When the displacement of a simple harmonic oscillator is half of its amplitude, its potential energy is 3J. Its total energy is

When the displacement of a linear harmonic oscillator is 1//3 of its amplitude, the ratio of its total energy to its potential energy is

When displacement of a particle executing SHM is half of the amplitude,its potential energy is 5 J. Find the total energy of the particle in SHM,if potential energy at mean position is zero.

When the displacement of a particle executing simple harmonic motion is half its amplitude, the ratio of its kinetic energy to potential energy is

The average kinetic energy of a simple harmonic oscillator is 2 joule and its total energy is 5 joule. Its minimum potential energy is

When the displacement is half the amplitude, the ratio of potential energy to the total energy is

Assertion: If the amplitude of a simple harmonic oscillator is doubled, its total energy becomes double. Reason: The toal energy is directly proportional to the amplitude of vibration of the harmonic oscillator.

Find the displacement of a simple harmonic oscillator at which its P.E. is half of the maximum energy of the oscillator.

Find the displacement of a simple harmonic oscillator at which its PE is half of the maximum energy of the oscillator.

The potential energy of a simple harmonic oscillator of mass 2 kg in its mean position is 5 J. If its total energy is 9 J and its amplitude is 0.01 m, its time period would be

The total energy of simple harmonic oscillator is E and amplitude is 'A'. It the kinetic energy is 3E/4 without altering the amplitude. The displacement of the oscillator is