A body is thrown up in a lift with a velocity `5ms^(-1)` relative to the lift and the time of flight is found to be 0.8 s. The acceleration with which the lift is moving up is `(g=10ms^(-2))`

When a body is thrown up in a lift with a velocity u relative to the lift, the time of flight is found to be t . The acceleration with which the lift is moving up is

When a body is thrown up in a lift with a velocity u relative to the lift, the time of flight is found to be t . The acceleration with which the lift is moving up is

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

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) .

A man of 60kg mass is in a lift. Find the apparent weight of the man when the lift is moving up with uniform speed( g=10ms^(-2))

A lift is moving up with acceleration a A person inside the ligt throws the ball upwards with a velocity u relativeto hand. a. What is the time of flight of the ball? b. What is the maximum height reached by the ball in the lift?

A lift is moving up with acceleration a A person inside the ligt throws the ball upwards with a velocity u relativeto hand. a. What is the time of flight of the ball? b. What is the maximum height reached by the ball in the lift?

A particle is thrown up inside a stationary lift of sufficient height. The time of flight is T. Now it is thrown again with same initial speed v_0 with respect to lift. At the time of second throw, lift is moving up with speed v_0 and uniform acceleration g upward (the acceleration due to gravity). The new time of flight is: