--- manual/s_examples/rotating_tank/tank.tex	2004/07/26 16:21:15	1.3
+++ manual/s_examples/rotating_tank/tank.tex	2004/07/26 18:41:32	1.5
@@ -1,4 +1,4 @@
-% $Header: /home/ubuntu/mnt/e9_copy/manual/s_examples/rotating_tank/tank.tex,v 1.3 2004/07/26 16:21:15 afe Exp $
+% $Header: /home/ubuntu/mnt/e9_copy/manual/s_examples/rotating_tank/tank.tex,v 1.5 2004/07/26 18:41:32 afe Exp $
 % $Name:  $
 
 \bodytext{bgcolor="#FFFFFFFF"}
@@ -13,22 +13,28 @@
 %{\large May 2001}
 %\end{center}
 
-This is the first in a series of tutorials describing
-example MITgcm numerical experiments. The example experiments 
-include both straightforward examples of idealized geophysical 
-fluid simulations and more involved cases encompassing
-large scale modeling and
-automatic differentiation. Both hydrostatic and non-hydrostatic 
-experiments are presented, as well as experiments employing
-Cartesian, spherical-polar and cube-sphere coordinate systems.
-These ``case study'' documents include information describing
-the experimental configuration and detailed information on how to
-configure the MITgcm code and input files for each experiment.
-
 \section{A Rotating Tank in Cylindrical Coordinates}
 \label{sect:eg-tank}
 \label{www:tutorials}
 
+This section illustrates an example of MITgcm simulating a laboratory
+experiment on much smaller scales than those common to geophysical
+fluid dynamics.
+
+\subsection{Overview}
+\label{www:tutorials}
+                                                                                
+                                                                                
+This example experiment demonstrates using the MITgcm to simulate
+a laboratory experiment with a rotating tank of water with an ice
+bucket in the center. The simulation is configured for a laboratory
+scale on a
+$3^{\circ}$ $\times$ 20cm
+cyclindrical grid with twenty-nine vertical
+levels.
+\\
+
+
 
 This example experiment demonstrates using the MITgcm to simulate
 a Barotropic, wind-forced, ocean gyre circulation. The experiment 
@@ -187,18 +193,19 @@
 \label{www:tutorials}
 \label{SEC:eg-baro-code_config}
 
-The model configuration for this experiment resides under the 
-directory {\it verification/exp0/}.  The experiment files 
+The model configuration for this experiment resides under the
+directory {\it verification/rotatingi\_tank/}.  The experiment files
 \begin{itemize}
 \item {\it input/data}
 \item {\it input/data.pkg}
 \item {\it input/eedata},
-\item {\it input/windx.sin\_y},
-\item {\it input/topog.box},
+\item {\it input/bathyPol.bin},
+\item {\it input/thetaPol.bin},
 \item {\it code/CPP\_EEOPTIONS.h}
 \item {\it code/CPP\_OPTIONS.h},
-\item {\it code/SIZE.h}. 
+\item {\it code/SIZE.h}.
 \end{itemize}
+
 contain the code customizations and parameter settings for this 
 experiments. Below we describe the customizations
 to these files associated with this experiment.
@@ -312,7 +319,7 @@
 notes.
 
 \begin{small}
-\input{part3/case_studies/barotropic_gyre/input/data}
+\input{part3/case_studies/rotating_tank/input/data}
 \end{small}
 
 \subsubsection{File {\it input/data.pkg}}