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Transport Processes in Space Physics and Astrophysics: Problems and Solutions 1st ed. 2016 [Mīkstie vāki]

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  • Formāts: Paperback / softback, 257 pages, height x width: 235x155 mm, weight: 4102 g, 5 Illustrations, color; VIII, 257 p. 5 illus. in color., 1 Paperback / softback
  • Sērija : Lecture Notes in Physics 918
  • Izdošanas datums: 20-Nov-2015
  • Izdevniecība: Springer International Publishing AG
  • ISBN-10: 3319248782
  • ISBN-13: 9783319248783
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Transport Processes in Space Physics and Astrophysics: Problems and Solutions 1st ed. 2016Palielināt
  • Formāts: Paperback / softback, 257 pages, height x width: 235x155 mm, weight: 4102 g, 5 Illustrations, color; VIII, 257 p. 5 illus. in color., 1 Paperback / softback
  • Sērija : Lecture Notes in Physics 918
  • Izdošanas datums: 20-Nov-2015
  • Izdevniecība: Springer International Publishing AG
  • ISBN-10: 3319248782
  • ISBN-13: 9783319248783
Citas grāmatas par šo tēmu:
Permanent link: https://www.kriso.lv/db/9783319248783.html
Keywords:
This is the problems and solution manual for the graduate text with the same title and published as Lecture Notes in Physics Vol 877 which provides the necessary mathematical and physics background to understand the transport of gases, charged particle gases, energetic charged particles, turbulence, and radiation in an astrophysical and space physics context. The very detailed and self-contained problems and solutions will be an essential part of the training of any graduate student wishing to enter and pursuing research in this field.

Introduction.- Statistical Background.- The Boltzmann Transport Equation.- Charged Particle Transport in a Collisional Magnetized.- Charged Particle Transport in a Collisionless Magnetized Plasma.- The Transport of Low Frequency Turbulence.- Index

Recenzijas

Undoubtedly provide a valuable theoretical resource for researchers in space physics and astrophysics, written by authors who are clearly deeply immersed in their subject material. (S. W. H. Cowley, The Observatory, Vol. 136 (1254), October, 2016)

1 Statistical Background
1(76)
1.1 Probability Set Function
1(6)
1.2 Random or Stochastic Variables
7(2)
1.3 The Probability Density Function
9(5)
1.4 The Distribution Function
14(10)
1.5 Expectations and Moments
24(14)
1.6 Conditional Probability and Marginal and Conditional Distribution
38(12)
1.7 Stochastic Independence
50(4)
1.8 Particular Distributions
54(14)
1.8.1 The Binomial Distribution
54(3)
1.8.2 The Poisson Distribution
57(5)
1.8.3 The Normal or Gaussian Distribution
62(6)
1.9 The Central Limit Theorem
68(2)
1.10 The Language of Fluid Turbulence
70(7)
2 The Boltzmann Transport Equation
77(60)
2.1 Derivation of the Boltzmann Transport Equation
77(6)
2.2 The Boltzmann Collision Operator
83(9)
2.3 The Boltzmann Equation and the Fluid Equations
92(9)
2.4 The Chapman-Enskog Expansion
101(13)
2.5 Application 1: Structure of Weak Shock Waves
114(15)
2.6 Application 2: The Diffusion and Telegrapher Equations
129(8)
3 Collisional Charged Particle Transport in a Magnetized Plasma
137(58)
3.1 The Kinetic Equation and Moments for a Magnetized Plasma
137(9)
3.2 Markov Processes, the Chapman-Kolmogorov Equation, and the Fokker-Planck Equation
146(1)
3.3 Collision Dynamics, the Rosenbluth Potentials, and the Landau Collision Operator
147(7)
3.4 Electron-Proton Collisions
154(2)
3.5 Collisions with a Maxwellian Background
156(3)
3.6 Collision Operator for Fast Ions
159(1)
3.7 Transport Equations for a Collisional Electron-Proton Plasma
160(13)
3.8 Application 1: Transport Perpendicular to a Mean Magnetic Field
173(6)
3.9 Application 2: The Equations of Magnetohydrodynamics
179(9)
3.10 Application 3: MHD Shock Waves
188(7)
4 Charged Particle Transport in a Collisionless Magnetized Plasma
195(40)
4.1 The Focussed Transport Equation
195(14)
4.2 Quasi-Linear Transport Theory of Charged Particles: Derivation of the Scattering Tensor
209(4)
4.3 Hydrodynamic Description of Energetic Particles
213(15)
4.4 Application 1: Diffusive Shock Acceleration
228(7)
5 The Transport of Low Frequency Turbulence
235(18)
5.1 Mean Field Description of MHD Fluctuations
235(4)
5.2 The Transport Equation for the Magnetic Energy Density
239(5)
5.3 Modelling the Dissipation Terms
244(9)
References 253(2)
Index 255