Without any electronic equipment, piano tuners can tell if two strings are vibrating at almost but not quite the same frequency. They do it by listening for 'beats' - pulsations in loudness.
How does this work? If you add two sine waves of slightly different frequencies, say sin(ωt) and sin(ω't), they will add up and be loud for a while, but then drift out of synch and cancel out for a while. Then they'll drift back into synch and get loud again, etc.
There's even a formula for this:
sin(ωt) + sin(ω't) = 2 sin((ω+ω')t/2) cos((ω-ω')t/2)
We get a sine wave whose frequency is the average (ω+ω')/2, slowly pulsing because it's multiplied by a cosine wave with the low frequency (ω-ω')/2.
I got the animated gif from here:
https://ophysics.com/waves10.html
If you go there and choose ω = 500 hertz and ω = 510 hertz, you can hear nice pulsations at 10 hertz: that is, ten times a second.
John Carlos Baez /
npub17u…8pd6m
2024-01-02 11:50:17
Author Public Key
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2024-01-02 11:50:17Event JSON
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"content": "Without any electronic equipment, piano tuners can tell if two strings are vibrating at almost but not quite the same frequency. They do it by listening for 'beats' - pulsations in loudness. \n\nHow does this work? If you add two sine waves of slightly different frequencies, say sin(ωt) and sin(ω't), they will add up and be loud for a while, but then drift out of synch and cancel out for a while. Then they'll drift back into synch and get loud again, etc.\n\nThere's even a formula for this:\n\nsin(ωt) + sin(ω't) = 2 sin((ω+ω')t/2) cos((ω-ω')t/2)\n\nWe get a sine wave whose frequency is the average (ω+ω')/2, slowly pulsing because it's multiplied by a cosine wave with the low frequency (ω-ω')/2.\n\nI got the animated gif from here:\n\nhttps://ophysics.com/waves10.html\n\nIf you go there and choose ω = 500 hertz and ω = 510 hertz, you can hear nice pulsations at 10 hertz: that is, ten times a second.\n\nhttps://media.mathstodon.xyz/media_attachments/files/111/686/130/277/701/472/original/43b47285409ab5ef.mp4",
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