How fast should a man weighing 600 N run so that his kinetic energy is 750 J ?( g=10 m `s^(-2)`)

A ball of mass 20 g falls from a height of 10 m and after striking the ground.It rebounds from the ground to a height of 8 m . (a) Calculate: (i)The kinetic energy of the ball just before striking the ground ,and (ii)The loss in kinetic energy of the ball on striking the ground,and (ii)the loss in kinetic energy of the ball on striking the ground. (b)What happens to the loss in kinetic energy in part(ii) ? Take g=10 m s^(-2) Neglect air friction .

A body of mass 5 kg is taken a height 5 m to 10 m .Find the increase in its potential energy (g=10 m s^(-2) )

A metre stick weighing 600 g, is displaced through an angle of 60^@ in vertical plane as shown. The change in its potential energy is ( g = 10 m s^(-2) )

A body of mass 2 kg is thrown up vertically with kinetic energy of 490 J . If g = 9.8m//s^(2) , the height at which the kinetic energy of the body becomes half of the original value, is

An object is moving so that its kinetic energy is 150 J and the magnitude of its momentum is 30.0 kg-m/s. With what velocity is it travelling?

What is the kinetic energy of a 45 kg rickshaw moving at 10 m/s?

Calculate kinetic energy of 4g N_(2) at -13^(@)C .

Calculate the height through which a body of mass 0.5 kg is lifted if the energy spent in doing so is 10j . Take g = 10 m s^(-2)

A ball is released from the bottom of a tank filled with water up to 2m. On reaching the top its kinetic energy is found to be 16 J. Mass of the ball is 2 kg. Ignoring the viscosity, let W_(1) be the work done by upthrust and W_(2) the work done by gravity, then (g = 10 m//s^(2))

A ball is thrown upward from edge of a cliff with an intial velocity of 6 m/s. How fast is it moving 1/2 s later ? (g=10 m/s^(2))