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How do eardrums convey sound? Don’t the various frequencies interfere?

A single eardrum can create the rich symphony of sounds that we hear thanks to the ability of the cochlea, in the inner ear, to deconstruct complex sound waves

How can a vibrating eardrum convey the rich symphony that we hear? Why don’t the various frequencies interfere with each other?

James Stone
University of Sheffield, UK

The clue to the answer is in the second part of the question, which mentions “various frequencies”.

In 1822, French mathematician and philosopher Joseph Fourier effectively proved that every sound can be represented as the sum of sinusoidal waves, each with a different frequency.

A sinusoidal wave is a pure tone and sounds like a single note on a whistle. As an example, if five sinusoidal waves with different frequencies are added together, they produce a complex wave. It is obvious this consists of five sinusoidal waves because that is how it was made.

Once we know this, we should be unsurprised to learn that a part of the inner ear called the cochlea essentially separates out the various sinusoidal waves in any complex sound.

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