Modeling of CollisionsGauthier-Villars, 1998 - 222 من الصفحات |
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الصفحة
... Developed collision terms 50 4.3 Linearized collision terms 53 4.4 Developed perturbation equations 59 4.5 Reduced quantities 62 Chapter 5 Temperature relaxation 63 5.1 Equal mass ions ... 5.2 Very different masses 888 63 66 Chapter 6 ...
... Developed collision terms 50 4.3 Linearized collision terms 53 4.4 Developed perturbation equations 59 4.5 Reduced quantities 62 Chapter 5 Temperature relaxation 63 5.1 Equal mass ions ... 5.2 Very different masses 888 63 66 Chapter 6 ...
الصفحة 49
... developed the same way : Cað ( fa , f3 ) = Cas ( fa , f9 ) + · Cas ( fa , fs ) + ( - ) : Cap ( fa , fs ) + ...... .. ƒß ) v2 3 Moments and collision integrals Tensorial developments being made in a frame with velocity u , angular ...
... developed the same way : Cað ( fa , f3 ) = Cas ( fa , f9 ) + · Cas ( fa , fs ) + ( - ) : Cap ( fa , fs ) + ...... .. ƒß ) v2 3 Moments and collision integrals Tensorial developments being made in a frame with velocity u , angular ...
الصفحة 59
... Developed perturbation equations The general perturbation equation ( 3-14 ) is finally split into three parts : scalar , vectorial , and tensorial . Scalar ... Developed perturbation equations 59 4 Developed perturbation equations.
... Developed perturbation equations The general perturbation equation ( 3-14 ) is finally split into three parts : scalar , vectorial , and tensorial . Scalar ... Developed perturbation equations 59 4 Developed perturbation equations.
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appear approximation assumed atomic average Boltzmann Equation calculation chapter charge classical close collision frequencies collision terms collisional computed conservation consider correct Coulomb logarithms coupled defined density depend developed diffusion distribution function effect electrons energy equal equilibrium estimate existence expressions finally fluid flux formula frame given gives heat heavy hydrodynamic integrals interaction ion species ionic kinetic light limit linear mass Maxwellian mean mean velocity momentum multi-fluid neutral Note numerical obtained operator parameter particle particular perturbation perturbation equations Phys physics plasma pressure problem properties quantities quantum quantum mechanical reduced reference relations relative satisfies scalar single solution solved temperature tensor theory thermal transport coefficients transport equations vector αβ Μα