Minor corrections.
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%Tutorial slides on Python.
%
% Author: Prabhu Ramachandran <prabhu at aero.iitb.ac.in>
% Copyright (c) 2005-2009, Prabhu Ramachandran
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% Taken from Fernando's slides.
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% Title page
\title[Exercises]{Exercises}
\author[FOSSEE] {FOSSEE}
\institute[IIT Bombay] {Department of Aerospace Engineering\\IIT Bombay}
\date[] {22 April, 2010\\Day 1, Session 5}
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%\pgfdeclareimage[height=0.75cm]{iitmlogo}{iitmlogo}
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%% Delete this, if you do not want the table of contents to pop up at
%% the beginning of each subsection:
\AtBeginSubsection[]
{
\begin{frame}<beamer>
\frametitle{Outline}
\tableofcontents[currentsection,currentsubsection]
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% If you wish to uncover everything in a step-wise fashion, uncomment
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% DOCUMENT STARTS
\begin{document}
\begin{frame}
\titlepage
\end{frame}
\begin{frame}[fragile]
\frametitle{Problem 1}
\begin{columns}
\column{0.5\textwidth}
\hspace*{-0.5in}
\includegraphics[height=2in, interpolate=true]{data/L-Tsq.png}
\column{0.45\textwidth}
\begin{block}{Example code}
\tiny
\begin{lstlisting}
l = []
t = []
for line in open('pendulum.txt'):
point = line.split()
l.append(float(point[0]))
t.append(float(point[1]))
plot(l, t, '.')
\end{lstlisting}
\end{block}
\end{columns}
\begin{block}{Problem Statement}
Tweak above code to plot data in file `pos.txt'.
\end{block}
\end{frame}
\begin{frame}
\frametitle{Problem 1 cont...}
\begin{itemize}
\item Label both the axes.
\item What kind of motion is this?
\item Title the graph accordingly.
\item Annotate the position where vertical velocity is zero.
\end{itemize}
\end{frame}
\begin{frame}[fragile]
\frametitle{Problem 2}
\begin{columns}
\column{0.5\textwidth}
\hspace*{-0.5in}
\includegraphics[height=2in, interpolate=true]{data/triangle}
\column{0.45\textwidth}
\begin{block}{Plot points given x and y coordinates}
\tiny
\begin{lstlisting}
In []: x = [3, 2, -2, 3]
In []: y = [1, -3, 4, 1]
In []: plot(x, y)
\end{lstlisting}
\end{block}
\end{columns}
Line can be plotted using arrays of coordinates.
\pause
\begin{block}{Problem statement}
Write a Program that plots a regular n-gon(Let n = 5).
\end{block}
\end{frame}
\begin{frame}[fragile]
\frametitle{Problem 3}
\begin{columns}
\column{0.5\textwidth}
\hspace*{-0.5in}
\includegraphics[height=2in, interpolate=true]{data/damp}
\column{0.45\textwidth}
\begin{block}{Damped Oscillation}
\tiny
\begin{lstlisting}
In []: x = linspace(0, 4*pi)
In []: plot(x, exp(x/10)*sin(x))
\end{lstlisting}
\end{block}
\end{columns}
\end{frame}
\begin{frame}[fragile]
\frametitle{Problem 3 cont...}
Create a sequence of images in which the damped oscillator($e^{-x/10}sin(x)$) slowly evolves over time.
\begin{columns}
\column{0.35\textwidth}
\includegraphics[width=1.5in,height=1.5in, interpolate=true]{data/plot2}
\column{0.35\textwidth}
\includegraphics[width=1.5in,height=1.5in, interpolate=true]{data/plot4}
\column{0.35\textwidth}
\includegraphics[width=1.5in,height=1.5in, interpolate=true]{data/plot6}
\end{columns}
\begin{block}{Hint}
\small
\begin{lstlisting}
savefig('plot'+str(i)+'.png') #i is int variable
\end{lstlisting}
\end{block}
\end{frame}
\begin{frame}[fragile]
\frametitle{Problem 4}
\begin{lstlisting}
In []: x = imread('smoothing.png')
In []: x.shape
Out[]: (256, 256)
In []: imshow(x,cmap=cm.gray)
\end{lstlisting}
\emphbar{Replace each pixel with mean of neighboring pixels}
\begin{center}
\includegraphics[height=1in, interpolate=true]{data/neighbour}
\end{center}
\end{frame}
\begin{frame}
\begin{center}
\includegraphics[height=3in, interpolate=true]{data/smoothing}
\end{center}
\end{frame}
\begin{frame}[fragile]
\frametitle{Problem 4: Approach}
For \typ{y} being resultant image:
\begin{lstlisting}
y[1, 1] = x[0, 1]/4 + x[1, 0]/4
+ x[2, 1]/4 + x[1, 2]/4
\end{lstlisting}
\begin{columns}
\column{0.45\textwidth}
\hspace*{-0.5in}
\includegraphics[height=1.5in, interpolate=true]{data/smoothing}
\column{0.45\textwidth}
\hspace*{-0.5in}
\includegraphics[height=1.5in, interpolate=true]{data/after-filter}
\end{columns}
\begin{block}{Hint:}
Use array Slicing.
\end{block}
\end{frame}
\begin{frame}[fragile]
\frametitle{Solution}
\begin{lstlisting}
In []: y = zeros_like(x)
In []: y[1:-1,1:-1] = x[:-2,1:-1]/4+
x[2:,1:-1]/4+
x[1:-1,2:]/4+
x[1:-1,:-2]/4
In []: imshow(y,cmap=cm.gray)
\end{lstlisting}
\end{frame}
\end{document}
%% \begin{frame}
%% \frametitle{Problem 4}
%% Legendre polynomials $P_n(x)$ are defined by the following recurrence relation
%% \center{$(n+1)P_{n+1}(x) - (2n+1)xP_n(x) + nP_{n-1}(x) = 0$}\\
%% with $P_0(x) = 1$, $P_1(x) = x$ and $P_2(x) = (3x^2 - 1)/2$. Compute the next three
%% Legendre polynomials and plot all 6 over the interval [-1,1].
%% \end{frame}
%% \begin{frame}[fragile]
%% \frametitle{Problem Set 5}
%% \begin{columns}
%% \column{0.6\textwidth}
%% \small{
%% \begin{itemize}
%% \item[3] Consider the iteration $x_{n+1} = f(x_n)$ where $f(x) = kx(1-x)$. Plot the successive iterates of this process as explained below.
%% \end{itemize}}
%% \column{0.35\textwidth}
%% \hspace*{-0.5in}
%% \includegraphics[height=1.6in, interpolate=true]{data/cobweb}
%% \end{columns}
%% \end{frame}
%% \begin{frame}
%% \frametitle{Problem Set 5.3}
%% Plot the cobweb plot as follows:
%% \begin{enumerate}
%% \item Start at $(x_0, 0)$ ($\implies$ i=0)
%% \item Draw a line to $(x_i, f(x_i))$
%% \item Set $x_{i+1} = f(x_i)$
%% \item Draw a line to $(x_{i+1}, x_{i+1})$
%% \item $(i\implies i+1)$
%% \item Repeat from 2 for as long as you want
%% \end{enumerate}
%% \inctime{20}
%% \end{frame}