the ground. A second stone is thrown down with the same speed and it takes time t_(2) to reach the ground . How much time a third stone would take to reach the ground, if it is dropped down?

A stone is thrown upwards from the top of a tower with some initial speed and it reaches the ground in 16 seconds. Now it is thrown with the same initial speed downward and it reaches the ground in 9 sec . In how much time will it reach the ground if the stone is allowed to fall freely under gravity from the same place ?

From the top of a tower, a stone A is thrown upwards and a stone B is thrown downwards with the same speed. The velocity of stone A, on colliding with the ground is :

A ball thrown upward from the top of a tower with speed v reaches the ground in t_(1) sec. If this ball is thrown downward from the top of the same tower with speed v it reaches the ground in t_(2) sec. In what time, the ball shall reach the grouned, if it is allowed to fall freely under gravity from the top of the tower?

A body is thrown vertically upwards from A . The top of a tower . It reaches the fround in time t_(1) . It it is thrown verically downwards from A with the same speed it reaches the ground in time t_(2) , If it is allowed to fall freely from A . then the time it takes to reach the ground. .

A body projected vertically upward from the top of a tower reaches the ground in itme t_(1). If it is projected vertically downwards from the same position with the same velocity , it reaches the ground in time t_(2) . If a body is released from rest and from the same position then what will be the time (t) required by body to reach the ground?