A ball is dropped vertically from `a` height `d` above the ground . It hits the ground and bounces up vertically to a height ` (d)//(2). Neglecting subsequent motion and air resistance , its velocity `v` varies with the height `h` above the ground as

A ball is dropped vertically from a height d above the ground. It hits the ground and bounces up vertically to a height d/2. Neglecting the subsequent motion and the air resistance, how its velocity v varies with the height h above the ground?

A ball is dropped vertically from a height d above the ground. It hits the ground and bounes up vertically to a height d//2 . Neglecting subsequent motion and air resistance, its speed v varies with the height h above the ground as

A ball is dropped from a height h above ground. Neglect the air resistance, its velocity (v) varies with its height (y) above the ground as :-

A ball is dropped from a height h above ground,Neglect the air resistance,its velocity (v) varies with its height y above the ground as

A ball is dropped from a height H above the ground. It hits the ground and bounces up vertically to a height (H)/(2) where it is caught. Taking origin at the point from where the ball was dropped, plot the variation of its displacement vs velocity. Take vertically downward direction as positive.

A ball is thrown upwards with a speed u from a height h above the ground.The time taken by the ball to hit the ground is

A ball is dropped from a height 64m above the ground and every time it hits the ground it rises to a height equal to half of the previous height.The height attained after it hits the ground for the 16h time is

A body is thrown vertically upward from a point A 125 m above the ground. It goes up to a maximum height of 250 m above the ground and passes through A on its downward journey. The velocity of the body when it is at a height of 70 m above the ground is (g=10 m//s^(2))