3. A resonant sound wave is set up in an air-filled tube that is 0.53 m long and closed at one end. A. Use drawings to represent at least two possible standing waves in this tube. Calculate the resonant frequency for each of your possible standing waves, assuming the seea or sound in air is 350 m/s.

3. A resonant sound wave is set up in an air-filled tube that is 0.53 m long and closed at one end. A. Use drawings to represent at least two possible standing waves in this tube. Calculate the resonant frequency for each of your possible standing waves, assuming the seea or sound in air is 350 m/s.

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Please help! Thank you!

3. A resonant sound wave is set up in an air-filled tube that is 0.53 m long and closed at one
end.
A. Use drawings to represent at least two possible standing waves in this tube.
a Calculate the resonant frequency for each of your possible standing waves, assuming the
seea or sound in air is 350 m/s.

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