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The total energy of a simple harmonic oscillator is proportional to
Options
(a) square root of displacement
(b) velocity
(c) frequency
(d) square of amplitude
Correct Answer:
square of amplitude
Explanation:
The total energy of a simple harmonic oscillator
(1/2). mω²A² (or) (1/2). kA²
Therefore it is proportional to the square of the amplitude.
Related Questions: - A force of 10N is applied on a body for 3 sec and the corresponding displacement 6 m.
- The potential energy of a system increases if work is done
- A steady current is passing through a linear conductor of non-uniform cross-section.
- An engine pumps water continuously through a hose. Water leaves the hose
- Van der waals,equation of state is(p+a/v²)(V-b)=nRT. The dimensions of a and b
Topics: Oscillations
(58)
Subject: Physics
(2479)
Important MCQs Based on Medical Entrance Examinations To Improve Your NEET Score
- A force of 10N is applied on a body for 3 sec and the corresponding displacement 6 m.
- The potential energy of a system increases if work is done
- A steady current is passing through a linear conductor of non-uniform cross-section.
- An engine pumps water continuously through a hose. Water leaves the hose
- Van der waals,equation of state is(p+a/v²)(V-b)=nRT. The dimensions of a and b
Topics: Oscillations (58)
Subject: Physics (2479)
Important MCQs Based on Medical Entrance Examinations To Improve Your NEET Score
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