The total energy of a particle performing S.H | vedclass

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(B) The total energy $E$ of a particle performing Simple Harmonic Motion $(S.H.M.)$ is given by the formula:$E = \frac{1}{2} K a^2$Where:$K$ is the fo

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$K, a$

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(B) The total energy $E$ of a particle performing Simple Harmonic Motion $(S.H.M.)$ is given by the formula:$E = \frac{1}{2} K a^2$Where:$K$ is the force constant (or spring constant),$a$ is the amplitude of the oscillation.Since the total energy is the sum of kinetic and potential energy at any point,it remains constant throughout the motion and is independent of the instantaneous displacement $x$.Therefore,the total energy depends only on the force constant $K$ and the amplitude $a$.

The total energy of a particle performing $S.H.M.$ depends on:

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