A body falls from 80 m. Its time of descent is `[g = 10 ms^(-2)]`

A person in lift which ascents up with acceleration 10 ms^(-2) drops a stone from a height 10 m. The time of decent is [g=10ms^(-2)]

A particle is thrown upwards from ground. It experiences a constant resistance force which can produce a retardation of 2 ms^-2. The ratio of time of ascent to time of descent 13 ( g = 10 ms^-2 )

A body is dropped from a height 135 m. If after 3 sec acceleration due to gravity of earth cases to act then the further time of descent is (g=10 "m/s"^2)

A body is projected at angle 30° to horizontal with a velocity 50 ms^(-1) . Its time of flight is (g=10 m//s^2 )

A body is droped from a height 122.5 m. If its stopped after 3 seconds and again released the further time of descent is (g=9.8 "m/s"^2)

A body is projected horizontally from a height of 78.4 m with a velocity 10 ms^(-1) . Its velocity after 3 seconds is [g = 10 ms^(-2) ] (Take direction of projection on veci and vertically upward direction on j)

The potential energy of a projectile at its maximum height is equal to its kinetic energy there. If the velocity of projection is 20 ms^(-1) , its time of flight is (g=10 ms^(-2) )

A body falls freely from a height of 125m (g = 10 m//s^2) after 2 sec gravity ceases to act Find the time taken by it to reach the ground?

A body is projected down from height of 60 m with a velocity 10 ms ^(-1) at angle 30^(@) to horizontal. The time of flight of the body is [g = 10 ms ^(-2)]

An object of mass 10 kg falls from rest through a vertical distance of 10 m and acquires a velocity of 10 ms^(-1) . The work done by the push of air on the object is (g = 10 ms^(-2) )