Cercignani C. — Rarefied Gas Dynamics :: Электронная библиотека попечительского совета мехмата МГУ

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Cercignani C. — Rarefied Gas Dynamics

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Название: Rarefied Gas Dynamics

Автор: Cercignani C.

Язык:

Рубрика: Физика/

Статус предметного указателя: Готов указатель с номерами страниц

ed2k: ed2k stats

Год издания: 2000

Количество страниц: 320

Добавлена в каталог: 07.12.2008

Операции: Положить на полку | Скопировать ссылку для форума | Скопировать ID

Предметный указатель

Internal variables      209
Inverse collision      210
Inverse Knudsen number      94 172
Inverted temperature gradient      275 276 289 296 297 299
Ionization      205 220 221 225 226
Ionization phenomena      1
Ionized flows      115 231
Ions      66 221
Isothermal surfaces      252
Isothermal waves      138
Isotope separation      277
Jet boundary      306
Kinematic viscosity      183
Kinetic boundary layers      40
kinetic energy      2 10 36 209 305
Kinetic equation      209
Kinetic model      26 129 207 230
Kinetic solvers      265
Kinetic theory      1 16 20 30 65 92 113 129 142 173 204 220—222 235 241 265 273
Knudsen gas      59 186
Knudsen layers      40 51 54 71 72 78—80 93 101 103 110—112 133 168 256 275—278 285 289 293 295—298 300 301 304
Knudsen minimum effect      99 113
Knudsen number      43 51 58 62 64 68 84 96 98 101 102 112 119 122 171 189 235 237 239 243—247 252 263 264 293 297 299
Knudsen, M.      36 51 98 99
Kramers' problem      104 105 107
Kronecker delta      20
Laminar flow      241 245
Laminar regime      238
Larsen — Borgnakke model      213 215
Laser-sputtering      277
Latent heat      286 288 289 296 297 299
Lattice fluid      264
Lattice gas      264 265
Law of interaction      10
Leading edge      235
Lennard-Jones potential      149
Lift      30 190
Lift-to-drag ratio      37
Linearized Boltzmann equation      75 79 82 88 90 95 97 99 101 103 109 112 122 135 162 164 168 171 174—176 179 284
Linearized Boltzmann operator      177
Linearized collision operator      29 52 54 76 84 122 143 163
Linearized collision term      29
Liouville equation      7
Liquid      245 264 273
Liquid state      288
Loaded-sphere model      211
Local Maxwellian      26
Logarithmic singularity      64
Lorentz, H.A.      210 216 217
Mach angle      305
Mach number      43 119 122 144 148 153 155 173 176 182 235 236 243 245 252 275 276 279 281 283—285 288—290 292 293 295 304—306
Mach reflection      236 241
Mach stem      236 237
Macroscopic slip      105
Magnetic field      209 212
Mass      18 19 23 24 26 141 259
Mass balance      286 291 295
Mass conservation      185 258 305
mass density      44 104
Mass density in phase space      16
Mass flow      17 60 71 92 141 255 275 291 292 294
Matched asymptotic expansions      179
Maxwell gas      45 47
Maxwell molecules      10 45 47 48 54 56 58 62 63 68 69 73 82 84 95—97 118 124 140 148
Maxwell's boundary conditions      60 124 290
Maxwell's model      35 213 234
Maxwell, J.C.      2 45 69 71 107 112 204
Maxwellian distribution      21 41 43 50 54 69—71 75 82 83 85 89 90 99 103 104 135—137 142 145 146 149 151 154 162 163 171 173 177 178 183—187 190 207 256 259 274—276 278 284 290—292
Maxwellians      16 25 41 60 72 75 141 147 149 221 278 288
