The pendulum consists of a uniform slender rod and a solid cylinder. The centre of gravity G of the pendulum is a distance L from the pin connection O. The radius of gyration of the pendulum about G is kG. The pendulum is displaced a small distance from its equilibrium position and then released. Take L=2.521 m (a) Give the differential equation that describes the motion by filling in the coefficient of θ (with at least 4 significant figures): the above equation is in one of the images. (b) What is the natural period of vibration of the pendulum (with at least 4 significant figure
The pendulum consists of a uniform slender rod and a solid cylinder. The centre of gravity G of the pendulum is a distance L from the pin connection O. The radius of gyration of the pendulum about G is kG. The pendulum is displaced a small distance from its equilibrium position and then released. Take L=2.521 m (a) Give the differential equation that describes the motion by filling in the coefficient of θ (with at least 4 significant figures): the above equation is in one of the images. (b) What is the natural period of vibration of the pendulum (with at least 4 significant figure
Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
ChapterMA: Math Assessment
Section: Chapter Questions
Problem 1.1MA
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The pendulum consists of a uniform slender rod and a solid cylinder. The centre of gravity G of the pendulum is a distance L from the pin connection O. The radius of gyration of the pendulum about G is kG. The pendulum is displaced a small distance from its equilibrium position and then released.
Take L=2.521 m
(a) Give the differential equation that describes the motion by filling in the coefficient of θ (with at least 4 significant figures):
the above equation is in one of the images.
(b) What is the natural period of vibration of the pendulum (with at least 4 significant figures):
Transcribed Image Text:L
G
Transcribed Image Text:e+
e = 0
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