The Physics of Sound Waves in Musical Instruments

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SUMMARY

The discussion centers on the nature of sound waves produced by musical instruments, specifically addressing whether a single note is a single sound wave or a group of coherent sound waves. It is established that the sound from an instrument consists of a fundamental frequency (f_n) and its harmonics (n*f_n), with the fundamental frequency being the dominant amplitude that defines the perceived pitch. For instance, the E string of a guitar produces a fundamental frequency of 82.41 Hz, accompanied by harmonics that contribute to the overall sound quality but do not alter the pitch. The relationship between harmonics, resonance, and wave coherence is also explored, indicating that these concepts are interconnected.

PREREQUISITES
  • Understanding of fundamental frequency and harmonics in sound waves
  • Basic knowledge of wave coherence and resonance
  • Familiarity with musical acoustics and instrument sound production
  • Concept of amplitude and its effect on sound perception
NEXT STEPS
  • Research the principles of wave coherence in acoustics
  • Explore the role of harmonics in sound quality and timbre
  • Study resonance effects in different musical instruments
  • Learn about sound wave packet theory and its applications in music
USEFUL FOR

Musicians, acoustics researchers, sound engineers, and anyone interested in the physics of sound production in musical instruments.

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Is the sound of one note generated by a musical instrument an example of a single sound wave or a group of in-phase (coherent) sound waves?
 
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In practice, just about all sounds are actually wave packets (a group) with harmonics etc.
But the ideal of a single note is a single wave.
 
In short, the sound you hear from a musical instrument is composed of it's ground frequency (f_n), this being the frequency with the largest amplitude, which defines the pitch that you hear, and all of it's harmonics (n*f_n) where n is a whole positive number.

For example, if you pick the E string of a guitar, you will hear an E tone in the second octave (82.41 Hz) Because this is the ground frequency and thus the frequency with the largest amplitude. The harmonics are also present, but they are all of a smaller amplitude and do not alter the pitch of the tone since their amplitudes are smaller (decreasing as n increases i think). The harmonics do however make the note seem more "unclean" or "noisy" than if it was only the E tone present, without the harmonics. I do think however that some instruments play their notes with more or less "harmonics pollution".
 
Do harmonics relate to wave coherence? In other words, are the sound waves in this "harmonic wave packet" said to be coherent in physics?
 
Harmonics, resonance, coherence -- are these related?
 

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