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 projected with a velocity 50 "ms"^(-1) . Distance travelled in 6th second is [g=10 ms^(-2)]

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

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

An object Is vertically projected with an initial velocity of 20ms^(-1) .Calculate the distance travelled by the object in 3 seconds.(g= 10ms^(-2) )

A body is projected with a velocity 60 ms ^(-1) at 30^(@) to horizontal . Its initial velocity vector 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]:-

A body is projected at an angle 30° with a velocity 42 ms^(-1) Its maximum height is

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))

A body is projected up with a velocity 50 "ms"^(-1) after one second if accelaration due to gravity disappears then body

A boy is standing on an open truck. The truck is moving with acceleration 2ms^(-2) on a horizontal road. When the speed of the truck is 10 ms^(-1) and reaches to an pole , boy projected a ball with velocity 10ms^(-1) in a vertically upward direction relative to himself (take g = 10 ms^(-2) ). Neglect the height of boy and truck. The distance of the ball from the pole where ball land is