Question:
Average energy in one time period of a simple harmonic oscillator whose amplitude is A, angular velocity $\omega$ and mass m, is:
Average energy in one time period of a simple harmonic oscillator whose amplitude is A, angular velocity $\omega$ and mass m, is:
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In simple harmonic motion, the average energy is proportional to the square of the amplitude and angular velocity.
Updated On: Mar 30, 2025
- $\frac{1}{4} m \omega^2 A^2$
- $\frac{1}{2} m \omega^2 A^2$
- $m \omega^2 A^2$
- $\frac{1}{3} m \omega^2 A^2$
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The Correct Option is B
Solution and Explanation
The average energy in a simple harmonic oscillator is given by: \[ E = \frac{1}{2} m \omega^2 A^2 \] This is the correct expression for the average energy in the system over one full oscillation.
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