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Chapter 7 - Magnetohydrodynamic Formulation

Published online by Cambridge University Press:  06 January 2010

Robert W. Schunk
Affiliation:
Utah State University
Andrew F. Nagy
Affiliation:
University of Michigan, Ann Arbor
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Summary

The 13-moment system of transport equations was presented in Chapter 3 and several associated sets of collision terms were derived in Chapter 4. These 13-moment transport equations, in combination with the Maxwell equations for the electric and magnetic fields, are very general and can be applied to describe a wide range of plasma flows in the ionospheres. However, the complete system of equations for a multi-species plasma is difficult to solve under most circumstances, and therefore, simplified sets of transport equations have been used over the years. The simplified sets of equations that are based on the assumption of collision dominance were presented in Chapter 5. In this chapter, certain simplified transport equations are derived in which the plasma is treated as a single conducting fluid, rather than a mixture of individual plasma species. These single-fluid transport equations, along with the Maxwell equations, are known as the single-fluid magnetohydrodynamic (MHD) equations.

The outline of this chapter is as follows. First, the single-fluid transport equations are derived from the 13-moment system of equations. Subsequently, a generalized Ohm's law is derived for a fully ionized plasma. This naturally leads to simplifications that yield the classical set of MHD equations.

Type
Chapter
Information
Ionospheres
Physics, Plasma Physics, and Chemistry
, pp. 192 - 215
Publisher: Cambridge University Press
Print publication year: 2000

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