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 aw Z√2wom ( w ) = { – ( 1 + Z√2 ) ( w2 – 5 ) wóm ( 1 ) - Z 23 : ) { ΦΕ ...
... 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 aw Z√2wom ( w ) = { – ( 1 + Z√2 ) ( w2 – 5 ) wóm ( 1 ) - Z 23 : ) { ΦΕ ...
الصفحة 88
... Numerical results Results from the computer program depend on a number of parameters , which are essentially : grid type ( regular or in geometrical progression ) , maximum velocity ( 8 times ... Numerical computations 888 Numerical results.
... Numerical results Results from the computer program depend on a number of parameters , which are essentially : grid type ( regular or in geometrical progression ) , maximum velocity ( 8 times ... Numerical computations 888 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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atomic species BBGKY hierarchy Boltzmann Equation Braginskii charge classical collision frequencies collision integrals collision operator collision terms collisional conservation equation Coulomb logarithms defined diffusion distribution function electric field electron-ion energy equation Enskog equal mass ions equation set equilibrium fluid equations Fokker-Planck Galilean invariance heat flux heavy ions hydrodynamic interaction interdiffusion ion species ionic Landau Lemma limit linear magnetic field Maxwellian distributions Maxwellian estimate mean velocity multi-fluid equations neutral plasma obtained Ohm's law particle Perthame perturbation calculation perturbation equations Phys Plasma Physics quantum Quantum Hydrodynamics Raß relative velocity scalar self-collision T₁ T₂ tensor Theorem thermal transport coefficients transport equations vector viscosity Vlasov Equation Wigner αα αβ Μα тв ть მა