1) A transverse sinusoidal wave is generated at one end of a long, horizontal string by an ocillator moving up and down through a total distance of 1.00 cm. The motion is continuous at a frequency of 120 Hz. The string has a linear density of 120 g m.'and is kept at a tension of F = 90.0 N. a. Calculate the maximum rate of energy transfer along the string b. What is the transverse displacement at this point of maximum energy transfer? C. What is the minimum rate of energy transfer along the string? d. What is the transverse displacement at this point of minimum energy transfer?

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1) A transverse sinusoidal wave is generated at one end of a long, horizontal string by an
oscillator moving up and down through a total distance of 1.00 cm. The motion is continuous
at a frequency of 120 Hz. The string has a linear density of 120 g m.' and is kept at a tension
of F = 90.0 N.
a. Calculate the maximum rate of energy transfer along the string
b. What is the transverse displacement at this point of maximum energy transfer?
C. What is the minimum rate of energy transfer along the string?
d. What is the transverse displacement at this point of minimum energy transfer?
Transcribed Image Text:1) A transverse sinusoidal wave is generated at one end of a long, horizontal string by an oscillator moving up and down through a total distance of 1.00 cm. The motion is continuous at a frequency of 120 Hz. The string has a linear density of 120 g m.' and is kept at a tension of F = 90.0 N. a. Calculate the maximum rate of energy transfer along the string b. What is the transverse displacement at this point of maximum energy transfer? C. What is the minimum rate of energy transfer along the string? d. What is the transverse displacement at this point of minimum energy transfer?
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