Macroscopic Foundation of Plasma Dynamics

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概要

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• A fluid which comprises several species of charged and neutral particles is treated macroscopically. Basic equations, energy and momentum theorems, and law of similarity are discussed. The condition under which current equation reduces to the usual form is considered; and one-dimensional transverse waves are treated as an example. Quasi-stationary phenomena are examined as a particular case; and it is pointed out that one of the usual basic equations of hydromagnetics, the Ohm's law J = σ(E + v × B), should be replaced by rot(E + v × B-σ^<-1>J) = 0, v being the velocity of the mean mass flow. An axially symmetric solution is obtained and applied to a self-pinched column, whose stability is explained in an elementary manner.

• 社団法人日本物理学会の論文
• 1958-05-05

著者

• Kihara Taro

  Department Of Physics Faculity Of Science University Of Tokyo

関連論文

• Ion-Electron Relaxation of Plasmas in a Magnetic Field, II
• Second Virial Coefficient of Helium from the Square-well Potential
• Temperature Variation of Mayer's Cluster Integrals
• Transport Properties of Plasmas in a Strong Magnetic Field
• Virial Coefficients and Intermolecular Potential for Small Nonspherical Molecules
• Virial Coefficients and Intermolecular Potential of Helium
• Statistics of Two-Dimensional Lattices with Many Components
• Non-additive Intermolecular Potential in Gases : I. van der Waals Interactions
• Energy Loss by a Sequence of Fast Charges in a Plasma
• Unified Theory of Relaxations in Plasmas, I. Basic Theorem
• Unified Theory of Relaxations in Plasmas : II. Applications
• Confirmation of the Existence of a Helium Double-Molecule
• Unified Theory of Relaxations in Plasmas.III. : Quantum Effects
• The Second Virial Coefficient of Non-Spherical Molecules.
• Van der Waals-Lifshitz Forces of Spheroidal Particles in a Liquid
• Fluctuations in a Plasma III : Effect of the Magnetic Field on the Stopping Power
• Ion-Electron Relaxation of Plasmas in a Strong Magnetic Field : I
• Magnetohydrostatic Equilibrium for Plasma in a Torus Tube
• Determination of Intermolecular Forces from the Equation of State of Gases. II.
• Non-additive Intermolecular Potential in Gases : II. Cluster Integrals
• Externally Pinched Plasma
• Thermodynamic Foundation of the Theory of Plasma
• Convex-Core Model of Molecules in Crystalline State
• On the Coefficients of Irreversible Processes in a Highly Ionized Gas
• Macroscopic Foundation of Plasma Dynamics
• Convex Molecules in Non-Uniform Gases : Supplement
• Second Virial Coefficient between Unlike Molecules
• Crystal Structures and Intermolecular Forces of Rare Gases
• Geometrical Theory of Convex Molecules in Non-Uniform Gases
• Intermolecular Forces for Polyatomic Molecules
• On Isihara-Hayashida's Theory of the Second Virial Coefficient for Rigid Convex Molecules

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