What function does the sign wave represent in sound and light?

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SUMMARY

The discussion centers on the application of sine waves in representing sound and light phenomena. It establishes that sine waves are fundamental in modeling periodic functions, including sound and light waves, despite their non-polar nature. The mathematical expression F(t) = D0 + Asin(τ + t) is highlighted, where D0 represents the offset, A is the amplitude, τ is the phase shift, and t is the variable. The conversation emphasizes the relevance of Fourier Series in demonstrating how any periodic function can be expressed as a sum of sine functions.

PREREQUISITES
  • Understanding of sine waves and their properties
  • Basic knowledge of periodic functions
  • Familiarity with Fourier Series
  • Concept of amplitude and phase shift in wave functions
NEXT STEPS
  • Study the mathematical foundations of Fourier Series
  • Explore the applications of sine waves in sound engineering
  • Investigate the role of sine waves in light wave propagation
  • Learn about the implications of AC voltage in electronics
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Students of physics, audio engineers, electrical engineers, and anyone interested in the mathematical modeling of sound and light waves.

Cyberice
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I know that in electronics the sine-wave applies to AC voltage because it is constantly going from negative to positive, and back to negative again causing an analog wave of the rising and collapsing voltage and sometimes magnetic fields. But sound and light are supposed to create waves by just vibrating. You can't have a negative/positive vibration, and the medium in which it is traveling is not ionizing back and forth switching polarities to for a variation to be shown (which would need to be true for a sine wave to be formed). So why would they use a analog negative and positive wave to represent its function?
 
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The sine function or sums of sins can be used to model all periododic functions. (Even square waves)

Consider the full sine expresion

F(t) = D0 + Asin( τ + t)

Here D0 is the offset
A is the amplitude
τ it the phase shift
t is the variable.


If D0 > A then the function will never be negitive. In electronis this could represent a AC ripple voltage riding on a DC potential.

Since light "waves" are periodic in nature they can be represented by sine waves. Look up information on Fourier Series to learn how ANY periodic function can be repersented as a sum of sine functions.
 
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