Author: bugman
Date: Thu Apr 26 15:51:45 2012
New Revision: 15833
URL: http://svn.gna.org/viewcvs/relax?rev=15833&view=rev
Log:
Fix for the chi2 references in the maths chapter of the relax user manual.
Modified:
1.3/docs/latex/maths.tex
Modified: 1.3/docs/latex/maths.tex
URL:
http://svn.gna.org/viewcvs/relax/1.3/docs/latex/maths.tex?rev=15833&r1=15832&r2=15833&view=diff
==============================================================================
--- 1.3/docs/latex/maths.tex (original)
+++ 1.3/docs/latex/maths.tex Thu Apr 26 15:51:45 2012
@@ -24,7 +24,7 @@
% The function value.
\subsection{The function value}
-At the simplest level all minimisation techniques require at least a
function which will supply a single value for different parameter values
$\theta$. For the modelling of NMR relaxation data this function is the
chi-squared equation~\eqref{eq: chi-squared} on page~\pageref{eq:
chi-squared}. For certain algorithms, such a simplex
minimisation\index{minimisation techniques!simplex}, this single value
suffices.
+At the simplest level all minimisation techniques require at least a
function which will supply a single value for different parameter values
$\theta$. For the modelling of NMR relaxation data this function is the
chi-squared equation~\eqref{eq: maths: chi-squared} on page~\pageref{eq:
maths: chi-squared}. For certain algorithms, such a simplex
minimisation\index{minimisation techniques!simplex}, this single value
suffices.
% The gradient.
@@ -259,7 +259,7 @@
\subsection{The chi-squared value}
\end{htmlonly}
-As was presented in Equation~\eqref{eq: chi-squared} on page~\pageref{eq:
chi-squared} the $\chi^2$ value is
+The $\chi^2$ value is defined as
\begin{equation} \label{eq: maths: chi-squared}
\chi^2(\theta) = \sum_{i=1}^n \frac{(\Ri - \Ri(\theta))^2}{\sigma_i^2},
\end{equation}
r15833 - /1.3/docs/latex/maths.tex