# MAS212 Scientific Computing and Simulation (2017/18)

## Lecturer: Dr Sam Dolan (G18)

This is the course web page for MAS212 Scientific Computing and Simulation in 2017/18.
Last year's material is here.

## Course Information

MAS212 is a 10-credit, Level 2, first-semester module which covers various techniques in scientific computing, and their implementation in Python. The course is intended to follow on from MAS115 Mathematical Investigation Skills.

## MOLE

This year I will also use MOLE for some course materials, such as video clips.

## Software and setup

We will be using the Anaconda distribution of Python (version 3.6), which includes Jupyter Notebook and Spyder.

Anaconda3 is available on (the majority of) Managed Desktop machines. From the Start Menu, select the folder "Anaconda3 (64-bit)".

To install Anaconda on your own computer, use the link below, and choose the Python 3.6 version

## Learning Resources

There are many books on Python and scientific computing. For this course, I recommend:

• Learning Scientific Programming with Python by Christian Hill (Cambridge University Press, 2015).
Copies are available in the library.

A range of material is available on the web, including:

## Sample Notebooks

In this course we will use Jupyter notebooks to combine code, text, plots and media. To view a notebook in the browser, click on the links in the left column. (Alternatively, copy-and-paste the notebook's URL in to the box at nbviewer.jupyter.org).

TitleDescriptionnotebook
Fern The Barnsley Fern: an image of a fern with self-similar (fractal) properties, generated by iterating certain affine transformations. .ipynb
ODE_Example Shows how to (a) solve a first-order single-variable ODE using scipy.integrate.odeint, and plot; (b) solve a second-order equation by writing as a pair of first-order equations; (c) solve predator-prey equations. .ipynb
Curve_Fit_Example Shows how to (a) generate a data set with simulated noise; (b) save and then re-load the data; (c) fit the data to a simple model using scipy.optimize.curve_fit(). .ipynb
Media_Example Shows how to load and interact with various media: data, images, web pages, YouTube videos and maps. .ipynb

## Lectures and Lab Classes

Week Lectures Computer labs Solutions
0 Revise Python for the class test with: ---
1 L1: Introducing the course Lab Class 1: Jupyter Notebook
2 Class Test 1 (.ipynb)
3 Lab Class 3: matplotlib .html .ipynb
4 L4: Ordinary differential equations Lab Class 4: Solving ODEs with scipy.integrate.odeint() .html .ipynb
5 L5: Numerical methods for ODEs Lab Class 5: Explicit methods for ODEs .html .ipynb
6 L6: Implicit methods for ODEs Lab Class 6: Implicit methods for ODEs .html .ipynb
7 Lecture 7: Animations. Lab Class 7: Animations Codes 5 and 6 by J Vanderplas
8 Lecture 8: Curve fitting.
Lab Class 8: Fitting data
9 Lecture 9: Linear systems and conditioning.
Lab Class 9: Gauss-Jordan elimination
10 Lecture 10: The discrete Fourier transform.
Class Test 2 (.ipynb)

## Class Tests

To take a test, right click on ".ipynb" link, save the file in your notebooks directory (choose 'All Files' not 'Text Documents'), and then open the notebook using Jupyter Notebook. Read the rubric. Then click on a question and select 'Insert Cell Below'. Change the cell type to 'code' or 'markup', as appropriate. Completed tests will be submitted here.

To view a test, left click on the ".html" link.

(2017) Class Test 2 with answers .ipynb .html --
(2017) Class Test 2 .ipynb .html Sun 10th Dec 2017
(2017) Class Test 1 with answers .ipynb .html
--
(2017) Class Test 1 .ipynb .html
Sun 8th Oct 2017
(2016) Class Test 1 with answers .ipynb
.html
Marker's notes
--
(2016) Class Test 1 .ipynb ---
(Mock) Class Test with answers .ipynb
.html
--
(Mock) Class Test .ipynb
.html
--

## Assignments

# Title Summary Due Feedback
1 Asymptotic series Use Python to calculate a Taylor series and an asymptotic series. Sun 22nd Oct (23:59pm). Example code
2 The damped driven pendulum An investigation into the behaviour of a pendulum on a rod. Sun 26th Nov (23:59pm). Report

Code: .ipynb .html
3 Extrasolar planets Fitting a model to a data set, in order to estimate the mass of an extrasolar planet. Sun 17th Dec (23:59pm). Slides

Code: .ipynb .html