The potential energy of a particle perfonning S.H.M. is

At the mean position, the potential energy of a particle performing S.H.M. is

The potential energy of a particle executing S.H.M. is 2.5 J, when its displacement is half of amplitude. The total energy of the particle will be

The distance of the body from mean position, where the kinetic energy of a particle perfonning S.H.M. of amplitude 8 mm, is three times its potential energy is

The total mechanical energy of a particle performing S.H.M. is 150 J with amplitude 1 m and force constant 200 N/m . Then minimum P.E.

The potential energy of a particle executing SHM in its rest position is 15 J . The average kinetic energy of the particle during one oscillation is 5 J . The total energy of the particle is

The potential Energy of a particle performing linear S.H.M is 0.1 nx2 joule. If mass of the particle is 20 g, Find the frequency of S.H.M.

The total energy of a particle executing S.H.M. is proportional to

The total energy of a particle executing S.H.M. is 80 J . What is the potential energy when the particle is at a distance of 3/4 of amplitude from the mean position