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Physics
Applied and Interdisciplinary Physics
Plasma Physics
1. Introduction to Plasma Physics
2. Mathematical Foundations
3. Single Particle Motion in Fields
4. Kinetic Theory of Plasmas
5. Fluid Description of Plasmas
6. Plasma Waves and Oscillations
7. Plasma Equilibrium
8. Plasma Instabilities
9. Transport Phenomena
10. Collisional Processes
11. Nonlinear Plasma Physics
12. Specialized Plasma Types
13. Plasma Boundaries and Sheaths
14. Plasma Applications
15. Plasma Diagnostics
2.
Mathematical Foundations
2.1.
Vector Calculus in Plasma Physics
2.1.1.
Gradient, Divergence, and Curl
2.1.2.
Vector Identities
2.1.3.
Coordinate Systems
2.1.3.1.
Cartesian Coordinates
2.1.3.2.
Cylindrical Coordinates
2.1.3.3.
Spherical Coordinates
2.2.
Electromagnetic Field Theory
2.2.1.
Maxwell's Equations
2.2.2.
Lorentz Force Law
2.2.3.
Electromagnetic Potentials
2.2.4.
Gauge Transformations
2.3.
Statistical Mechanics Foundations
2.3.1.
Phase Space Concepts
2.3.2.
Distribution Functions
2.3.3.
Boltzmann Statistics
2.3.4.
Fermi-Dirac Statistics
2.3.5.
Maxwell-Boltzmann Distribution
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3. Single Particle Motion in Fields