The position of a damped oscillator as a function of time is shown in the figure. . 10 11 12 13 14 15 100 This function can be described by the x(t) Agecos(ut) formula, where Ag is the initial amplitude, y is the damping coefficient and is the angular frequency. What is the period of the oscillator? Please, notice that the function goes through a grid intersection point. und Tries 0/12 Determine the damping coefficient. A Tries 0/12
The position of a damped oscillator as a function of time is shown in the figure. . 10 11 12 13 14 15 100 This function can be described by the x(t) Agecos(ut) formula, where Ag is the initial amplitude, y is the damping coefficient and is the angular frequency. What is the period of the oscillator? Please, notice that the function goes through a grid intersection point. und Tries 0/12 Determine the damping coefficient. A Tries 0/12
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Transcribed Image Text:The position of a damped oscillator as a function of time is shown in the figure.
4
Determine the damping coefficient.
Stine A Tries 0/12
Til
7
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This function can be described by the x(t) = Age *cos(wot) formula, where A, is the initial amplitude, y is the damping coefficient and w is the angular
frequency.
What is the period of the oscillator? Please, notice that the function goes through a grid intersection point.
A
Tries 0/12
8 9 10 11 12 13 14 15
B445.
a
G
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