(A):If a particle is thrown upward then distance travelled in last second of upward journey is independent of the velocity of projection.
(R ):The slope of tangent to path always measure the magnitude of velocity at that point

Assertion : If a particle is thrown upwards, then distance travelled in last second of upward journey is independent in last second of upward journey is independent of the velocity of projection. Reason : In last second, distance travelled is 4.9m . (Taken, g=9.8 ms^(-2) )

A body is thrown up with a velocity 29.23 "ms"^(-1) distance travelled in last second of upward motion is

A ball is thrown vertically upward. What is the magnitude of velocity at the highest point ?

A particle is thrown with any velocity vertically upward, the distance travelled by the particle in first second of its decent is

If a ball is thrown vertically upwards with speed u , the distance covered during the last t second of its ascent is

A particle is throws vertically upwards from the surface of earth and it reaches to a maximum height equal to the radius of earth. The radio of the velocity of projection to the escape velocity on the surface of earth is

A body is projected vertically upward with speed 40m/s. The distance travelled by body in the last second of upward journey is [take g=9.8m/s^(2) and neglect of air resistance]:-

The distance travelled by a body during last second of its upward journey is d when the body is projected with certain velocity vertically up. If the velocity of projection is doubled, the distance travelled by the body during last second of its upward journey is

A body is projected with a velocity 60 ms^(-1) vertically upwards the distance travelled in last second of its motion is [g=10 ms^(-1)]

A body is thrown up with a velocity 100ms^(-1) . It travels 5 m in the last second of upward journey if the same body thrown up with velocity 200ms^(-1) , how much distance (in metre) will it travel in the last second of its upward journey? (g=10ms^(-2))