| Êíèãà | Ñòðàíèöû äëÿ ïîèñêà |
| Wolf E.L. — Nanophysics and nanotechnology. An introduction to modern concepts in nanoscience | |
| Mahan G.D. — Many-particle physics | see “Specific heat” |
| Zeidler E. — Nonlinear Functional Analysis and its Applications IV: Applications to Mathematical Physic | 378 |
| Bird R.B., Lightfoot E.N., Stewart W.E. — Transport Phenomena | 268, 269, 274 |
| Di Francesco P., Mathieu P., Senechal D. — Conformal field theory | 62 |
| Finlayson B.A. — Numerical Methods for Problems With Moving Fronts | 416, 417 |
| Allen M.P., Tildesley D.J. — Computer simulation of liquids | 51ff |
| Frenkel D., Smit B. — Understanding Molecular Simulation: from algorithms to applications | 58, 85 |
| Showalter R.E. — Monotone Operators in Banach Space and Nonlinear Partial Differential Equations | 241 |
| Kuchel P.W., Ralston G.B. — Schaum's outline of theory and problems of biochemistry | 292 |
| Jensen F. — Introduction to Computational Chemistry | 298, 378 |
| Atkins P.W., Friedman R.S. — Molecular Quantum Mechanics | 3 |
| Wilson A.H. — Thermodynam Mechanics | see Heat function and Specific heat |
| Huang K. — Statistical Mechanics | 4 |
| Dill K.A., Bromberg S. — Molecular Driving Forces: Statistical Thermodynamics in Chemistry and Biology | 40, 142, 228 |
| Chaudhry M.A., Zubair S.M. — On a Class of Incomplete Gamma Functions with Applications | 334, 410 |
| Edwards H. — Advanced Calculus: A Differential Forms Approach | 334 |
| Poprawe R. (ed.), Loosen P., Bachmann F. — High Power Diode Lasers: Technology and Applications | 390 |
| Honerkamp J. — Statistical Physics | 76 |
| Mayer J.E., Mayer M.G. — Statistical Mechanics | 438—440 (see also “Thermodynamic functions”) |
| Eringen A.C. — Mechanics of continua | 464 |
| Walecka J.D. — Fundamentals of statistical mechanics | 77f, 106, 196 |
| Chaikin P.M., Lubensky T.C. — Principles of condensed matter physics | 114 |
| Isihara A. — Statistical physics | see “Specific heat” |
| Kadanoff L.P. — Statistical physics | 16 |
| Dorlas T.C. — Statistical mechanics, fundamentals and model solutions | 8, 9 |
| Lerner K.L., Lerner B.W. — The gale encyclopedia of science (Vol. 6) | 3:1949—1950 |
| Ready J.F., Farson D.F. — LIA handbook of laser materials processing | 170, 171, 172, 173, 309, 310, 331, 362, 364, 403, 429, 472 |
| Cheremisinoff N. — Handbook of engineering polymeric materials | 28, 852 |
| Langmuir I. — Phenomena, Atoms and Molecules | 196 |
| Haas A.E. — Introduction to theoretical physics, Vol. 1 and 2 | 313 |
| Sokolnikoff I.S. — Mathematics of Physics and Modern Engineering | 455 |
| Schercliff J.A. — Vector Fields | 94, 100, 138, 181, 196, 198 |
| Fishbane P.M. — Physics For Scientists and Engineers with Modern Physics | 518—519 |
| Staff of Research and Education Association — The Thermodynamics Problem Solver: A Complete Solution Guide to Any Textbook | 6-19, 6-20, 10-10, 10-23, 11-18, 11-19, 11-25, 11-30 to 11-32, 11-39, 11-62, 11-65 |
| Adkins C.J. — Equilibrium Thermodynamics | 42—45, 81, 112—114 |
| Cleland A.N. — Foundations of nanomechanics | 33 |
| Structure Property Relationships in Polimers | 89 |
| Kubo R., Toda M., Hashitsume N. — Statistical physics II. Nonequilibrium statistical mechanics | 150, 157 |
| Unertl W.N. — Physical Structure | 511, 59, 522, 535, 806, 807 |
| Kubo R. — Statistical Mechanics: An Advanced Course with Problems and Solutions | see “Specific heat” |
| Kittel Charles, Kroemer Herbert — Thermal Physics | 63, 165 |
| Cowan B. — Topics In Statistical Mechanics | 153, 198, 222 |
| Balian R. — From Microphysics to Macrophysics: Methods and Applications of Statistical Physics (vol. 1) | see “Specific heats” |
| Gautreau R., Savin W. — Schaum's Outline of Modern Physics | 296 |
| Huang K. — Introduction to Statistical Physics | 6 |
| Wolf E.L. — Nanophysics and nanotechnology: an introduction to modern concepts in nanoscience | 22 |
| Orlando T.P., Delin K.F. — Foundations of Applied Superconductivity | 327p |
| Animalu A.O. — Intermediate Quantum Theory of Crystalline Solids | 134, 139, 422 |
| Efros A.L. (ed.), Pollak M. (ed.) — Electron-electron interactions in disordered systems | 51, 55, 56, 106-108, 119 (see also “Specific heat”) |
| Gray C.G., Gubbins K.E. — Theory of molecular fluids | 196 |
