In musical acoustics, when a vibrating string is shortened to half its length, what happens to the pitch?

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Multiple Choice

In musical acoustics, when a vibrating string is shortened to half its length, what happens to the pitch?

Explanation:
Shortening a vibrating string while keeping its tension and material the same raises its fundamental frequency, because the standing-wave pattern must fit into a shorter length. For a string fixed at both ends, the fundamental wavelength is twice the length (λ1 = 2L). Since the wave speed v on the string depends on tension and linear density (v = sqrt(T/μ)) and frequency f = v/λ, halving the length halves the wavelength and doubles the frequency. That higher frequency corresponds to a pitch one octave higher (twice as high).

Shortening a vibrating string while keeping its tension and material the same raises its fundamental frequency, because the standing-wave pattern must fit into a shorter length. For a string fixed at both ends, the fundamental wavelength is twice the length (λ1 = 2L). Since the wave speed v on the string depends on tension and linear density (v = sqrt(T/μ)) and frequency f = v/λ, halving the length halves the wavelength and doubles the frequency. That higher frequency corresponds to a pitch one octave higher (twice as high).

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