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Introduction to plasmas and plasma dynamics : with reviews of applications in space propulsion, magnetic fusion, space physics /

Introduction to Plasmas and Plasma Dynamics provides an accessible introduction to the understanding of high temperature, ionized gases necessary to conduct research and develop applications related to plasmas. While standard presentations of introductory material emphasize physics and the theoretic...

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Detalles Bibliográficos
Clasificación:	Libro Electrónico
Autores principales:	York, Thomas M. (Autor), Tang, Haibin (Autor)
Formato:	Electrónico eBook
Idioma:	Inglés
Publicado:	London, UK : Academic Press, [2015]
Colección:	Engineering professional collection
Temas:	Plasma (Ionized gases) Plasma dynamics. Plasma (Gaz ionis�es) Dynamique des plasmas. SCIENCE > Energy. SCIENCE > Mechanics > General. SCIENCE > Physics > General.
Acceso en línea:	Texto completo

Tabla de Contenidos:

Front Cover
Introduction to Plasmas and Plasma Dynamics
Copyright
Dedication
Contents
PREFACE
ACKNOWLEDGMENTS
Chapter 1
The Plasma Medium and Plasma Devices
INTRODUCTION
PLASMAS IN NATURE
PLASMAS IN LABORATORY/DEVICE APPLICATIONS
REFERENCES
Chapter 2
Kinetic Theory of Gases
INTRODUCTION
BASIC HYPOTHESES OF KINETIC THEORY
PRESSURE, TEMPERATURE, AND INTERNAL ENERGY CONCEPTS
KINETIC THEORY AND TRANSPORT PROCESSES
MATHEMATICAL FORMULATION OF EQUILIBRIUM KINETIC THEORY
REFERENCES
Chapter 3
Molecular Energy Distribution and Ionization in GasesINTRODUCTION
MOLECULAR ENERGY
IONIZATION IN GASES
REFERENCES
Chapter 4
Electromagnetics
INTRODUCTION
ELECTRIC CHARGES AND ELECTRIC FIELDS-ELECTROSTATICS
ELECTRIC CURRENTS AND MAGNETIC FIELDS-MAGNETOSTATICS
CONSERVATION OF CHARGE
FARADAY'S LAW
AMPERE'S LAW
MAXWELL'S EQUATIONS
FORCES AND CURRENTS DUE TO APPLIED FIELDS
PLASMA BEHAVIOR IN GAS DISCHARGES
ILLUSTRATIVE APPLICATIONS OF MAXWELL'S EQUATIONS
REFERENCES
Chapter 5
Plasma Parameters and Regimes of InteractionINTRODUCTION
EXTERNAL PARAMETERS
PARTICLE (COLLISION) PARAMETERS
SHEATH FORMATION AND EFFECTS
PLASMA OSCILLATIONS AND PLASMA FREQUENCY
MAGNETIC FIELD RELATED PARAMETERS
ELECTROSTATIC PARTICLE COLLECTION IN (LANGMUIR) PROBES
REFERENCES
Chapter 6
Particle Orbit Theory
INTRODUCTION
CHARGED PARTICLE MOTION IN CONSTANT, UNIFORM MAGNETIC (B�a??) FIELD
PARTICLE MOTION IN UNIFORM ELECTRIC AND MAGNETIC FIELDS
PARTICLE MOTION IN SPATIALLY VARYING (INHOMOGENOUS) MAGNETIC FIELDS
PARTICLE MOTION WITH CURVATURE OF THE MAGNETIC FIELD LINESPARTICLE MOTION IN TIME-VARYING MAGNETIC FIELD
PARTICLE TRAPPING IN MAGNETIC MIRRORS
ADIABATIC INVARIANTS
REFERENCES
Chapter 7
Macroscopic Equations of Plasmas
INTRODUCTION
ELECTROMAGNETIC ENERGY AND MOMENTUM ADDITION TO PLASMAS
CONSERVATION EQUATIONS OF MAGNETOFLUID MECHANICS
SINGLE FLUID EQUATIONS OF MAGNETOFLUID MECHANICS
THE MHD APPROXIMATIONS
SIMILARITY PARAMETERS
REFERENCES
Chapter 8
Hydromagnetics-Fluid Behavior of Plasmas
INTRODUCTION
BASIC EQUATIONS OF CONTINUUM PLASMA DYNAMICSTRANSPORT EFFECTS IN PLASMAS AND PLASMA DEVICES
KINEMATICS (AND DYNAMICS) OF MAGNETIC FIELDS IN PLASMAS
MAGNETOHYDROSTATICS
HYDROMAGNETIC STABILITY
WAVES IN PLASMA-PROPAGATION OF PERTURBATIONS
FLUID WAVES AND SHOCK WAVES IN PLASMA
REFERENCES
Chapter 9
Plasma Dynamics and Hydromagnetics: Reviews of Applications
INTRODUCTION
Plasma Acceleration and Energy Conversion
INTRODUCTION
REFERENCES
Plasma Thrusters
INTRODUCTION

Introduction to plasmas and plasma dynamics : with reviews of applications in space propulsion, magnetic fusion, space physics /

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