#4) EmMa created a miniature flute for her squirrels and Jay starts to play it (again, talented squirrels, they are going to form a band I think). The flute is open at both ends (open/open pipe). The length of this miniature flute is 0.080 m. (A) What is the longest possible wavelength such that interfering sound waves that can form a standing wave inside the pipe? (B) What is the frequency associated with this standing wave if the speed of sound is 343 m/s?
#4) EmMa created a miniature flute for her squirrels and Jay starts to play it (again, talented squirrels, they are going to form a band I think). The flute is open at both ends (open/open pipe). The length of this miniature flute is 0.080 m. (A) What is the longest possible wavelength such that interfering sound waves that can form a standing wave inside the pipe? (B) What is the frequency associated with this standing wave if the speed of sound is 343 m/s?
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Transcribed Image Text:created a miniature flute for her squirrels and
#4) EMMa
Jay starts to play it (again, talented squirrels, they are going to form a
band I think). The flute is open at both ends (open/open pipe). The length of
this miniature flute is 0.080 m.
(A) What is the longest possible wavelength such that interfering
sound waves that can form a standing wave inside the pipe?
(B) What is the frequency associated with this standing wave if the
speed of sound is 343 m/s?
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