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 perfonning S.H.M. is

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

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

The acceleration of a particle executing S.H.M, when it is at its mean 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 simple harmonic motion is (x- displacement)

A particle of mass m executing S.H.M. about its mean position. The total energy of the particle at given instant is

Deduce the expressions for the kinetic energy and potential energy of a particle executing S.H.M. Hence obtain the expression for total energy of a particle performing S.H.M and show that the total energy is conserved. State the factors on which total energy depends.

The kinetic energy of a particle executing S.H.M. is 16 J when it is at its mean position. If the mass of the particle is 0.32 kg , then what is the maximum velocity of the particle

The average acceleration of a particle performing SHM over one complete oscillation is