Mean free path      41—43 51 54 58 59 64—67 78—80 86 103 107 111 112 115 117 119 133 135 140 144 146 148 165 167 169 172 189 195 239 243 245 263 264 282 298 299 304
Merged layer      235
Micromachines      66 252 263
Microscopic slip      105
Millikan's formula      172
Millikan's oil drop experiments      171
Milne problem      104
Mixture      10 204—207 209 221 231 260—262 265 299
Model molecules      231
Molar density      221
Molecular chaos      5 7 8
Molecular collisions      59 67 101 115 189 231
Molecular diameter      66 231 243
Molecular Dynamics      241 242 274 298
Molecular interaction      9 54 55 89 148 205 217 223 290
Molecular levels      239
Molecular mass      20
Molecular model      9 95 96 116 146 234 245 246
Molecules      1 2 7—10 23 30 31 35 37 40 44 46 50 54 59 61 64—66 71 72 76 84 99 101 105—107 114—119 130 136 138 140 152—154 186 190 204—207 209—212 217—219 221 222 231 232 235 239 243 261 264 273 274 287 290—292 298—300 304
Moment equations      275—278 282 287 299 303
Moments      45 48 50 52 61 63 64 68—72 79 82 110 118—120 122 132 135 137 139 140 148 154 166 177 184 277 278 289
Momentum      2 17—19 23 26 36 141 190 233 259 265
Momentum balance      46 53 167
Momentum conservation      83 107 185 206 207 217 233 258 259
Momentum density      17
Momentum equation      52 167 286 295
Momentum flow      17 18 45 71 141 255
Momentum transfer      183
Monatomic      43
Monatomic gas      27 43 56 110 136 153 171 204 205 210 211 230 231 246 276 301 303 305 306
Monte Carlo, Direct Simulation (DSMC)      114 117 119 154 211 230 231 234—236 238 241—243 245 246 249 263 264 290 299
Monte Carlo, quadrature method      114 153 230
Monte Carlo, simulation      111 117 122 149 152—154 156 157 230 234 276 292 300
Mott-Smith bimodal distribution      149
Mott-Smith method      148 149 152 275
Multimodal approximation      152
Multiphase flows      265
Multiple collisions      3
Navier — Stokes equations      47—49 54 64 65 67 70 79 80 103 112 113 129 130 137 142 144 148 151 153 156 168 171 172 178 180 182 183 187 235 239 245 249 252 254 263—265 276 284—286 293 295 300
Navier — Stokes equations, compressible      27 186 187
Nearest neighbor interactions      264
Nearly continuum regime      162
Nearly free-molecular regime      67
Neutron waves      138
Nitrogen      204 220 239
No-time-counter DSMC      116
Noncondensable gas      299 300
Nondegenerate levels      209
Nondrifting Maxwellians      16
Nonequilibrium      113 222 299
Nonequilibrium state      23
Nuclear reactor      66
Null collision technique      233 239
Number density      11 221 223 246 299
Oblique shock      236
One-particle probability density      2
Optical fibers      66
Orthogonality condition      144
Outgassing      31
Oxygen      204
Parity operator      89 163
Partial pressure      300
Perfect gas      23 180 181 185 186
Periodicity conditions      117 182 246
Perturbation methods      64 67 162 230
Perturbation of equilibria      75 144
Phase equilibrium      276
Phase space      2 11 16
Phase speed      129 136 139 140
Phase transitions      265
Photon emission      225
photons      221 225
Planck distribution      225
Point masses      3 9 204 209 217
Poiseuille flow      87 98 99 111 113 123 162 169 173
Pollen      66
Polyatomic gases      11 28 114 204—207 209 212 213 216—218 221 230 239 280
Polyatomic molecules      1 209 210 216 218 231
potential energy      222—224
potential flow      235
Power-law potentials      10 55 56

