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Электронная библиотека
механико-математического факультета
Московского государственного университета
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Поиск книг, содержащих: Pauli exclusion principle
| Книга | Страницы для поиска | | Wolf E.L. - Nanophysics and nanotechnology. An introduction to modern concepts in nanoscience | | | Crowell B. - The modern revolution in physics | | | Smith M.B., March J. - March's Advanced Organic Chemistry: Reactions, Mechanisms, and Structure | 3 | | Carey F.A. - Organic Chemistry | 8-9 | | Gomez C., Ruiz-Altaba M., Sierra G. - Quantum Groups in Two-Dimensional Physics | 11, 80, 270 | | Greenwood N.N., Earnshaw A. - Chemistry of the Elements | 22 P | | Atkins P.W., Friedman R.S. - Molecular Quantum Mechanics | 227 | | Johnson N., Kotz S., Kemp A.W. - Univariate discrete distributions | 420 | | Huang K. - Statistical Mechanics | 244 | | Liddle A. - An Introduction to Modern Cosmology | 13 | | Miessler G., Tarr D.A. - Inorganic Chemistry | 35 | | Browne M.E. - Schaum's outline of theory and problems of physics for engineering and science | 426 | | Chow W.W., Koch S.W. - Semiconductor-laser fundamentals | 14, 29 | | Elliott R.J., Gibson A.F. - An Introduction to Solid State Physics and Its Applications | 42, 122 | | Kapusta J.I. - Finite-temperature field theory | 4, 24, 121, 165 | | Getzlaff M. - Fundamentals of Magnetism | 21, 25, 41, 42, 44 | | Walecka J.D. - Fundamentals of statistical mechanics | 228 | | Chaikin P.M., Lubensky T.C. - Principles of condensed matter physics | 20 | | Domb C., Green M.S. (eds.) - Phase Transitions and Critical Phenomena (Vol. 1) | 38 | | Mihaly L., Martin M.C. - Solid state physics. Problems and solutions | 177 | | Zel'dovich Ya.B., Raizer Yu.P. - Physics of Shock Waves and High-Temperature Hydrodynamic Phenomena (vol. 1) | 220 | | Dorlas T.C. - Statistical mechanics, fundamentals and model solutions | 101, 102, 128 | | Griffits D.J. - Introduction to quantum mechanics | 180, 189, 193, 195, 203 | | Szekeres P. - A Course in Modern Mathematical Physics: Groups, Hilbert Space and Differential Geometry | 397 | | Lerner K.L., Lerner B.W. - The gale encyclopedia of science (Vol. 6) | See Exclusion principle, Pauli | | Collins G.W. - Fundamentals of Stellar Astrophysics | 8, 10, 27, 65, 161 | | Shiryaev A.N. - Probability | 10 | | Fowler R.H. - Statistical thermodynamics: A version of statistical mechanics for students of physics and chemistry | 17 | | Thaller B. - The Dirac equation | 278 | | Fishbane P.M. - Physics For Scientists and Engineers with Modern Physics | 753, 1147-1151, 1156, 1178 | | Bethe H.A., Jackiw R. - Intermediate Quantum Mechanics | 26 | | Yamamoto Y., Imamoglu A. - Mesoscopic quantum optics | 247, 262 | | Koerber G.G. - Properties of Solids | 88-89 | | Bube R.H. - Electronic Properties of Crystalline Solids: An Introduction to Fundamentals | 73, 79, 80, 99, 122, 158 | | Unertl W.N. - Physical Structure | 149, 505 | | Lopuzanski J. - An introduction to symmetry and supersymmetry in quantum field theory | 85, 248 | | Peleg Y., Pnini R., Zaarur E. - Schaum's outline of theory and problems of quantum mechanics | 231 | | Allen H.S. - Electrons and Waves | 276 | | HyperChem Computational Chemistry | 34 | | Zel'dovich Ya.B., Raizer Yu.P. - Physics of Shock Waves and High-Temperature Hydrodynamic Phenomena (vol. 2) | 220, 701 | | Meyerhof W.E. - Elements of