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When the frequency of the vibrations that produce the sound change. Higher frequencies -> higher pitch. OR if the source of the sound is moving towards or away from you -> Doppler effect.
It is the frequency of a sound that determines its pitch. The higher the frequency, the higher the pitch.
Higher the frequency higher the pitch.
A higher sampling frequency gives better sound reproduction. Up to the Nyquist frequency.
yes, the pitch of sound does, in fact, depend on the frequency of the sound wave.
because it makes sound
As it has a higher frequency than a car horn.. Pitch depends upon frequency....
the closer together the sound is the higher it is and vise verser
the pitch gets higher as you tighten
When the frequency of the vibrations that produce the sound change. Higher frequencies -> higher pitch. OR if the source of the sound is moving towards or away from you -> Doppler effect.
...frequency of sound is equal to the eigenfrequency (which depends on the shape of the guitar).
the frequency of a sound wave is higher if its wavelength is shorter
It is the frequency of a sound that determines its pitch. The higher the frequency, the higher the pitch.
Higher the frequency higher the pitch.
Higher the frequency higher the pitch.
A higher sampling frequency gives better sound reproduction. Up to the Nyquist frequency.
The frequency of a sound wave affects the pitch of a sound. A higher frequency sound wave produces a higher pitch sound. On a piano, the pitch A4 (A above "middle C") will produce a soundwave with a frequency of 440 Hz. The pitch A3 (A an octave below A4) will have a frequency of 220 Hz. The frequency of A5 (A an octave above A4) is 880Hz. "Midde C," or C4, has a frequency of approximately 262 Hz.