[cig-commits] r3852 -
short/3D/PyLith/branches/pylith-0.8/doc/userguide/tutorials/tutorialbm5
willic3 at geodynamics.org
willic3 at geodynamics.org
Thu Jun 22 11:25:46 PDT 2006
Author: willic3
Date: 2006-06-22 11:25:45 -0700 (Thu, 22 Jun 2006)
New Revision: 3852
Modified:
short/3D/PyLith/branches/pylith-0.8/doc/userguide/tutorials/tutorialbm5/tutorialbm5.xml
Log:
A few slight changes.
Modified: short/3D/PyLith/branches/pylith-0.8/doc/userguide/tutorials/tutorialbm5/tutorialbm5.xml
===================================================================
--- short/3D/PyLith/branches/pylith-0.8/doc/userguide/tutorials/tutorialbm5/tutorialbm5.xml 2006-06-22 18:04:05 UTC (rev 3851)
+++ short/3D/PyLith/branches/pylith-0.8/doc/userguide/tutorials/tutorialbm5/tutorialbm5.xml 2006-06-22 18:25:45 UTC (rev 3852)
@@ -32,7 +32,7 @@
10<superscript>18</superscript> Pa-s.
</para>
<para>
- The reverse fault dips at an angle 45 degrees. The top of the
+ The reverse fault dips at an angle of 45 degrees. The top of the
fault sits at x = 4 km with the bottom of the fault at x = 20
km. The fault surface is confined to the region 0 km ≤ y
≤ 16 km and -16 km ≤ z ≤ 0 km. The slip distribution
@@ -363,7 +363,7 @@
<filename>bm5.coord</filename>. The file
<filename>bm5.fault.par</filename> contains the polynomial
coefficients for this benchmark problem. Run
- <command>faultcalc</command>to get the
+ <command>faultcalc</command> to get the
<filename>bm5.split</filename> file that PyLith needs as
input.
</para>
@@ -391,6 +391,10 @@
<application>NetGen</application>, the boundary condition
file <filename>bm5.bc</filename> will no longer be
correct and you will have to generate one yourself.
+ Note that it is also possible that a different version
+ of <application>NetGen</application> may provide a slightly
+ different mesh, which would also be incompatible with the
+ provided boundary conditions.
</para>
</warning>
</listitem>
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