--- manual/s_examples/rotating_tank/tank.tex	2005/06/15 14:54:58	1.13
+++ manual/s_examples/rotating_tank/tank.tex	2006/06/27 19:08:23	1.15
@@ -1,4 +1,4 @@
-% $Header: /home/ubuntu/mnt/e9_copy/manual/s_examples/rotating_tank/tank.tex,v 1.13 2005/06/15 14:54:58 afe Exp $
+% $Header: /home/ubuntu/mnt/e9_copy/manual/s_examples/rotating_tank/tank.tex,v 1.15 2006/06/27 19:08:23 molod Exp $
 % $Name:  $
 
 \bodytext{bgcolor="#FFFFFFFF"}
@@ -20,21 +20,17 @@
 <!-- CMIREDIR:eg-tank: -->
 \end{rawhtml}
 
-This section illustrates an example of MITgcm simulating a laboratory
-experiment on much smaller scales than those commonly considered in  
-geophysical
-fluid dynamics.
-
 \subsection{Overview}
 \label{www:tutorials}
                                                                           
 This example configuration demonstrates using the MITgcm to simulate a
 laboratory demonstration using a differentially heated rotating
 annulus of water.  The simulation is configured for a laboratory scale
-on a $3^{\circ}$ $\times$ 1cm cyclindrical grid with twenty-nine
+on a $3^{\circ}\times1\mathrm{cm}$ cyclindrical grid with twenty-nine
 vertical levels of 0.5cm each.  This is a typical laboratory setup for
 illustration principles of GFD, as well as for a laboratory data
-assimilation project.
+assimilation project. The files for this experiment can be found in
+the verification directory under rotating\_tank.
 \\
 
 example illustration from GFD lab here