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Eliezer Sh., Ghatak A., Hora H. — Fundamentals of Equations of State
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Название: Fundamentals of Equations of StateАвторы: Eliezer Sh., Ghatak A., Hora H.Аннотация: The equation of state was originally developed for ideal gases, and proved central to the development of early molecular and atomic physics. Increasingly sophisticated equations of state have been developed to take into account molecular interactions, quantization, relativistic effects, etc.
Язык: Рубрика: Физика /Статус предметного указателя: Готов указатель с номерами страниц ed2k: ed2k stats Год издания: 2002Количество страниц: 384Добавлена в каталог: 14.11.2008Операции: Положить на полку |
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Предметный указатель
Pressure, ionization 262 probability 23 Quantization 1 16 Quantum collisions 4 Quantum correction 149 Quantum energy 4 Quantum energy of compression 6 Quantum statistics 24 Quantum yield of photo cathodes 12 Radiation law 27 Radiation, effects 11 Radiation, pressure 53 54 258 267 283 Radiation, pressure constant 53 267 Radiation, transport 242 Rankine — Hugoniot equations 209 Rankine — Hugoniot relations 198 199 Rarefaction, front 175 Rarefaction, waves 173 Ratio of specific heats 37 Reactions for nuclei 221 Reheat, alpha 225 Relativistic extreme, limit 266 300 Relativistic particles 5 Relativistically generalized fermi energy 5 Resonance for perpendicular absorption 238 Resonance for perpendicular incidence 237 Richardson equation, photoelectric 12 Richardson equation, thermionic 12 Rieman invariants 169 Rotational degrees of freedom 38 Rotational kinetic energy 34 Rotational motion 34 Rotational partition function 44 Sackur-Tetrode equation 32 Saha equation 3 9 86 Saha ionization formula 89 Salam 305 Schroedinger equation 28 42 76 321 Schwarzschild radius 6 Second law of thermodynamics 15 Self-absorption 225 Self-focusing (relativistically) 245 Self-similarity, compression 232 243 Self-similarity, model 223 242 Self-sustaining, fusion combustion wave 232 Self-sustaining, thermonuclear burn 233 SESAME, EOS 246 SESAME, library 164 SESAME, tables 247 Shift in ionization potential 102 Shock wave 164 165 176 197 198 Shock wave, explosive driven 198 Shock wave, laser generated 198 Slater — Landau formula 164 Slater — Landau model 161 202 Snowplough process 245 Solar mass 6 Sound waves 169 Space technology 1 Specific energy 17 Specific enthalpy 18 Specific free energy 17 Specific heat 18 37 Specific potential 17 Spectra of stars 86 Spectroscopic data 260 Spin degeneracy 60 Standard model 258 294 static pressure 15 Stefan — Boltzmann constant 312 Stefan — Boltzmann law 55 Stefan's constant 55 Stimulated emission 27 Stirling formula 24 32 41 87 325 Stopping power 238 Strangeness 306 Strong coupling interactions 5 13 306 308 Structure constant 4 SU(3) 306 Subsonic speed 182 Sum of states 25 Sun, composition 258 259 Superconductivity 305 Symmetry, breaking 305 Temperature, gradients 239 Temperature, maximum for matter 316 Temperature, variation 257 Thermal conduction 185 237 Thermal conduction, inhibition of 185 thermal conductivity 15 Thermal conductivity, reduction of 242 Thermodynamic functions 144 Thermodynamic potential 18 Thermodynamic separate variables 235 Thermodynamic systems 23 Thermokinetic force 243 Thermonuclear explosion 221 Thermonuclear reactions 4 279 Thomas — Fermi corrected equation of state 337 Thomas — Fermi dimensionless 107 Thomas — Fermi equation 109 120 133 Thomas — Fermi function 110 Thomas — Fermi model 10 104 200 218 235 240 241 246 Thomas — Fermi relation 106 Translational kinetic energy 37 Transverse moments 318 Tritium 221 Vacuum polarization 13 valence electrons 6 7 van der Waals 1 21 Vibrational energies 42 Vibrational modes 181 Vibrational motion 39 Vibrational partition function 42 Virial theorem 139 258 274 333 Vlasov equation 187 Weinberg 305 White dwarf stars 265 299 X-ray, preheating 231 X-ray, soft 239 Yamanaka compression 242 Yamanaka effect 254
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