A man on a lift ascending with an acceleration `f m//"sec"^( 2)` throws a ball vertically upwards with a velocity of `v m//"sec"` relatively to the lift and catches it again in t seconds, then `f + g = (2v)/( t)`

A man in a lift ascending with an upward acceleration a throws a ball vertically upwards with a velocity v with respect to himself and catches it after t_1 seconds. After wards when the lift is descending with the same acceleration a acting downwards the man again throws the ball vertically upwards with the same velocity with respect to him and catches it after t_2 seconds?

Form a lift moving upwards with a uniform acceleration a=2 m s^(-2), man throus a ball vertically upwards with a velcoity v= 12 m s^(-1) relative to the lift. The ball comes back to the man after a time t . Find the value of t in seconds.

From a lift moving upwards with a uniform acceleration a = 2 ms^(–2) , a man throws a ball vertically upwards. with a velocity v = 12 ms^(-1) releative to lift the ball comes back to the man after a time t find. t

A lift is moving up with an acceleration of 3.675 m//sec_(2) . The weight of a man-

A ball is projected with a velocity of 20 m//s vertically. Find the distance travelled in first three second. (use g = 10 m//sec^(2) )

An open lift is moving upward with velocity 10 m//s. It has an upward acceleration of 2 m//s^2. A ball is projected upwards with velocity 20 m//s relative to ground. Find (a) time when ball again meets the lift (b) displacement of lift and ball at that instant. (c) distance travelled by the ball upto that instant. Take g=10 m//s^2

A lift, initially at rest on the ground, starts ascending with constant acceleration 8m//s^(2) After 0.5 seconds, a bolt falls off the floor of the lift. The velocity of the lift at the instant the bolt hits the ground is m/s .[Take g=10 m//s^(2) ]

A ball is thrown vertically upwards with a speed of 9.8 m/s from the ground. Draw the x-t, v-t and a-t graph for its motion.

A body is thrown up in a lift with a velocity u relative to the lift, and returns to the lift in time t . Show that the lift s upward acceleration is (2u-gt)/(t) .