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[ctsim.git] / doc / ctsim-concepts.tex

diff --git a/doc/ctsim-concepts.tex b/doc/ctsim-concepts.tex
index 047620acaa031146121fc9fffe7e52f755cc42b8..9653a120ead80b7343711c9699b6a87b9dc600f9 100644 (file)
--- a/doc/ctsim-concepts.tex
+++ b/doc/ctsim-concepts.tex
@@ -1,6 +1,6 @@
 \chapter{Concepts}\index{Concepts}%
 \setheader{{\it CHAPTER \thechapter}}{}{}{}{}{{\it CHAPTER \thechapter}}%
-\setfooter{\thepage}{}{}{}{\manver}{\thepage}%
+\ctsimfooter%
 
 \section{Overview}\label{conceptoverview}\index{Concepts,Overview}%
 The operation of \ctsim\ begins with the phantom object.  A
@@ -276,9 +276,8 @@ For equiangular geometry, the detectors are spaced around a circle
 covering an angular distance of
 \latexonly{$2\,\alpha$.}\latexignore{\emph{2 \alpha}.} The dotted
 circle in
-\begin{figure}
-\image{10cm;0cm}{equiangular.eps}
-\caption{Equiangluar geometry}
+\begin{figure}\label{equiangularfig}
+\image{10cm;0cm}{equiangular.eps} \caption{Equiangular geometry}
 \end{figure}
 figure 2.4 indicates the positions of the detectors in this case.
 
@@ -287,11 +286,11 @@ line. The length of the line depends upon
 \latexonly{$\alpha$}\latexignore{\emph{alpha}} and the \emph{focal
 length}. It is calculated as \latexonly{$4\,f \tan (\alpha / 2)$}
 \latexignore{\emph{4 x F x tan(\alpha/2)}}
-\begin{figure}
+\begin{figure}\label{equilinearfig}
 \image{10cm;0cm}{equilinear.eps}
 \caption{Equilinear geometry}
 \end{figure}
-An example of the this geometry is in figure 2.5.
+This geometry is shown in figure~2.5.
 
 
 \subsubsection{Examples of Geometry Settings}