Like pretty much all waves, sound can transfer energy.
Shorter wavelengths are more focusable/localizable which is why ultrasonics is used. You can transfer more energy across a smaller area. Try drilling a hole with a super loud 20 HZ subwoofer–it’s not practical (wavelength is about 17m).
Transfer enough energy to a material and you will cause it to break–that’s why we drop bombs on buildings, and throw bullets at people to destroy them.
Like pretty much all waves, sound can transfer energy.
Shorter wavelengths are more focusable/localizable which is why ultrasonics is used. You can transfer more energy across a smaller area. Try drilling a hole with a super loud 20 HZ subwoofer–it’s not practical (wavelength is about 17m).
Transfer enough energy to a material and you will cause it to break–that’s why we drop bombs on buildings, and throw bullets at people to destroy them.
Like pretty much all waves, sound can transfer energy.
Shorter wavelengths are more focusable/localizable which is why ultrasonics is used. You can transfer more energy across a smaller area. Try drilling a hole with a super loud 20 HZ subwoofer–it’s not practical (wavelength is about 17m).
Transfer enough energy to a material and you will cause it to break–that’s why we drop bombs on buildings, and throw bullets at people to destroy them.
Like pretty much all waves, sound can transfer energy.
Shorter wavelengths are more focusable/localizable which is why ultrasonics is used. You can transfer more energy across a smaller area. Try drilling a hole with a super loud 20 HZ subwoofer–it’s not practical (wavelength is about 17m).
Transfer enough energy to a material and you will cause it to break–that’s why we drop bombs on buildings, and throw bullets at people to destroy them.
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