# HG changeset patch # User Puneeth Chaganti # Date 1256738786 -19800 # Node ID f4f3b36a9fba4c6cae90eb9de9089fcdcbc00b17 # Parent 33ede079857d49baf327ae66e55ba5fd3cf05c3e Minor edits to day1 sessions 5 and 6. diff -r 33ede079857d -r f4f3b36a9fba day1/session5.tex --- a/day1/session5.tex Wed Oct 28 17:35:41 2009 +0530 +++ b/day1/session5.tex Wed Oct 28 19:36:26 2009 +0530 @@ -129,7 +129,6 @@ \begin{frame}[fragile] \frametitle{Interpolation} \begin{itemize} -\item Let us begin with interpolation \item Let's use the L and T arrays and interpolate this data to obtain data at new points \end{itemize} \begin{lstlisting} diff -r 33ede079857d -r f4f3b36a9fba day1/session6.tex --- a/day1/session6.tex Wed Oct 28 17:35:41 2009 +0530 +++ b/day1/session6.tex Wed Oct 28 19:36:26 2009 +0530 @@ -285,7 +285,7 @@ %% \end{frame} \begin{frame}[fragile] -\frametitle{Newton Raphson Method} +\frametitle{Newton-Raphson Method} \begin{enumerate} \item Start with an initial guess of x for the root \item $\Delta x = -f(x)/f^{'}(x)$ @@ -295,7 +295,7 @@ \end{frame} %% \begin{frame}[fragile] -%% \frametitle{Newton Raphson \dots} +%% \frametitle{Newton-Raphson \dots} %% \begin{lstlisting} %% In []: def our_df(x): %% ....: return -sin(x)-2*x @@ -310,10 +310,10 @@ %% \end{frame} \begin{frame}[fragile] -\frametitle{Newton Raphson \ldots} +\frametitle{Newton-Raphson \ldots} \begin{itemize} \item What if $f^{'}(x) = 0$? -\item Can you write a better version of the Newton Raphson? +\item Can you write a better version of the Newton-Raphson? \item What if the differential is not easy to calculate? \item Look at Secant Method \end{itemize} @@ -368,7 +368,7 @@ \item Finding Roots \begin{itemize} \item Estimating Interval - \item Newton Raphson + \item Newton-Raphson \item Scipy methods \end{itemize} \end{itemize}