Equation of Harmonic Wave/Wavelength and Frequency
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Theorem
Let $\phi$ be a harmonic wave which is propagated along the $x$-axis in the positive direction with constant velocity $c$.
Then the disturbance of $\phi$ at point $x$ and time $t$ can be expressed using the equation:
- $\map \phi {x, t} = a \map \cos {2 \pi \paren {\dfrac x \lambda - \nu t} }$
where:
- $\lambda$ is the wavelength of $\phi$
- $\nu$ is the frequency of $\phi$.
Proof
| \(\ds \map \phi {x, t}\) | \(=\) | \(\ds a \map \cos {2 \pi \paren {\dfrac x \lambda - \dfrac t \tau} }\) | Equation of Harmonic Wave in terms of Wavelength and Period: $\tau$ is the period of $\phi$ | |||||||||||
| \(\ds \) | \(=\) | \(\ds a \map \cos {2 \pi \paren {\dfrac x \lambda - \dfrac 1 \tau t} }\) | rearranging | |||||||||||
| \(\ds \) | \(=\) | \(\ds a \map \cos {2 \pi \paren {\dfrac x \lambda - \nu t} }\) | Frequency of Harmonic Wave |
$\blacksquare$
Sources
- 1955: C.A. Coulson: Waves (7th ed.) ... (previous) ... (next): Chapter $\text {I}$: The Equation of Wave Motion: $\S 3$: $(9)$