Minor edits to day1 sessions 5 and 6.
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%Tutorial slides on Python.
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% Author: FOSSEE
% Copyright (c) 2009, FOSSEE, IIT Bombay
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% Title page
\title[Matrices \& Equations]{Python for Science and Engg: Matrices \& Solution of equations}
\author[FOSSEE] {FOSSEE}
\institute[IIT Bombay] {Department of Aerospace Engineering\\IIT Bombay}
\date[] {31, October 2009\\Day 1, Session 4}
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\frametitle{Outline}
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\begin{document}
\begin{frame}
\titlepage
\end{frame}
\begin{frame}
\frametitle{Outline}
\tableofcontents
% \pausesections
\end{frame}
\section{Matrices}
\begin{frame}
\frametitle{Matrices: Introduction}
We looked at the Van der Monde matrix in the previous session,\\
let us now look at matrices in a little more detail.
\end{frame}
\subsection{Initializing}
\begin{frame}[fragile]
\frametitle{Matrices: Initializing}
\begin{lstlisting}
In []: A = matrix([[ 1, 1, 2, -1],
[ 2, 5, -1, -9],
[ 2, 1, -1, 3],
[ 1, -3, 2, 7]])
In []: A
Out[]:
matrix([[ 1, 1, 2, -1],
[ 2, 5, -1, -9],
[ 2, 1, -1, 3],
[ 1, -3, 2, 7]])
\end{lstlisting}
\end{frame}
\subsection{Basic Operations}
\begin{frame}[fragile]
\frametitle{Transpose of a Matrix}
\begin{lstlisting}
In []: linalg.transpose(A)
Out[]:
matrix([[ 1, 2, 2, 1],
[ 1, 5, 1, -3],
[ 2, -1, -1, 2],
[-1, -9, 3, 7]])
\end{lstlisting}
\end{frame}
\begin{frame}[fragile]
\frametitle{Sum of all elements}
\begin{lstlisting}
In []: linalg.sum(A)
Out[]: 12
\end{lstlisting}
\end{frame}
\begin{frame}[fragile]
\frametitle{Matrix Addition}
\begin{lstlisting}
In []: B = matrix([[3,2,-1,5],
[2,-2,4,9],
[-1,0.5,-1,-7],
[9,-5,7,3]])
In []: linalg.add(A,B)
Out[]:
matrix([[ 4. , 3. , 1. , 4. ],
[ 4. , 3. , 3. , 0. ],
[ 1. , 1.5, -2. , -4. ],
[ 10. , -8. , 9. , 10. ]])
\end{lstlisting}
\end{frame}
\begin{frame}[fragile]
\frametitle{Matrix Multiplication}
\begin{lstlisting}
In []: linalg.multiply(A, B)
Out[]:
matrix([[ 3. , 2. , -2. , -5. ],
[ 4. , -10. , -4. , -81. ],
[ -2. , 0.5, 1. , -21. ],
[ 9. , 15. , 14. , 21. ]])
\end{lstlisting}
\end{frame}
\begin{frame}[fragile]
\frametitle{Inverse of a Matrix}
\begin{small}
\begin{lstlisting}
In []: linalg.inv(A)
Out[]:
matrix([[-0.5 , 0.55, -0.15, 0.7 ],
[ 0.75, -0.5 , 0.5 , -0.75],
[ 0.5 , -0.15, -0.05, -0.1 ],
[ 0.25, -0.25, 0.25, -0.25]])
\end{lstlisting}
\end{small}
\end{frame}
\begin{frame}[fragile]
\frametitle{Determinant}
\begin{lstlisting}
In []: det(A)
Out[66]: 80.0
\end{lstlisting}
\end{frame}
\begin{frame}[fragile]
\frametitle{Eigen Values and Eigen Matrix}
\begin{small}
\begin{lstlisting}
In []: linalg.eig(A)
Out[]:
(array([ 11.41026155, 3.71581643, -0.81723144, -2.30884654]),
