Concept explainers
The natural frequency of the system by using Rayleigh’s method.
Answer to Problem 4.41P
The natural frequency of the system is
Explanation of Solution
Write the expression for equality condition of potential energy and kinetic energy for Rayleigh’s criterion if the system is vibrating at natural frequency.
Here, the kinetic energy of the system is
For simple harmonic motion potential energy is at maximum and kinetic energy is zero when the displacement of the system is at maximum.
Substitute
Write the expression of equation of motion for simple harmonic motion.
Here, the displacement of the pendulum with respect to time is
Differentiate equation (IV) with respect to
Substitute
Write the expression of moment of inertia of reverse pendulum.
Here, the moment of inertia is
Write the expression of maximum kinetic energy of the system.
Substitute
Write the expression of potential energy of the system.
Here, the angle of deviation is
Since the angle is very small so
Substitute
Substitute
Write the expression for fundamental natural frequency of the system in terms of frequency of the vibration of the cantilever beam.
Substitute
Substitute
Conclusion:
The natural frequency of the system is
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Chapter 4 Solutions
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