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

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

A particle of mass 200 gm, performs S.H.M ofamplitude 0.1 m and period 3.14 sec.. Its PE when it is at a distance of 0.03 m from the mean position is

The acceleration of a particle performing a linear S.H.M. is 16 cm//s^(2) , when it is at a distance of 4 cm from the mean position. The period of S.H.M. is

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

When a particle executing a linear S.H.M. moves from its extreme position to the mean position, its

A particle executing S.H.M. starts from the mean position. Its phase, when it reaches the extreme position, is

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

The amplitude and the periodic time of a S.H.M. are 5 cm and 6 sec respectively. At a distance of 2.5 cm away from the mean position, the phase will be

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