matrix([[ 0.12300187, -0.53899627, 0.63269982, 0.56024583],
[ 0.8225266 , -0.67562403, -0.63919634, -0.20747251],
[-0.04763219, -0.47575453, -0.3709497 , -0.80066041],
[-0.55321941, -0.16331814, -0.23133374, 0.04497415]]))
\end{lstlisting}
\end{small}
\end{frame}
\begin{frame}[fragile]
\frametitle{Computing Norms}
\begin{lstlisting}
In []: linalg.norm(A)
Out[]: 14.0
\end{lstlisting}
\end{frame}
\begin{frame}[fragile]
\frametitle{Single Value Decomposition}
\begin{small}
\begin{lstlisting}
In []: linalg.svd(A)
Out[]:
(matrix([[-0.08588113, 0.29164297, -0.74892678, 0.58879325],
[-0.79093255, 0.39530483, -0.11188116, -0.45347812],
[ 0.1523891 , 0.78799358, 0.51966138, 0.29290907],
[ 0.58636823, 0.37113957, -0.39565558, -0.60156827]]),
array([ 13.17656506, 3.76954116, 2.79959047, 0.57531379]),
matrix([[-0.05893795, -0.42858358, 0.12442679, 0.89295039],
[ 0.80364672, 0.51537891, 0.03774111, 0.29514767],
[-0.11752501, 0.14226922, -0.96333552, 0.19476145],
[-0.58040171, 0.72832696, 0.23468759, 0.27855956]]))
\end{lstlisting}
\end{small}
\end{frame}
\section{Solving linear equations}
\begin{frame}[fragile]
\frametitle{Solution of equations}
Consider,
\begin{align*}
3x + 2y - z & = 1 \\
2x - 2y + 4z & = -2 \\
-x + \frac{1}{2}y -z & = 0
\end{align*}
Solution:
\begin{align*}
x & = 1 \\
y & = -2 \\
z & = -2
\end{align*}
\end{frame}
\begin{frame}[fragile]
\frametitle{Solving using Matrices}
Let us now look at how to solve this using \kwrd{matrices}
\begin{lstlisting}
In []: A = matrix([[3,2,-1],
[2,-2,4],
[-1, 0.5, -1]])
In []: b = matrix([[1], [-2], [0]])
In []: x = linalg.solve(A, b)
In []: Ax = dot(A, x)
\end{lstlisting}
\end{frame}
\begin{frame}[fragile]
\frametitle{Solution:}
\begin{lstlisting}
In []: x
Out[]:
array([[ 1.],
[-2.],
[-2.]])
\end{lstlisting}
\end{frame}
\begin{frame}[fragile]
\frametitle{Let's check!}
\begin{lstlisting}
In []: Ax
Out[]:
matrix([[ 1.00000000e+00],
[ -2.00000000e+00],
[ 2.22044605e-16]])
\end{lstlisting}
\begin{block}{}
The last term in the matrix is actually \alert{0}!\\
We can use \kwrd{allclose()} to check.
\end{block}
\begin{lstlisting}
In []: allclose(Ax, b)
Out[]: True
\end{lstlisting}
\end{frame}
\subsection{Exercises}
\begin{frame}[fragile]
\frametitle{Problem}
\end{frame}
\begin{frame}[fragile]
\frametitle{Problem}
Solve the set of equations:
\begin{align*}
x + y + 2z -w & = 3\\
2x + 5y - z - 9w & = -3\\
2x + y -z + 3w & = -11 \\
x - 3y + 2z + 7w & = -5\\
\end{align*}
\end{frame}
\section{Summary}
\begin{frame}
\frametitle{Summary}
So what did we learn??
\begin{itemize}
\item Matrices
\begin{itemize}
\item Transpose
\item Addition
\item Multiplication
\item Inverse of a matrix
\item Determinant
\item Eigen values and Eigen matrix
\item Norms
\item Single Value Decomposition
\end{itemize}
\item Solving linear equations
\end{itemize}
\end{frame}
\end{document}