Total energy of a particle performing S H M is 25 J. when particle is passing through the mean position, its velocity is (Given mass of the particle is 0.5 kg)

The potential energy of a particle perfonning S.H.M. is

The velocity of a particle performing simple harmonic motion, when it passes through its mean position i

The velocity of the particle performing simple harmonic motion, when it passes through the mean position is

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

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

Show that total energy of the particle performing linear S.H.M. is constant.

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

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

The total energy of a particle of mass 200 gm. performing S.H.M is 10^( -3) J , if the amplitude is 5cm. The maximum velocity is

W denotes to the total energy of a particle in linear S.H.M. At a point, equidistant from the mean position and extremity of the path of the particle