/[MITgcm]/manual/s_examples/rotating_tank/tank.tex

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-revision 1.3 by afe,
Mon Jul 26 16:21:15 2004 UTC
+revision 1.4 by afe,
Mon Jul 26 17:52:43 2004 UTC
 Line 13
  %{\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

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