Ratio of kinetic energy to potential energy of an oscillator when it is at distance `1//N` times of amplitude from mean positions in

The ration of kinetic energy to the potential energy of a particle executing SHM at a distance equal to half its amplitude , the distance being measured from its equilibrium position is

The ratio of the kinetic to potential energy of a particle in SHM, when its displacement is one-half the amplitude, is

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

The total energy of a particle in SHM is E. Its kinetic energy at half the amplitude from mean position will be

A particle is executing simple harmonic motion with amplitude A. When the ratio of its kinetic energy to the potential energy is (1)/(4) , its displacement from its mean position is

Assertion: In a simpleharmonic motion the kinetic and potential energy becomes equal when the displacement is (1)/(sqrt(2)) time the amplitude Reason: is SHM kinetic energy is zero when potential energy is maximum

The ratio of the K.E. and P.E. possessed by a body executing S.H.M. when it is at a distance of 1/n of its amplitude from the mean position, is

For any S.H.M., amplitude is 6 cm . If instantaneous potential energy is half the total energy then distance of particle from its mean position is

Ratio of kinetic energy at mean position to potential energy at A/2 of a particle performing SHM