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Question:
In simple harmonic motion, the total mechanical energy of the given system is \( E \). If the mass of the oscillating particle \( P \) is doubled, then the new energy of the system for the same amplitude is:
In simple harmonic motion, the total mechanical energy of the given system is \( E \). If the mass of the oscillating particle \( P \) is doubled, then the new energy of the system for the same amplitude is:
Updated On: Nov 24, 2024
- \( \frac{E}{\sqrt{2}} \)
- E
- \( E\sqrt{2} \)
- \( 2E \)
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The Correct Option is B
Solution and Explanation
In a simple harmonic oscillator, the total mechanical energy (T.E.) is given by:
\[ T.E. = \frac{1}{2}kA^2, \] where \( k \) is the spring constant and \( A \) is the amplitude of oscillation.
- Since the amplitude \( A \) remains the same, the total mechanical energy (T.E.) will also remain the same, as it depends only on \( k \) and \( A \), not on the mass \( m \) of the oscillating particle.
Thus, even if the mass of \( P \) is doubled, the total mechanical energy \( E \) will remain unchanged.
Answer: E
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