A parachutist, after bailing out, falls `50 m` without friction, When the parachute opens, it decelerates at `2 ms^(-2)`. He reaches the ground with a speed of `3 m s^(-1)`. At what height did he bail out?

A parachutist after bailing out falls 50m without friction. When parachute opens, it decelerates at 2m//s^2 . He reaches the ground with a speed of 3m//s . At what height, did the bail out?

A parachutist after bailing out falls 52 m without friction. When the parachute opens, she decelerates at 2.1 ms^(-2) & reaches the ground with a speed of 2.9 ms^(-1) . (i) How long has been the parachutist in the air? (ii) At what height did the fall begin?

A parachutist drops freely from an aeroplane for 10 seconds before the parachute opens out.Then he descends with a net retardation of 2m//sec^(2) . His velocity whe he reaches the ground is 8m/sec.Find the height at which he get out of the aeroplane?

A ball is thrown upward with speed 10 m/s from the top to the tower reaches the ground with a speed 20 m/s. The height of the tower is [Take g=10m//s^(2) ]

A parachutist drops first freely form an areophone for 10 s and then his parachut opens out. Now he descends with a net retardtion of 2.5 ms^(-2) If the balil out of the plane at a height of 2495 m and g=10 ms^(-2) , his velocity on reaching the ground will be .

A parachutist drops freely from helicopter for 20 s before the parachute opends out. Then he descends with retardation of 40 m/s^2 . The height of the helicopter from the ground level is 2500m. When he drops out, his velocity on reaching the ground will be

A man approaches a vertical plane mirror at speed of 2 m//s. At what rate does he approach his image?

A person of mass 70kg jumps from a stationary helicopter with the parachute open. As he falls through 50m height, he gains a speed of 20ms^-1 . The work done by the viscous air drag is

A drop of mass 2.0 g falls from a cliff of height 1.0 km It hits the ground with a speed of 50.0 ms^(-1). The work done by the resistive force is

A particle of mass 2m is dropped from a height 80 m above the ground. At the same time another particle of mass m is thrown vertically upwards from the ground with a speed of 40 m/s. If they collide head-on completely inelastically, the time taken for the combined mass to reach the ground, in units of second is: