Derivatives and Risk Management in Energy and Commodity Markets MSB210
Derivatives have a very long history, the first derivatives contracts dating back to ancient times. Today, trillions of dollars worth of financial derivatives contracts are traded world-wide. The development of a pricing formula for options (The Black Scholes formula) was the start of a revolution in finance. The result of this revolution has been a proliferation of market places for trading derivative securities, such as futures and options, and a continued expansion in the risks one can hedge using derivatives. This course is an advanced course in derivatives, and will cover topics such as option pricing, risk management and empirical studies (research) of derivatives.
Course description for study year 2021-2022. Please note that changes may occur.
UiS Business School
After successful completion of the course the student will:
have basic theoretical knowledge in option pricing theory and models
have the ability to apply a variety of option pricing models such as binomial and trinomial trees, analytical solutions such as the Black-Scholes model and Monte Carlo simulation
understand the role of risk management tools for hedging market risk exposure, e.g. know how to hedge the price of crude oil
have the ability to carry out empirical (econometric) studies on derivatives
be able to price financial options and other derivatives such as forward and futures contracts
be able to identify and price structured products with embedded options
be able to apply numerical methods such as Monte Carlo simulation to price derivatives
be able to estimate a firm's Value at Risk
This course covers the valuation and use of options and derivatives for use in the financial, as well as energy and commodities industries. Options and other derivatives are a very important class of financial instruments. Derivatives are financial contracts on other assets (i.e. what we call the "underlying asset") such as the price of a stock, the price of Brent crude oil or the price of natural gas. The values of derivatives such as options are driven by the behavior of its underlying asset. An option to buy a shipment of crude oil in the future is very much affected by the volatility of the price of oil.
The course will provide the theoretical foundation for pricing derivatives and how it differs from standard financial valuation models. Various pricing models will be covered, from binomial models to the Black-Scholes model to Monte Carlo simulation. We will also cover how derivatives can be used as risk management tools. Empirical studies of derivatives will also be an important part of the course.
Required prerequisite knowledge
The students taking this course will benefit from having a basic understanding of:
- Finance theory
Eksamen / vurdering
A - F
Mandatory attendance 80%, Research proposal
80% attendence at lectures/seminars/workshops is mandatory. To be allowed to take the exam, students need to pass a mandatory attendance requirement.
The students need to hand in, and get approved, research proposals for their research project within certain deadlines. The deadlines will be announced at the beginning of the course.
Study Program Director:
Method of work
The course is delivered as a combination of lectures/seminars and extensive coursework (research projects). The students will work in groups and deliver a series of research reports throughout the semester. All reports need a passing grade.
The course will be delivered in English. The expected workload for the students is 300 hours: