From 00230e7140e094c7413f79426749cb778cae0197 Mon Sep 17 00:00:00 2001
From: Christoph Grueninger <christoph.grueninger@iws.uni-stuttgart.de>
Date: Wed, 22 Feb 2012 16:44:40 +0000
Subject: [PATCH] Fixed last remaining Doxygen errors as far as I see.

git-svn-id: svn://svn.iws.uni-stuttgart.de/DUMUX/dumux/trunk@7871 2fb0f335-1f38-0410-981e-8018bf24f1b0
---
 dumux/material/fluidsystems/1pfluidsystem.hh               | 4 ++--
 dumux/material/fluidsystems/2pimmisciblefluidsystem.hh     | 4 ++--
 dumux/material/fluidsystems/basefluidsystem.hh             | 4 ++--
 dumux/material/fluidsystems/h2on2liquidphasefluidsystem.hh | 2 +-
 dumux/material/fluidsystems/spe5fluidsystem.hh             | 6 +++---
 5 files changed, 10 insertions(+), 10 deletions(-)

diff --git a/dumux/material/fluidsystems/1pfluidsystem.hh b/dumux/material/fluidsystems/1pfluidsystem.hh
index 6328972c4e..b243eebc73 100644
--- a/dumux/material/fluidsystems/1pfluidsystem.hh
+++ b/dumux/material/fluidsystems/1pfluidsystem.hh
@@ -298,11 +298,11 @@ public:
      * Molecular diffusion of a compoent \f$\kappa\f$ is caused by a
      * gradient of the chemical potential and follows the law
      *
-     * \f[ J = - D \mathbf{grad} mu_\kappa \f]
+     * \f[ J = - D \mathbf{\grad} \mu_\kappa \f]
      *
      * where \f$\mu_\kappa\f$ is the component's chemical potential,
      * \f$D\f$ is the diffusion coefficient and \f$J\f$ is the
-     * diffusive flux. \f$mu_\kappa\f$ is connected to the component's
+     * diffusive flux. \f$\mu_\kappa\f$ is connected to the component's
      * fugacity \f$f_\kappa\f$ by the relation
      *
      * \f[ \mu_\kappa = R T_\alpha \mathrm{ln} \frac{f_\kappa}{p_\alpha} \f]
diff --git a/dumux/material/fluidsystems/2pimmisciblefluidsystem.hh b/dumux/material/fluidsystems/2pimmisciblefluidsystem.hh
index 437ae592f8..8294df10a4 100644
--- a/dumux/material/fluidsystems/2pimmisciblefluidsystem.hh
+++ b/dumux/material/fluidsystems/2pimmisciblefluidsystem.hh
@@ -331,11 +331,11 @@ public:
      * Molecular diffusion of a compoent \f$\kappa\f$ is caused by a
      * gradient of the chemical potential and follows the law
      *
-     * \f[ J = - D \mathbf{grad} mu_\kappa \f]
+     * \f[ J = - D \mathbf{\grad} \mu_\kappa \f]
      *
      * where \f$\mu_\kappa\f$ is the component's chemical potential,
      * \f$D\f$ is the diffusion coefficient and \f$J\f$ is the
-     * diffusive flux. \f$mu_\kappa\f$ is connected to the component's
+     * diffusive flux. \f$\mu_\kappa\f$ is connected to the component's
      * fugacity \f$f_\kappa\f$ by the relation
      *
      * \f[ \mu_\kappa = R T_\alpha \mathrm{ln} \frac{f_\kappa}{p_\alpha} \f]
diff --git a/dumux/material/fluidsystems/basefluidsystem.hh b/dumux/material/fluidsystems/basefluidsystem.hh
index be1dd04230..afa62d2c2b 100644
--- a/dumux/material/fluidsystems/basefluidsystem.hh
+++ b/dumux/material/fluidsystems/basefluidsystem.hh
@@ -89,11 +89,11 @@ public:
      * Molecular diffusion of a compoent \f$\kappa\f$ is caused by a
      * gradient of the chemical potential and follows the law
      *
-     * \f[ J = - D \mathbf{grad} mu_\kappa \f]
+     * \f[ J = - D \mathbf{\grad} \mu_\kappa \f]
      *
      * where \f$\mu_\kappa\f$ is the component's chemical potential,
      * \f$D\f$ is the diffusion coefficient and \f$J\f$ is the
-     * diffusive flux. \f$mu_\kappa\f$ is connected to the component's
+     * diffusive flux. \f$\mu_\kappa\f$ is connected to the component's
      * fugacity \f$f_\kappa\f$ by the relation
      *
      * \f[ \mu_\kappa = R T_\alpha \mathrm{ln} \frac{f_\kappa}{p_\alpha} \f]
diff --git a/dumux/material/fluidsystems/h2on2liquidphasefluidsystem.hh b/dumux/material/fluidsystems/h2on2liquidphasefluidsystem.hh
index 4886050a0c..cf026bb819 100644
--- a/dumux/material/fluidsystems/h2on2liquidphasefluidsystem.hh
+++ b/dumux/material/fluidsystems/h2on2liquidphasefluidsystem.hh
@@ -458,7 +458,7 @@ public:
      * Molecular diffusion of a compoent \f$\kappa\f$ is caused by a
      * gradient of the chemical potential and follows the law
      *
-     * \f[ J = - D \mathbf{grad} mu_\kappa \f]
+     * \f[ J = - D \mathbf{\grad} \mu_\kappa \f]
      *
      * where \f$\mu_\kappa\f$ is the component's chemical potential,
      * \f$D\f$ is the diffusion coefficient and \f$J\f$ is the
diff --git a/dumux/material/fluidsystems/spe5fluidsystem.hh b/dumux/material/fluidsystems/spe5fluidsystem.hh
index 74aabc8867..49b0753cae 100644
--- a/dumux/material/fluidsystems/spe5fluidsystem.hh
+++ b/dumux/material/fluidsystems/spe5fluidsystem.hh
@@ -441,11 +441,11 @@ public:
      * Molecular diffusion of a compoent \f$\kappa\f$ is caused by a
      * gradient of the chemical potential and follows the law
      *
-     * \f[ J = - D \grad mu_\kappa \f]
+     * \f[ J = - D \grad \mu_\kappa \f]
      *
-     * where \f$\mu_\kappa\\f$ is the component's chemical potential,
+     * where \f$\mu_\kappa\f$ is the component's chemical potential,
      * \f$D\f$ is the diffusion coefficient and \f$J\f$ is the
-     * diffusive flux. \f$mu_\kappa\f$ is connected to the component's
+     * diffusive flux. \f$\mu_\kappa\f$ is connected to the component's
      * fugacity \f$f_\kappa\f$ by the relation
      *
      * \f[ \mu_\kappa = R T_\alpha \mathrm{ln} \frac{f_\kappa}{p_\alpha} \f]
-- 
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