1. Consider the experimental setup shown below. The length of the string between the string vibrator and the pulley is L = 1.00m. The linear density of the string is μ = 0.0065 kg/m. The string vibrator can oscillate at any frequency. The hanging mass is 6.00 kg. String vibrator m μ m dm dx constant Frictionless pulley m a) What are the wavelength and frequency of the n = 6 mode? ^6= f6= ✔Hz b) The oscillation of the string oscillates the air with the same frequency. What is the wavelength of the sound produced if the speed of sound is 343 m/s? ^s = Hanging mass
1. Consider the experimental setup shown below. The length of the string between the string vibrator and the pulley is L = 1.00m. The linear density of the string is μ = 0.0065 kg/m. The string vibrator can oscillate at any frequency. The hanging mass is 6.00 kg. String vibrator m μ m dm dx constant Frictionless pulley m a) What are the wavelength and frequency of the n = 6 mode? ^6= f6= ✔Hz b) The oscillation of the string oscillates the air with the same frequency. What is the wavelength of the sound produced if the speed of sound is 343 m/s? ^s = Hanging mass
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Chapter1: Units, Trigonometry. And Vectors
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Transcribed Image Text:1. Consider the experimental setup shown below. The length of the string between the string vibrator
and the pulley is L = 1.00m. The linear density of the string is μ = 0.0065 kg/m. The string vibrator can
oscillate at any frequency. The hanging mass is 6.00 kg.
String
vibrator
m
Hz
μ=
m
dm
dx
= constant
a) What are the wavelength and frequency of the n = 6 mode?
^6=
f6 =
b) The oscillation of the string oscillates the air with the same frequency. What is the wavelength of
the sound produced if the speed of sound is 343 m/s?
^s =
Frictionless
pulley
Hanging
mass
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