A bungee jumper of mass 70 ??, ties one end of an elastic rope of length 65 ? and stiffness 1.75 ??/? to a bridge and the other end to himself and jumps from the bridge, as shown in the figure below. Assuming the bridge to be rigid, determine the vibratory motion of the jumper about his static equilibrium position.
A bungee jumper of mass 70 ??, ties one end of an elastic rope of length 65 ? and stiffness 1.75 ??/? to a bridge and the other end to himself and jumps from the bridge, as shown in the figure below. Assuming the bridge to be rigid, determine the vibratory motion of the jumper about his static equilibrium position.
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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A bungee jumper of mass 70 ??, ties one end of an elastic rope of length 65 ? and stiffness 1.75 ??/? to a bridge and the other end to himself and jumps from the bridge, as shown in the figure below. Assuming the bridge to be rigid, determine the vibratory motion of the jumper about his static equilibrium position.
Transcribed Image Text:Un-stretched
length of 65 m
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Write the differential equation of motion for the system shown in the figure below. Determine the expression of the critical damping coefficient. Find the frequency of damped oscillation.
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b
E
m
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