A particle is performing S.H.M. Its total energy ie E When the displacement of the particle is half of its amplitude, its K.E. will be

The total energy of a simple pendulum is x. When the displacement is half of amplitude,its KE will be

For a particle performing a S.H.M. the potential and kinetic energies will be equal when the displacement of the particle is

A particle performing S.H.M., its velocity when the particle moves from mean to extreme position is

A body executing SHM has a total energy E . When its kinetic energy is 3E//4 , the displacement of the particle is (A is amplitude)

The total energy of the body excuting S.H.M. is E . Then the kinetic energy when the displacement is half of the amplitude, is

A particle executing SHM with an amplitude A. The displacement of the particle when its potential energy is half of its total energy is

The total energy of the body executing SHM is E. the, the kinetic energy when the displacement is half of the amplitude is

A particle is executing linear simple harmonic motion of amplitude 'A'. The fraction of the total energy is the kinetic when the displacement is half of the amplitude is

The graph between total energy and displacement of a particle performing S.H.M. is

The total meachanical energy of a particle executing simple harmonic motion is E when the displacement is half the amplitude is kinetic energy will be