Turbulence spectrum

This is the common definition for Turbulence spectrum, but other definitions maybe discussed within the wiki.

{{#default_form:DefineConcept}} {{#arraymap:|,|x||}}

Spectra in the frequency domain are converted into the spatial domain via Taylor's Frozen Turbulence hypothesis. Convert time derivatives to spatial gradients along the direction of profiling using

${\displaystyle \frac{\partial }{\partial x}=\frac{1}{U_P}\frac{\partial }{\partial t}}$ .

Convert frequency spectra into wavenumber spectra using

${\displaystyle k=f/U_P}$ and ${\displaystyle \mathrm{\Psi }(k)=U_P\mathrm{\Psi }(f)}$ .

If a measured quantity, say ${\displaystyle \zeta }$, has a spectrum, ${\displaystyle \mathrm{\Psi }(k)}$, then this spectrum provides the wavenumber distribution of the variance of ${\displaystyle \zeta }$. For example, ${\displaystyle \overline{{\zeta }^2}={\displaystyle \underset{0}{\overset{\mathrm{\infty }}{\int }}}\mathrm{\Psi }(k)\mathrm{d}k}$

• Missing the y-axi variables
• Lowest frequency and wavenumber resolvable