Nuclear Physics | see 'Exclusion principle' | | Mandl F., Shaw G. - Quantum field theory | 115 | | Kittel Charles, Kroemer Herbert - Thermal Physics | 152 | | Cowan B. - Topics In Statistical Mechanics | 27, 72, 87 | | Poole Jr.C.P., Owens F.J. - Introduction to Nanotechnology | 167 | | Lang K.R. - Astrophysical Formulae: Space, Time, Matter and Cosmology, Vol. 2 | 186 | | Kenzel W., Reents G., Clajus M. - Physics by Computer | 71, 72 | | Bethe H.A., Salpeter E.E. - Quantum Mechanics of One-and-Two-Electron Atoms | 126 | | Barrow J.D., Tipler F.J. - Anthropic Cosmological Principle | 300, 302-303, 391 | | Huang K. - Introduction to Statistical Physics | 106 | | Bube R.H. - Photoconductivity of Solids | 22 | | Wolf E.L. - Nanophysics and nanotechnology: an introduction to modern concepts in nanoscience | 69, 72, 89, 90, 97 | | Miller W. - Symmetry Groups and Their Applications | 268, 377, 379 | | Park D. - Introduction to the quantum theory | 417, 429 | | Fetter A.L., Walecka J.D. - Quantum theory of many-particle systems | 15, 26, 47, 127, 134, 184, 193, 322, 344, 357, 480, 520, 572, 574 | | Avery J. - Creation and Annihilation Operators | 32, 184 | | Stahl A. - Physics with tau leptons | 32, 184 | | Streetman B.G. - Solid State Electronic Devices | 45 | | Gray C.G., Gubbins K.E. - Theory of molecular fluids | 100 | | Carrol B.W., Ostlie D.A. - An introduction to modern astrophysics | 135, 136, 567 | | Hoddeson L., Daitch V. - True Genius: The Life and Science of John Bardeen | 59-60, 77, 211 | | Slater J.C. - Introduction To Chemical Physics | 342 | | Israelachvili J.N. - Intermolecular and surface forces | 29 | | Zee A. - Quantum field theory in a nutshell | 117, 301 | | Slater J.C. - Quantum Theory of Atomic Structure vol1 | 191-192, 282-286, 297 | | Steeb W.- H. - Problems and Solutions in Introductory and Advanced Matrix Calculus | 170 | | Halzen F., Martin A.D. - Quarks and Leptons: An Introductory Course in Modern Particle Physics | 33 | | Shankar R. - Principles of quantum mechanics | 264 | | Padmanabhan T. - Theoretical Astrophysics: Volume 1, Astrophysical Processes | 177 | | Cotterill R.M.J. - Biophysics: An Introduction | 9 | | Martin R.M. - Electronic Structure: Basic Theory and Practical Methods | see "Exclusion principle" | | Auletta G. - Foundations and Interpretation of Quantum Mechanics | 55, 70 | | Sternberg S. - Group Theory and Physics | 201 | | Mihalas D., Mihalas B.W. - Foundations of Radiation Hydrodynamics | 44 | | Sachs R.K., Wu H. - General relativity for mathematicians | 218 | | Gao W., Sammes N. - An Introduction to Electronic and Ionic Materials | 39 | | Measures R.M. - Laser remote sensing. Fundamentals and applications | 197 | | Vincenti W.G., Kruger C.H. - Introduction to Physical Gas Dynamics | 96 | | Fox M. - Optical properties of solids | 50, 93, 236 | | Phillips P. - Advanced Solid State Physics | 31, 78, 206, 219, 224 | | Gottfried K., Weisskopf V.F. - Concepts of Particle Physics | 28, 86 | | Ashcroft N.W., Mermin N.D. - Solid State Physics | 32, 332n | | Eliezer Sh., Ghatak A., Hora H. - Fundamentals of Equations of State | 308 | | Dekker A.J. - Solid State Physics | 217, 527 | | Azaroff L.V. - Introduction to Solids | 208-210, 241 | | Huggins E.R. - Physics 2000 | 38-1, 38-9 | | Zakrzewski W.J. - Low Dimensional Sigma Models | 6 | | Nouredine Z. - Quantum Mechanics: Concepts and Applications | 449-451 | | Rosenberg H.M. - Low temperature solid state