\batchmode


\documentclass[12pt]{article}
\makeatletter

\usepackage{anysize}
\papersize{11in}{8.5in}
\marginsize{1in}{1in}{1in}{1in}

\usepackage{epsfig}

\usepackage{setspace}
\onehalfspacing

\usepackage{url}



\makeatother
\newenvironment{tex2html_wrap}{}{}
\newwrite\lthtmlwrite
\def\lthtmltypeout#1{{\let\protect\string\immediate\write\lthtmlwrite{#1}}}%
\newbox\sizebox
\begin{document}
\pagestyle{empty}
\stepcounter{section}
\stepcounter{subsection}
\stepcounter{subsection}
\stepcounter{subsection}
{\newpage
\clearpage
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}

{\newpage
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{\newpage
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{\newpage
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{\newpage
\clearpage
\samepage \begin{figure}[hbt]
  \centerline{                   
      \psfig{file=geodesy.eps}
  }
  
  \label{fig:geodesy}
\end{figure}
}

\stepcounter{subsection}
\stepcounter{subsection}
{\newpage
\clearpage
\samepage \begin{figure}[hbt]
  \centerline{                   
      \psfig{file=coord.eps}
  }
  
  \label{fig:coords}
\end{figure}
}

\stepcounter{subsection}
{\newpage
\clearpage
\samepage \begin{displaymath}x = cos(lon_\mathit{geocentric}) * cos(lat_\mathit{geocentric}) *
radius_\mathit{geocentric} \end{displaymath}
}

{\newpage
\clearpage
\samepage \begin{displaymath}y = sin(lon_\mathit{geocentric}) * cos(lat_\mathit{geocentric}) *
radius_\mathit{geocentric} \end{displaymath}
}

{\newpage
\clearpage
\samepage \begin{displaymath}z = sin(lat_\mathit{geocentric}) * radius_\mathit{geocentric} \end{displaymath}
}

{\newpage
\clearpage
\samepage \begin{displaymath}lon = atan2( y, x ) \end{displaymath}
}

{\newpage
\clearpage
\samepage \begin{displaymath}lat = \frac{\pi}{2} - atan2( \sqrt{x*x + y*y}, z ) \end{displaymath}
}

{\newpage
\clearpage
\samepage \begin{displaymath}radius = \sqrt{x*x + y*y + z*z} \end{displaymath}
}

\stepcounter{section}

\end{document}