Note: This is an old module occurrence.
You may wish to visit the module list for information on current teaching.
|Semester 2, 2017/18||10 Credits|
|Lecturer:||Dr Rekha Jain||Reading List|
Magnetohydrodynamics has been successfully applied to a number of astrophysical problems (e.g., to problems in Solar and Magnetospheric Physics), as well as to problems related to laboratory physics, especially to fusion devices. This module gives an introduction to classical magnetohydrodynamics. Students will get familiar with the system of magnetohydrodynamic equations and main theorems that follow from this system (e.g., conservation laws, anti-dynamo theorem). They will study the simplest magnetic equilibrium configurations, propagation of linear waves, and magnetohydrodynamic stability.
Prerequisites: MAS222 (Differential Equations); MAS280 (Mechanics and Fluids)
No other modules have this module as a prerequisite.
- The system of magnetohydrodynamic equations and its main properties.
- Magnetohydrodynamics equilibria.
- Propagation of magnetohydrodynamic waves.
- Magnetohydrodynamic stability.
- Magnetic dynamo.
- To introduce the system of magnetohydrodynamic equations.
- To describe the main properties of this system of equations.
- To show using simple examples how this system of equations can be applied to different astrophysical and laboratory phenomena.
20 lectures, no tutorials
One formal 2 hour written examination. Format: 4 questions.
|A||Priest||Solar Magneto-hydrodynamics||523.72 (P)||Blackwells||Amazon|
|B||Goedbloed and Poedts||Principles of Magnetohydrodynamics||538.6 (G)||Blackwells||Amazon|
|B||Goossens||Introduction to Plasma Astrophysics and Magnetohydrodynamics||523.2 (G)||Blackwells||Amazon|
(A = essential, B = recommended, C = background.)
Most books on reading lists should also be available from the Blackwells shop at Jessop West.