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What allows us to distinguish the same note on different instruments?
Wavelength is proportional to frequency
Must be the lowest possible frequency at which a string could vibrate to form a standing wave
Plucking string v bowing on string
It is the lowest possible frequency at which a string could vibrate to form a standing wave pattern
The combined waveform of interfering waves equals the sum of displacements of individual waves
Vibration of the string creates a fundamental frequency, which emits a pitch
Sound is the only type of mechanical wave
Timbre
What is NEVER true of a wave?
Wavelength is proportional to frequency
Must be the lowest possible frequency at which a string could vibrate to form a standing wave
Plucking string v bowing on string
It is the lowest possible frequency at which a string could vibrate to form a standing wave pattern
The combined waveform of interfering waves equals the sum of displacements of individual waves
Vibration of the string creates a fundamental frequency, which emits a pitch
Sound is the only type of mechanical wave
Timbre
What is not a factor in determining pitch from a string instrument?
Wavelength is proportional to frequency
Must be the lowest possible frequency at which a string could vibrate to form a standing wave
Plucking string v bowing on string
It is the lowest possible frequency at which a string could vibrate to form a standing wave pattern
The combined waveform of interfering waves equals the sum of displacements of individual waves
Vibration of the string creates a fundamental frequency, which emits a pitch
Sound is the only type of mechanical wave
Timbre
What is not true of a mechanical wave?
Wavelength is proportional to frequency
Must be the lowest possible frequency at which a string could vibrate to form a standing wave
Plucking string v bowing on string
It is the lowest possible frequency at which a string could vibrate to form a standing wave pattern
The combined waveform of interfering waves equals the sum of displacements of individual waves
Vibration of the string creates a fundamental frequency, which emits a pitch
Sound is the only type of mechanical wave
Timbre
The principle of superposition states:
Wavelength is proportional to frequency
Must be the lowest possible frequency at which a string could vibrate to form a standing wave
Plucking string v bowing on string
It is the lowest possible frequency at which a string could vibrate to form a standing wave pattern
The combined waveform of interfering waves equals the sum of displacements of individual waves
Vibration of the string creates a fundamental frequency, which emits a pitch
Sound is the only type of mechanical wave
Timbre
Which is not true of a resonant frequency?
Wavelength is proportional to frequency
Must be the lowest possible frequency at which a string could vibrate to form a standing wave
Plucking string v bowing on string
It is the lowest possible frequency at which a string could vibrate to form a standing wave pattern
The combined waveform of interfering waves equals the sum of displacements of individual waves
Vibration of the string creates a fundamental frequency, which emits a pitch
Sound is the only type of mechanical wave
Timbre
What is unique of a fundamental frequency?
Wavelength is proportional to frequency
Must be the lowest possible frequency at which a string could vibrate to form a standing wave
Plucking string v bowing on string
It is the lowest possible frequency at which a string could vibrate to form a standing wave pattern
The combined waveform of interfering waves equals the sum of displacements of individual waves
Vibration of the string creates a fundamental frequency, which emits a pitch
Sound is the only type of mechanical wave
Timbre
A string produces sound when:
Wavelength is proportional to frequency
Must be the lowest possible frequency at which a string could vibrate to form a standing wave
Plucking string v bowing on string
It is the lowest possible frequency at which a string could vibrate to form a standing wave pattern
The combined waveform of interfering waves equals the sum of displacements of individual waves
Vibration of the string creates a fundamental frequency, which emits a pitch
Sound is the only type of mechanical wave
Timbre
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