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 kinetic energy and the potential energy of a particle executing SHM are equal The ratio of its displacement and amplitude will be

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

Acceleration of a particle, executing SHM, at it’s mean position is

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

The P.E. of a particle executing SHM at a distance x from its equilibrium position 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 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

When the potential energy of a particle executing simple harmonic motion is one-fourth of its maximum value during the oscillation, the displacement of the particle from the equilibrium position in terms of its amplitude a is

The acceleration of a particle executing S.H.M, when it is at its mean position is

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