/[MITgcm]/manual/s_examples/baroclinic_gyre/fourlayer.tex
ViewVC logotype

Diff of /manual/s_examples/baroclinic_gyre/fourlayer.tex

Parent Directory Parent Directory | Revision Log Revision Log | View Revision Graph Revision Graph | View Patch Patch

revision 1.16 by edhill, Mon Sep 15 19:39:04 2003 UTC revision 1.20 by edhill, Sat Apr 8 01:50:50 2006 UTC
# Line 1  Line 1 
1  % $Header$  % $Header$
2  % $Name$  % $Name$
3    
4  \section{Four Layer Baroclinic Ocean Gyre In Spherical Coordinates}  \section[Baroclinic Gyre MITgcm Example]{Four Layer Baroclinic Ocean Gyre In Spherical Coordinates}
5  \label{www:tutorials}  \label{www:tutorials}
6  \label{sect:eg-fourlayer}  \label{sect:eg-fourlayer}
7    \begin{rawhtml}
8    <!-- CMIREDIR:eg-fourlayer: -->
9    \end{rawhtml}
10    
11  \bodytext{bgcolor="#FFFFFFFF"}  \bodytext{bgcolor="#FFFFFFFF"}
12    
# Line 104  non-linear, we use $\theta$ to represent Line 107  non-linear, we use $\theta$ to represent
107  the quantity that is carried in the model core equations.  the quantity that is carried in the model core equations.
108    
109  \begin{figure}  \begin{figure}
110  \begin{center}  %% \begin{center}
111   \resizebox{7.5in}{5.5in}{  %%  \resizebox{7.5in}{5.5in}{
112     \includegraphics*[0.2in,0.7in][10.5in,10.5in]  %%    \includegraphics*[0.2in,0.7in][10.5in,10.5in]
113     {part3/case_studies/fourlayer_gyre/simulation_config.eps} }  %%    {part3/case_studies/fourlayer_gyre/simulation_config.eps} }
114  \end{center}  %% \end{center}
115    \centerline{
116      \scalefig{.95}
117      \epsfbox{part3/case_studies/fourlayer_gyre/simulation_config.eps}
118    }
119  \caption{Schematic of simulation domain and wind-stress forcing function  \caption{Schematic of simulation domain and wind-stress forcing function
120  for the four-layer gyre numerical experiment. The domain is enclosed by solid  for the four-layer gyre numerical experiment. The domain is enclosed by solid
121  walls at $0^{\circ}$~E, $60^{\circ}$~E, $0^{\circ}$~N and $60^{\circ}$~N.  walls at $0^{\circ}$~E, $60^{\circ}$~E, $0^{\circ}$~N and $60^{\circ}$~N.
# Line 376  are Line 383  are
383  \item Line 4,  \item Line 4,
384  \begin{verbatim} tRef=20.,10.,8.,6., \end{verbatim}  \begin{verbatim} tRef=20.,10.,8.,6., \end{verbatim}
385  this line sets the initial and reference values of potential  this line sets the initial and reference values of potential
386  temperature at each model level in units of $^{\circ}$C.  The entries  temperature at each model level in units of $^{\circ}\mathrm{C}$.  The entries
387  are ordered from surface to depth. For each depth level the initial  are ordered from surface to depth. For each depth level the initial
388  and reference profiles will be uniform in $x$ and $y$. The values  and reference profiles will be uniform in $x$ and $y$. The values
389  specified here are read into the variable \varlink{tRef}{tRef} in the  specified here are read into the variable \varlink{tRef}{tRef} in the
Legend:
Removed from v.1.16  
changed lines
  Added in v.1.20
  ViewVC Help
Powered by ViewVC 1.1.22