(a) What length of pipe open at both ends has a fundamental frequency of 3.75 102...
(a) What length of pipe open at both ends has a fundamental frequency of 3.75 102 Hz?
Find the first overtone.
lpipe = .457 Incorrect: m
fovertone = 750 Correct: Hz
(b) If the one end of this pipe is now closed, what is the new fundamental frequency?
Find the first overtone.
ffundamental = 750 Incorrect: Hz
fovertone = 615 Incorrect: Hz
(c) If the pipe is open at one end only, how many harmonics are possible in the normal hearing range from 20 to 20000 Hz?
n =
Homework Answers
here,
a)
speed of sound , v = 343 m/s
let the wavelength be lamda
frequency , f = 375 Hz
lamda= v/f
lamda = 343 / 375
lamda = 0.915 m
length of pipe , l= lamda/2 = 0.46 m
b)
new wavelength ,W' = 4*L
W' = 1.83 m
new fundamental frequency , f' = c/w' = 187.5 Hz
the new fundamental frequency is 187.5 Hz
wavelength of overtone , w = l/0.75
w = 0.61 m
frequency of overtone , fo = 343/0.61
fo = 559.24 Hz
c)
number of harmonices , n = 20000/187.5
n = 106.67 = 106
the number of harmonics are 106
Add Answer to:
(a) What length of pipe open at both ends has a fundamental
frequency of 3.75 102...
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A certain organ pipe, open at both ends, produces a fundamental frequency of 290 Hz in air. If the pipe is filled with helium at the same temperature, what fundamental frequency f_He will it produce? Take the molar mass of air to be 28.8 g/mol and the molar mass of helium to be 4.00 g/mol Express your answer in hertz. Now consider a pipe that is stopped (i.e., closed at one end) but still has a fundamental frequency of 290...
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What should be the length of an organ pipe, open at both ends, if the fundamental frequency is to be 264.8 Hz? Assume the initial temperature is 20 degree C. What is the fundamental frequency of the organ pipe of part (a) if the temperature drops to 0.0 degree C?
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