| Slater J.C. — Introduction To Chemical Physics | see “Specific heat” |
| Fersht A. — Structure and Mechanism in Protein Science | see “Specific heat” |
| Pfeiler W. — Alloy Physics: A Comprehensive Reference | 143, 145, 150ff |
| Mattheij R.M.M. — Partial differential equations: modeling, analysis, computation | 119 |
| Daniel C. Mattis — The theory of magnetism made simple: an introduction to physical concepts and to some useful mathematical methods | 351, 361, 412, 420, 437, 541 |
| Wilson A.J.C. — X-ray optics;: The diffraction of X-rays by finite and imperfect crystals | 133—135, 137, 141 |
| Bird R.B., Armstrong R.C., Hassager O. — Dynamics of polymeric liquids (Vol. 1. Fluid mechanics) | (1)209 |
| Gao W., Sammes N. — An Introduction to Electronic and Ionic Materials | 202, 203 |
| Margenau H., Murphy G.M. — The mathematics of physics and chemistry | 11, 12 |
| Phillips P. — Advanced Solid State Physics | 251, 256 |
| Ashcroft N.W., Mermin N.D. — Solid State Physics | see "Specific heat" |
| Attard P. — Therodynamics and Statistical Mechanics: Equilibrium by Entropy Maximisation | 48, 71, 77, 161, 169 |
| Mourachkine A. — High-Temperature Superconductivity in Cuprates: The Nonlinear Mechanism and Tunneling Measurements | 26, 55, 63, 85 |
| Huggins E.R. — Physics 2000 | 17—26 |
| Goldenfeld N. — Lectures on Phase Transitions and the Renormalization Group | 11, 126 |
| Brandt D.A., Warner J.C. — Metallurgy Fundamentals | 62—63 |
| Knight J. — Science of everyday things (volume 4). Real-life earth science | 2:219, 2:230 |
| Accetta J.S. (ed.), Shumaker D.L. (ed.), Rogatto W.D. (ed.) — The Infrared & Electro-Optical Systems Handbook. Volume 3: Electro-Optical Components | 7, 354—357, see also "Specific heat" |
| Yang W. — Fluidization, Solids Handling, and Processing: Industrial Applications | 191 |
| Mayer J.E., Goeppert Mayer M. — Statistical mechanics | 438—440, see also "Thermodynamic functions" |
| Doremus R.H. — Glass Science | 114 |
| Churchill R.V. — Operational mathematics | 129 |
| Reif F. — Fundamentals of statistical and thermal physics | 139—141, see also "Specific heat" |
| Chaikin P., Lubensky T. — Principles of condensed matter physics | 114 |
| Greiner W., Neise L., Stöcker H. — Thermodynamics and statistical mechanics | 15 |
| Gould H., Tobochnik J., Christian W. — An introduction to computer simulation methods | 608, 609, 666 |
| Dugdale J.S. — Entropy and its Physical Meaning | 3—4, 6, 23, 43—44 |
| Hobbie R., Roth B. — Intermediate Physics for Medicine and Biology, | 61, 278 |
| Thirring W., Harrell E.M. — Quantum Mathematical Physics. Atoms, Molecules and Large many-body Systems | 363 |
| HarrisR. — Nonclassical physics: beyond Newton's view | see "Specific heat" |
| Boyd R.W. — Nonlinear Optics | 221 |
| Greiner W., Neise L., Stocker H. — Thermodynamics and statistical mechanics | 15 |
| Kubo R. — Thermodynamics | 11, 19, 137, 271 |
| Lemaitre J., Desmorat R. — Engineering Damage Mechanics: Ductile, Creep, Fatigue and Brittle Failures | 8, 70 |
| Kardar M. — Statistical physics of fields | 28, 47 |
| Lienhardt J.H. IV, Lienhardt J.H. V — A heat transfer textbook | see "Specific heat capacity" |
| Mattheij R.M. — Partial differential equations | 119 |
| Davies P. — The New Physics | 211—212, 214, 217—218, 220—222, 226 |
| Askeland D.R. — The Science and Engineering of Materials | 729, 742 |
| Zorich V.A., Cooke R. — Mathematical analysis II | 223 |
| Zorich V. — Mathematical Analysis | 223 |
| Reichl L.E. — Modern Course in Statistical Physics | 50—53 |
| Bird R.B., Curtiss C.F., Armstrong R.C. — Dynamics of Polymeric Liquids. Vol. 2. Kinetic Theory | (1)209 |
| Bok J., Deutscher G., Pavuna D. — The gap symmetry and fluctuations in High-Tc conductors | 20, 47, 403, 459 |
| Bok J., Deutscher G., Pavuna D. — The gap symmetry and fluctuations in High-Tc conductors | 20, 47, 403, 459 |
| Logan J. — Applied Mathematics: A Contemporary Approach | 8 |
| Honerkamp J. — Statistical physics: an advanced approach with applications | 76 |
| Cushman-Roisin B. — Introduction to geophysical fluid dynamics | 35, 36 |
| Rosser W.G.V. — An introduction to statistical physics | 18, 19, 71, 259 |
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