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COURSE PRO FORMA
Teaching Schedule
References/Teaching Materials/
Week Lecture/Tutorial/Assignment Topic
Equipment
1 Motion of charged particles in electromagnetic field: Introduction and Reference book and course
application of plasma physics notes
Motion of charged particles in electromagnetic field:
2 Reference book and course
Review of vector analysis and electromagnetic theory
Motion of particles in uniform and non-uniform fields notes
Magnetic-Ion Theory:
3 Langevin theory Reference book and course
Conduction and Moveability of Electrons notes
Wave propagation
4 Magnetic-Ion Theory: Reference book and course
Wave propagation
notes
Magnetic-Ion Theory:
5 Reference book and course
Resonance and reflection points
Collision effects notes
Plasma continuity equation:
6 Reference book and course
Derivation of continuity equation
Plasma as a mixture notes
7 Plasma continuity equation: Reference book and course
Diffusion
notes
Plasma continuity equation:
8 Reference book and course
Longitudinal waves in fully ionized gas
Magnet Hydrodynamics Equation notes
Boltzmann equation for plasma:
9 Reference book and course
Collision of two bodies and Boltzmann Collision Theory
Maximum entropy and Maxwell distribution function notes
Boltzmann equation for plasma:
10 Low-level transport equation for mixed gas Reference book and course
Calculation of transport coefficient notes
11 Boltzmann equation for plasma: Reference book and course
Fokker-Plank Equation notes
Plasma for energy generation and other technologies:
12 Reference book and course
Main principles of fusion energy
Introduction to Tokamak notes
13 Plasma for energy generation and other technologies: Reference book and course
Applications of Magnet Hydrodynamics
Applications of Plasma for other purposes notes
14 Reference book and course
Revision
notes
UM-PT01-PK03-BR004(BI)-S04