physics. Some selected topics | 288 | | Schwartz M. - Principles of electrodynamics | 330 | | Seitz F. - The Physics of Metals | 25, 241 | | Knight J. - Science of everyday things (volume 4). Real-life earth science | 1:89, 1:142 | | Shockley W. - Imperfections in Nearly Perfect Crystals: Symposium held at Pocono Manor | 10 | | Beard D.B. - Quantum Mechanics | 247 | | Akhiezer A.I., Berestetskii V.B. - Quantum electrodynamics | 198 | | Kemble E. C. - The fundamental principles of quantum mechanics | 71, 337, 482, 491 | | Reif F. - Fundamentals of statistical and thermal physics | 333 | | Anderson J.B. - Quantum Monte Carlo: Origins, Development, Applications | 10, 12, 112 | | Chaikin P., Lubensky T. - Principles of condensed matter physics | 20 | | Ram-Mohan R. - Finite Element and Boundary Element Applications in Quantum Mechanics | 25 | | Thaller B. - The Dirac equation | 278 | | Mathews J., Walker R.L. - Mathematical methods of physics | 442 | | Rudzikas Z. - Theoretical Atomic Spectroscopy | 75, 86 | | Marder M.P. - Condensed matter physics | 135, 138, 205, 219, 246, 453 | | Beard D.B. - Quantum Mechanics | 247 | | Dugdale J.S. - Entropy and its Physical Meaning | 118, 127, 149, 152 | | Hobbie R., Roth B. - Intermediate Physics for Medicine and Biology, | 362, 421 | | Leighton R.B. - Principles of Modern Physics | 236 | | Davies J.H. - The physics of low-dimensional semiconductors : an introduction | 30 | | Goldsmid J., Drabble H. - Thermal Conduction in Semiconductors | 51, 88 | | 0 - Holt Physics | 912, 917-919, 932 | | Biedenharn L.C., Louck J.D. - Angular momentum in quantum physics | 369, 494, 500, 528, 617 | | Laurens Jansen - Theory of Finite Groups. Applications in Physics | 234-236 | | Ashby N., Miller S.C. - Principles of modern physics | 254, 258 | | Streater R.F. - Statistical Dynamics: A Stochastic Approach to Nonequilibrium Thermodynamics | 190 | | Pauling L., Goudsmit S. - The Structure of Line Spectra | 144 | | Chandler D. - Introduction to modern statistical mechanics | 90, 203, see also "Fermions" | | Sakurai J.J. - Modern quantum mechanics | 265, 362 | | Glimm J., Jaffe A. - Quantum Physics: A Functional Integral Point of View | 11, 23, 28, 151 | | Lyons L. - All You Wanted to Know about Mathematics but Were Afraid to Ask - Mathematics for Science Students. Volume 1 | 294-295 | | Thorne K.S., Hawking S. - Black holes and time warps: Einstein's outrageous legacy | 170b | | Powell R. - Physics of Solid State Laser Materials (Atomic, Molecular and Optical Physics Series) | 33, 36, 67, 216, 227, 295 | | Lambert J.B., Mazzola E.P. - Nuclear Magnetic Resonance Spectroscopy | 104 | | Davies P. - The New Physics | 228-230, 273, 399, 400, 402, 404-406, 478, 486 | | Krane K.S. - Introductory nuclear physics | 40 | | Mackey G. - Unitary Group Representations in Physics, Probability and Number Theory | 224, 232 | | Askeland D.R. - The Science and Engineering of Materials | 20, 34 | | Park D. - Introduction to the Quantum Theory (Pure & Applied Physics) | 417, 429 | | Kaiser G. - Quantum physics, relativity, and complex spacetime: Towards a new synthesis | 293 | | Reichl L.E. - Modern Course in Statistical Physics | 382 | | Fetter A.L., Walecka J.D. - Quantum theory of many-particle systems | 15, 26, 47, 127, 134, 184, 193, 322, 344, 357, 480, 520, 572, 574 | | Mathews J., Walker R.L. - Mathematical Methods of Physics | 442 |
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