Modeling of CollisionsGauthier-Villars, 1998 - 222 من الصفحات |
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الصفحة 78
... Numerical computations 8.1 Equations The equations to be solved to get vectorial transport coefficients are , depending on the case , ( 6-6 ) or ( 7-9 ) 1 მ -C w3 dw Z√2wom ( w ) w3 = { – ( 1 + Z√2 ) ( w2 – 5 ) wóm ( w ) www.davi Z ...
... Numerical computations 8.1 Equations The equations to be solved to get vectorial transport coefficients are , depending on the case , ( 6-6 ) or ( 7-9 ) 1 მ -C w3 dw Z√2wom ( w ) w3 = { – ( 1 + Z√2 ) ( w2 – 5 ) wóm ( w ) www.davi Z ...
الصفحة 88
... Numerical results Fi 3√2 = 0 Results from the computer program depend on a number of parameters , which are essentially : grid type ( regular or in geometrical progression ) , maximum velocity ... Numerical computations Numerical results.
... Numerical results Fi 3√2 = 0 Results from the computer program depend on a number of parameters , which are essentially : grid type ( regular or in geometrical progression ) , maximum velocity ... Numerical computations Numerical results.
الصفحة 160
... numerical applications , only those models with only one additional kinetic variable are useful . These models were introduced at a numerical level by Borgnakke - Larsen [ 8 ] and the first complete theoretical description was given in ...
... numerical applications , only those models with only one additional kinetic variable are useful . These models were introduced at a numerical level by Borgnakke - Larsen [ 8 ] and the first complete theoretical description was given in ...
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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