MATH49032/MATH39032 - 2010/2011
- Title: Mathematical Modelling in Finance
- Unit code: MATH49032/MATH39032
- Credits: 15 (MATH49032), 10 (MATH39032)
- Prerequisites: None
- Co-requisite units: None
- School responsible: Mathematics
- Members of staff responsible: Prof. Peter Duck
Specification
Aims
Students should gain an insight into both the development and solution of the mathematical models used to describe the value of financial derivatives. As a result they should be able to find the value of basic derivatives.
Brief Description of the unit
This course unit is primarily concerned with the valuation of financial instruments known as derivatives. To achieve this, a mathematical model is developed and then solved for different types of problems. No previous background in finance is necessary. It is shown that mathematical methods can be powerful tools in solving financial problems once suitable models have been devised.
Learning Outcomes
On successful completion of the course, students will be able to: apply basic ideas from classical applied mathematics to solve derivative valuation problems arising from financial modelling. Emphasis will be placed on the analogies between the financial models and physical systems.
Future topics requiring this course unit
None.
Syllabus
- Introduction to options, futures and the no arbitrage principle - using this to calculate fair delivery prices for futures. [4 lectures]
- Model for the movements of stock prices, efficient markets, Brownian motion and geometric Brownian motion. Stochastic and deterministic processes. [2]
- Basics of stochastic calculus and Ito's lemma. [2]
- The Black-Scholes analysis. Derivation of the Black-Scholes partial differential equation, the assumptions behind it. Formulating the mathematical problem, determining boundary conditions for option pricing problems. [5]
- Solving the Black-Scholes equation. Connection with the heat conduction equation, solution of the heat conduction equation - similarity solutions and the Dirac delta function. Derivation of the price of European options. [6]
- Extension to consider options on assets paying dividends and American options; free boundary problems. [5]
The 15 credit version of this course unit involves a sizable piece of coursework (requiring additional reading), and a 2.5 hour (instead of 2 hour) examination (the examination is the same in both cases, except that for the 4-level version, ALL three part B questions must be attempted); there is a 80%:20% split between examination and coursework.
Textbooks
- Wilmott, O., Howison, S., Dewynne, J., The Mathematics of Financial Derivatives, Cambridge University Press 1995. ISBN 0521497892
Teaching and learning methods
Two lectures and one examples class each week. In addition, students should expect to spend at least seven hours each week on private study for this course unit.
Assessment
- Coursework weighting 20%
- End of semester examination: two and a half hours, weighting 80%.