/[MITgcm]/manual/s_examples/global_oce_latlon/climatalogical_ogcm.tex
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revision 1.9 by adcroft, Thu May 16 15:54:37 2002 UTC revision 1.10 by adcroft, Wed Nov 20 14:09:32 2002 UTC
# Line 212  The Laplacian dissipation coefficient, $ Line 212  The Laplacian dissipation coefficient, $
212  This value is chosen to yield a Munk layer width \cite{adcroft:95},  This value is chosen to yield a Munk layer width \cite{adcroft:95},
213  \begin{eqnarray}  \begin{eqnarray}
214  \label{EQ:eg-global-munk_layer}  \label{EQ:eg-global-munk_layer}
215  M_{w} = \pi ( \frac { A_{h} }{ \beta } )^{\frac{1}{3}}  && M_{w} = \pi ( \frac { A_{h} }{ \beta } )^{\frac{1}{3}}
216  \end{eqnarray}  \end{eqnarray}
217    
218  \noindent  of $\approx 600$km. This is greater than the model  \noindent  of $\approx 600$km. This is greater than the model
# Line 226  $\delta t_{v}=40~{\rm minutes}$ for mome Line 226  $\delta t_{v}=40~{\rm minutes}$ for mome
226  parameter to the horizontal Laplacian friction \cite{adcroft:95}  parameter to the horizontal Laplacian friction \cite{adcroft:95}
227  \begin{eqnarray}  \begin{eqnarray}
228  \label{EQ:eg-global-laplacian_stability}  \label{EQ:eg-global-laplacian_stability}
229  S_{l} = 4 \frac{A_{h} \delta t_{v}}{{\Delta x}^2}  && S_{l} = 4 \frac{A_{h} \delta t_{v}}{{\Delta x}^2}
230  \end{eqnarray}  \end{eqnarray}
231    
232  \noindent evaluates to 0.16 at a latitude of $\phi=80^{\circ}$, which is below the  \noindent evaluates to 0.16 at a latitude of $\phi=80^{\circ}$, which is below the
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