Total energy of a particle executing S.H.M. is proportional to
(a) Square of the amplitude of the motion
(b) Frequency of oscillation
(c) Velocity in equilibrium position
(d) Displacement form equilibrium position

Question

Saurabh Koranglekar · Answer

Dear student The answer is option d Regards

Vikas TU · Answer

At the mean position, the total energy in simple harmonic motion is purely kinetic and at the extreme position, the total energy in simple harmonic motion is purely potential energy. At other positions, kinetic and potential energies are interconvertible and their sum is equal to 1/2 k a2.

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Total energy of a particle executing S.H.M. is proportional to (a) Square of the amplitude of the motion (b) Frequency of oscillation (c) Velocity in equilibrium position (d) Displacement form equilibrium position

Total energy of a particle executing S.H.M. is proportional to
(a) Square of the amplitude of the motion
(b) Frequency of oscillation
(c) Velocity in equilibrium position
(d) Displacement form equilibrium position

2 Answers

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Total energy of a particle executing S.H.M. is proportional to (a) Square of the amplitude of the motion (b) Frequency of oscillation (c) Velocity in equilibrium position (d) Displacement form equilibrium position

Total energy of a particle executing S.H.M. is proportional to (a) Square of the amplitude of the motion (b) Frequency of oscillation (c) Velocity in equilibrium position (d) Displacement form equilibrium position

2 Answers

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Total energy of a particle executing S.H.M. is proportional to
(a) Square of the amplitude of the motion
(b) Frequency of oscillation
(c) Velocity in equilibrium position
(d) Displacement form equilibrium position