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-rw-r--r--macros/latex/contrib/tkz/tkz-euclide/doc/latex/TKZdoc-euclide-examples.tex2
1 files changed, 1 insertions, 1 deletions
diff --git a/macros/latex/contrib/tkz/tkz-euclide/doc/latex/TKZdoc-euclide-examples.tex b/macros/latex/contrib/tkz/tkz-euclide/doc/latex/TKZdoc-euclide-examples.tex
index 1a64516c84..45a9be0f98 100644
--- a/macros/latex/contrib/tkz/tkz-euclide/doc/latex/TKZdoc-euclide-examples.tex
+++ b/macros/latex/contrib/tkz/tkz-euclide/doc/latex/TKZdoc-euclide-examples.tex
@@ -979,7 +979,7 @@ Since the triangles $AO_2C$ and $AO_1E$ are isosceles the angles at the base are
\begin{tikzpicture}
\node [mybox,title={Book of lemmas proposition 6 Archimedes}] (box){%
\begin{minipage}{0.90\textwidth}
- {\emph{Let $AC$, the diameter of a semicircle, be divided at $B$ so that $AC/AB =\phi$ or in any ratio]. Describe semicircles within the first semicircle and on $AB$, $BC$ as diameters, and suppose a circle drawn touching the all three semicircles. If $GH$ be the diameter of this circle, to find relation between $GH$ and $AC$.}}
+ {\emph{Let $AC$, the diameter of a semicircle, be divided at $B$ so that $AC/AB =\phi$ or in any ratio. Describe semicircles within the first semicircle and on $AB$, $BC$ as diameters, and suppose a circle drawn touching the all three semicircles. If $GH$ be the diameter of this circle, to find relation between $GH$ and $AC$.}}
\end{minipage}
};
\end{tikzpicture}%