Difference between revisions of "Wave Forces on a Body"
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<center><math> U = \omega A \, </math></center> | <center><math> U = \omega A \, </math></center> | ||
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<center><math> R_e = \frac{U\ell}{\nu} = \frac{\omega A \ell}{\nu} \, </math></center> | <center><math> R_e = \frac{U\ell}{\nu} = \frac{\omega A \ell}{\nu} \, </math></center> | ||
| − | <center><math> K_C = \frac{UT}{\ell} = \frac{A\omega T}{\ell} = 2 \pi \frac{A}{\ell} \, /math></center> | + | |
| + | <center><math> K_C = \frac{UT}{\ell} = \frac{A\omega T}{\ell} = 2 \pi \frac{A}{\ell} \, </math></center> | ||
| + | |||
{| border="0" align="center" | {| border="0" align="center" | ||
Revision as of 12:10, 15 July 2007
Wave Forces on a Body
| [math]\displaystyle{ D_F = \frac{F}{\rho g A \ell^2} = f \left( \frac{}{} \right. }[/math] | [math]\displaystyle{ \underbrace{\frac{A}{\lambda}} \, }[/math], | [math]\displaystyle{ \underbrace{\frac{\ell}{\lambda}} \, }[/math], | [math]\displaystyle{ R_e \, }[/math], | [math]\displaystyle{ \frac{h}{\lambda} \, }[/math], | roughness, | [math]\displaystyle{ \ldots \left. \frac{}{} \right) \, }[/math] |
| Wave | Diffraction | |||||
| steepness | parameter |
