r45855 - /packages/rheolef/trunk/debian/control
saramito-guest at users.alioth.debian.org
saramito-guest at users.alioth.debian.org
Wed May 8 14:52:46 UTC 2013
Author: saramito-guest
Date: Wed May 8 14:52:46 2013
New Revision: 45855
URL: http://svn.debian.org/wsvn/debian-science/?sc=1&rev=45855
Log:
control: spelling error fix
Modified:
packages/rheolef/trunk/debian/control
Modified: packages/rheolef/trunk/debian/control
URL: http://svn.debian.org/wsvn/debian-science/packages/rheolef/trunk/debian/control?rev=45855&op=diff
==============================================================================
--- packages/rheolef/trunk/debian/control (original)
+++ packages/rheolef/trunk/debian/control Wed May 8 14:52:46 2013
@@ -34,7 +34,7 @@
Most basically, containers cover the classic graph data structure for
sparse matrix formats and finite element meshes. At a higher level of
abstraction, they can handle approximate finite element spaces, discrete
- fields. Flexible and powerfull expressions are used to specify bilinear forms.
+ fields. Flexible and powerful expressions are used to specify bilinear forms.
.
Current applications include:
* massively distributed memory finite element environment, based on MPI;
@@ -74,7 +74,7 @@
Most basically, containers cover the classic graph data structure for
sparse matrix formats and finite element meshes. At a higher level of
abstraction, they can handle approximate finite element spaces, discrete
- fields. Flexible and powerfull expressions are used to specify bilinear forms.
+ fields. Flexible and powerful expressions are used to specify bilinear forms.
.
Current applications include:
* massively distributed memory finite element environment, based on MPI;
@@ -108,7 +108,7 @@
Most basically, containers cover the classic graph data structure for
sparse matrix formats and finite element meshes. At a higher level of
abstraction, they can handle approximate finite element spaces, discrete
- fields. Flexible and powerfull expressions are used to specify bilinear forms.
+ fields. Flexible and powerful expressions are used to specify bilinear forms.
.
Current applications include:
* massively distributed memory finite element environment, based on MPI;
@@ -144,7 +144,7 @@
Most basically, containers cover the classic graph data structure for
sparse matrix formats and finite element meshes. At a higher level of
abstraction, they can handle approximate finite element spaces, discrete
- fields. Flexible and powerfull expressions are used to specify bilinear forms.
+ fields. Flexible and powerful expressions are used to specify bilinear forms.
.
Current applications include:
* massively distributed memory finite element environment, based on MPI;
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