Nikolai V. Brilliantov, Thorsten Poschel

Kinetic Theory of Granular Gases

• Broschiertes Buch

Produktbeschreibung

In contrast to molecular gases (for example, air), the particles of granular gases, such as a cloud of dust, lose part of their kinetic energy when they collide, giving rise to many exciting physical properties. The book provides a self-contained introduction to the theory of granular gases for advanced undergraduates and beginning graduates.

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Produktdetails

• Verlag: OUP Oxford
• Seitenzahl: 344
• Erscheinungstermin: 11. November 2010
• Englisch
• Abmessung: 234mm x 156mm x 19mm
• Gewicht: 524g
• ISBN-13: 9780199588138
• ISBN-10: 0199588139
• Artikelnr.: 31387335

Inhaltsangabe

* 1: Introduction
* I Mechanics of Particle Collisions
* 2: Particle collisions
* 3: Coefficients of restitution
* 4: Applications to few-particle systems
* II Granular Gases - Velocity Distribution Function
* 5: Cooling granular gas - Haff's law
* 6: Boltzmann equation
* 7: Sonine polynomials expansion of the velocity distribution function
* 8: Velocity distribution and temperature of a granular gas for the
case epsilon = const.
* 9: Velocity distribution function and temperature for viscoelastic
particles
* 10: High-energy tail of the velocity distribution function
* 11: Two-dimensional granular gases
* III Single-particle Transport, Self-Diffusion and Brownian Motion
* 12: Diffusion and self-diffusion
* 13: Pseudo-Liouville and binary collision operators in dissipative
gas dynamics
* 14: Coefficient of self-diffusion
* 15: Brownian motion in granular gases
* 16: Two-dimensional granular gases
* IV Transport Processes and Kinetic Coefficients
* 17: Granular gas as a continuum: hydrodynamic equations
* 18: Chapman-Enskog approach for non-uniform granular gases
* 19: Kinetic coefficients and velocity distribution for gases of
elastic particles
* 20: Kinetic coefficients for granular gases of simplified particles
* 21: Kinetic coefficients for granular gases of viscoelastic particles
* 22: Chapman-Enskog method for self-diffusion coefficients
* 23: Two-dimensional granular gases
* V Structure Formation
* 24: Instability of the homogeneous cooling state
* 25: Structure formation for epsilon = const.
* 26: Structure formation in granular gases of viscoelastic particles
* 27: Nonlinear mechanisms for structure formation
* 28: Two-dimensional granular gases
* A: Functions of the collision integral
* B: Molecular dynamics of granular gases
* C: Solutions to the problems