http://atomix.app.uib.no/index.php?action=history&feed=atom&title=File%3AAnisotropy.pngFile:Anisotropy.png - Revision history2026-04-28T14:46:09ZRevision history for this page on the wikiMediaWiki 1.44.2http://atomix.app.uib.no/index.php?title=File:Anisotropy.png&diff=4269&oldid=prevCynthiaBluteau: Example of how turbulence anisotropy influenced the spectral shapes. This instrument was located very close to the bed (0.15 m) in a shallow waterway less than 2 m deep, which results in the vertical velocity's inertial subrange being reduced by the flattening of the spectra at wavenumbers of 10 cpm (0.1m scales). Strong stratification is another mechanism that shortens the inertial subrange at the lower wavenumbers. The wavenumber at which i...2022-07-05T18:21:38Z<p>Example of how <a href="/Velocity_inertial_subrange_model#anisotropy" title="Velocity inertial subrange model"> turbulence anisotropy</a> influenced the spectral shapes. This instrument was located very close to the bed (0.15 m) in a shallow waterway less than 2 m deep, which results in the vertical velocity's inertial subrange being reduced by the flattening of the spectra at wavenumbers of 10 cpm (0.1m scales). Strong stratification is another mechanism that shortens the inertial subrange at the lower wavenumbers. The wavenumber at which i...</p>
<p><b>New page</b></p><div>== Summary ==<br />
Example of how [[Velocity inertial subrange model#anisotropy| turbulence anisotropy]] influenced the spectral shapes. This instrument was located very close to the bed (0.15 m) in a shallow waterway less than 2 m deep, which results in the vertical velocity's inertial subrange being reduced by the flattening of the spectra at wavenumbers of 10 cpm (0.1m scales). Strong stratification is another mechanism that shortens the inertial subrange at the lower wavenumbers. The wavenumber at which its impact is felt is approximately <math>L_o/3</math> where <math>L_o</math> is the Ozmidov length scale.</div>CynthiaBluteau