Prandtl number      27 54 55 82 110 111
Pressure      1 5 20 28 45 48 52 54 70 97 98 101 102 139 140 145 166 168 175 176 178 185 273 276 286 291 295
Pressure gradient      53 66 167
probability density      2 3 5 7 11 16 31 33 120 207 209
probability distribution      232 233
Probability of a collision      118
quantum mechanics      10 209 210 219 222
Radiation      66 204 205 221 225 226
Radiation frequency      225
Radiative transfer      104 225
Radioactivity      66
Radius of curvature      133
Random collision pairs      117
Rankine — Hugoniot conditions      141 147 154
Rare gases      204
Rarefied plasmas      226
Rate coefficients      221
Rayleigh — Benard instability      241 245 246
Re-entry calculations      115 236
Reactants      221
Reacting collision      11
Reaction cross-section      221 222 239
Reaction model      221
Reaction rates      225
Reactive collision      209
Reciprocity      33 34 89 212 217 218
Recombination process      222
Recombination reaction      222
Recovery temperature      58
Reduced mass      206
Reflected shock wave      236
Reflection      225
Regular reflection      236 237
Relative speed      10 217 223 224 231
Relative velocity      2 6
Relaxation time      211 214
Reverse reflection      41 50 119 173
Reynolds number      235
Riemann — Hilbert problem      111
Rotating cylinder      173
Rotating spheres      168
Rotational cross—section      239
Rotational energy      211
Rotational invariance      166
Rough sphere model      211
S-particle distribution function      7 115
Saturated vapor      289 296
Saturated vapor density      274
Saturated vapor pressure      274 282 283 291 299
Saturation      288
Scaled Boltzmann equation      176 183
Scales of turbulence      245
Scalings      180 181
Scattering amplitude      209
Scattering cross-section      217
Scattering event      32 225
Scattering kernel      32 34—37 290
Scattering law      231
Scattering probability      225
Second-order slip      111
Senftleben — Beenakker effects      212
Separated flows      238
Shear flow      47 48 64 84
Shear stress      168
Shear waves      129 135 137—139
Shock layers      80
Shock profile      145 235
Shock thickness      144 146 148 149 151 234 237
Shock wave structure      141 142 146 149 151 152 154—156 235 275 276 278
Shock waves      67 79 129 141 142 144 155 235 236 255 265
Shuttle Orbiter      37 236
Silicon chips      66
Simulation schemes      116 117 230
Singular perturbation      51 176 186
Slip boundary condition      112 246
Slip coefficient      105 107—109 123
Slip regime      40
Slipstream      236
Solid      273
Solid state physics      30
Solid wall      1 23 30
Solitary wave      130
Sone sublayer      133
Sonic jet      304
Sound propagation      137—139
Sound waves      129 135 137 138
Source flow      305
Space shuttle      67 117
Space-homogeneous      45—47 68 118 221
Space-homogeneous solutions      22
Spacecraft      65 115
Special—purpose machines      265
Species      205—207 220—223 225
Specific heat      27 54 56 204 305
Specular reflection      2 8 20 23 24 35 41 50 117 119 139 173 290 292
speed of light      225
Speed of sound      43 136 182
Speed ratio      43 243 279 287—289 292
Spherical source      275 306
Sphero-cylinder model      211
Spin      209 212
Spontaneous emission      225
Stability      117
Statistical independence      7
Statistics      1
Stochastic process      115
Stochastic system      117
Stokes equations      171 175 176
Stokes paradox      173 176 182
Strain rate      49
Strange Attractor      245 246
Stress tensor      18 20 45 64 70 79 93 151 166
Stresses      1 18 37 49 119 252
Stretched variable      176
Sublimation      273
Subsonic flow      275 276
Supersonic flow      235 289 304
Surface layers      30
Surface of discontinuity      79 236
Tangential stress      48
Taylor vortices      241 243
Taylor — Couette flow      243 246
Temperature      1 5 20 26—28 31 33 35 41 43 45 48 50 53—58 60—63 70—72 75 76 82 87 91 98 99 104 112—114 119 141 144 146 149 153 166—168 173 175 176 178 182 185 190 209 213 215 216 220 221 231 244 246 252 254 273 274 276 282 288—291 295 297—299 306
Temperature field      246 252
Temperature gradient      66 103 111 112 168 252 254
Temperature jump      72 111 112 123 168 283 289
Temperature overshoot      149 151—154
Temperature profile      122 146 149 283 299
Termolecular reaction      222
Thermal creep      112 123 252
Thermal energy      44 45 70 208 305
Thermal speed      43 75
Thermal stress slip flow      252
Thermal stresses      252
Thermal transpiration      98
Thermal waves      135 138
Thermally insulated      57
Thermally radiating flows      114 230
Thermodynamics      23 37
Thermophoresis      252
Thirteen moment equations      69 71 151 168 275
Time reversal      218
Time reversibility      217 218
Time reversible      23 33
Torque coefficient      244
Total cross-section      217 221
Total energy      19 212
Trailing edge      235
Transition regime      113 139 140
Transition to turbulence      241 244 245

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