Difference between revisions of "Template:Standard linear problem notation"
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equations (see [[Linear and Second-Order Wave Theory]]). | equations (see [[Linear and Second-Order Wave Theory]]). | ||
{{frequency definition}} | {{frequency definition}} | ||
| − | + | {{velocity potential in frequency domain}} | |
| − | + | The coordinate system is the standard Cartesian coordinate system | |
with the <math>z-</math>axis pointing vertically up. The water surface is at | with the <math>z-</math>axis pointing vertically up. The water surface is at | ||
<math>z=0</math> and the region of interest is | <math>z=0</math> and the region of interest is | ||
Latest revision as of 04:14, 20 August 2009
We assume small amplitude so that we can linearise all the equations (see Linear and Second-Order Wave Theory). We also assume that Frequency Domain Problem with frequency [math]\displaystyle{ \omega }[/math] and we assume that all variables are proportional to [math]\displaystyle{ \exp(-\mathrm{i}\omega t)\, }[/math] The water motion is represented by a velocity potential which is denoted by [math]\displaystyle{ \phi\, }[/math] so that
[math]\displaystyle{ \Phi(\mathbf{x},t) = \mathrm{Re} \left\{\phi(\mathbf{x},\omega)e^{-\mathrm{i} \omega t}\right\}. }[/math]
The coordinate system is the standard Cartesian coordinate system with the [math]\displaystyle{ z- }[/math]axis pointing vertically up. The water surface is at [math]\displaystyle{ z=0 }[/math] and the region of interest is [math]\displaystyle{ -h\lt z\lt 0 }[/math]. There is a body which occupies the region [math]\displaystyle{ \Omega }[/math] and we denote the wetted surface of the body by [math]\displaystyle{ \partial\Omega }[/math] We denote [math]\displaystyle{ \mathbf{r}=(x,y) }[/math] as the horizontal coordinate in two or three dimensions respectively and the Cartesian system we denote by [math]\displaystyle{ \mathbf{x} }[/math]. We assume that the bottom surface is of constant depth at [math]\displaystyle{ z=-h }[/math].
