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A student is blowing against the mouthpiece of a 668mm flute (open at both ends) causing it to resonate. (The air inside and outside the flute is 24.5°C)

1) what is the speed of the sound in the flute?

2) what is the fundamental frequency of the note produced?

3) what is the wavelength of the sound wave?

User Moonsoo Jeong
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1 Answer

24 votes
24 votes

Answer:

a) v = 345.5 m / s, b) f = 183.8 Hz, c) λ = 1,336 m

Step-by-step explanation:

a) the speed of sound depends on the density of the medium and this depends on the temperature, therefore

v =
image

where v₀ is the speed of sound at 0ºC v₀ = 331 m / s

v = 331
image

v = 345.5 m / s

c) In the exercise they indicate that the flute is a tube with the two ends open, so that at each end there is a belly, the resonance is

λ / 2 = L

λ = 2L

λ = 2 0.668

λ = 1,336 m

b) let's apply the relationship between speed, wavelength and frequency

v = λ f

f = v /λ

f = 345.5 / 1.336

f = 183.8 Hz

User Che
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