For Simple Harmonic Oscillator, the potential energy is equal is equal to kinetic energy

For simple Harmonic Oscillator, the potential energy is equal to kinetic energy

For simple Harmonic Oscillator, the potential energy is equal to kinetic energy

If the total energy of a simple harmonic oscillator is E, then its potential energy, when it is halfway to its endpoint will be

If the total energy of a simple harmonic oscillator is E, then its potential energy, when it is halfway to its endpoint will be

Find the average kinetic energy of a simple harmonic oscillator if its total energy is 10 joule and minimum potential energy is 2 joule.

In a simple harmonic motion (i) the maximum potential energy equal the maximum kinetic energy (ii) the minimum potential energy equals the minimum kinetic energy (iii) the minimum potential energy equals the maximum kinetic energy (iv) the maximum potential energy equals the minimum kinetic energy

When a particle oscillates in simple harmonic motion, both in potential energy and kinetic energy vary sinusoidally with time. If v be the frequency of the motion of the particle, the frequency associated with the kinetic energy is :

When a particle oscillates in simple harmonic motion, both in potential energy and kinetic energy vary sinusoidally with time. If v be the frequency of the motion of the particle, the frequency associated with the kinetic energy is :

A simple harmonic oscillator has an amplitude A. The potential energy is one-fourth of the total energy, when the displacement is,

The magnitude of acceleration of a simple harmonic oscillator when its kinetic energy and potential energy are same, if amplitude of acceleration is a_0 is