Get the period and frequency of a simple harmonic vibration from: 1. Pendulum Oscillation a) Analysis based on Energy (kinetic energy and potential energy) Instruction : For energy analysis, derive the total energy of the system (Potential Energy + Kinetic e a function of time. Since the total energy of the system is constant, its derivative with to time is ZERO
Get the period and frequency of a simple harmonic vibration from: 1. Pendulum Oscillation a) Analysis based on Energy (kinetic energy and potential energy) Instruction : For energy analysis, derive the total energy of the system (Potential Energy + Kinetic e a function of time. Since the total energy of the system is constant, its derivative with to time is ZERO
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Transcribed Image Text:Get the period and frequency of a simple harmonic vibration from:
1. Pendulum Oscillation
a) Analysis based on Energy (kinetic energy and potential energy)
Instruction :
For energy analysis, derive the total energy of the system (Potential Energy + Kinetic energy) as
a function of time. Since the total energy of the system is constant, its derivative with respect
to time is ZERO
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