| Книга | Страницы для поиска |
| Wolf E.L. — Nanophysics and nanotechnology. An introduction to modern concepts in nanoscience | |
| Taylor M.E. — Partial Differential Equations. Basic theory (vol. 1) | 43, 56, 116, 119, 141 |
| Heinbockel J.H. — Introduction to tensor calculus and continuum mechanics | 191 |
| Apostol T.M. — Calculus (vol 2) | 336 |
| Carey F.A. — Organic Chemistry | 85 |
| Keisler H.J. — Elementary calculus | 807 |
| Ito K. — Encyclopedic Dictionary of Mathematics. Vol. 2 | 271.G |
| Zeidler E. — Nonlinear Functional Analysis and its Applications IV: Applications to Mathematical Physic | 17, 33 |
| Bazant Z.P., Cedolin L. — Stability of structures : elastic, inelastic, fracture, and damage theories | 200, 207, 210, 220, 224, 282, 361, 374, 378, 398, 424, 442, 450, 463, 468, 761, 790, 799 |
| Bird R.B., Lightfoot E.N., Stewart W.E. — Transport Phenomena | 334 |
| Brauer F., Nohel J.A. — The qualitative theory of ordinary differential equations | 188—191, 194, 197, 200 |
| Meirovitch L. — Methods of analytical dynamics | 15, 32, 61 |
| Olver P.J. — Equivalence, Invariants and Symmetry | 225 |
| Oprea J. — Differential Geometry and Its Applications | 265, 284 |
| Moaveni S. — Finite Element Analysis .Theory and Application with ANSYS | 33 |
| Showalter R.E. — Monotone Operators in Banach Space and Nonlinear Partial Differential Equations | 13 |
| Weinstock R. — Calculus of variations with applications to physics & engineering | 72, 89 |
| Wiese J., Shems E. — Weird Science: 40 Strange-Acting, Bizarre-Looking, and Barely Believable Activities for Kids | 75 |
| Benson D. — Mathematics and music | 403 |
| Goldstein H., Poole C., Safko J. — Classical mechanics | 4 |
| Williamson R.E., Crowell R.H., Trotter H.F. — Calculus of vector functions | 357 |
| McCammon A.J., Harvey S. — Dynamics Of Proteins And Nucleic Acids | 187 |
| Debnath L. — Nonlinear water waves | 9, 38—39 |
| Jaswon M.A. — The Theory of Cohesion. An Outline of the Cohesive Properties of Electrons in Atoms, Molecules and Crystals | 14, 26, 34 |
| Levine I.N. — Molecular Spectroscopy | 3 |
| Debnath L., Mikusinski P. — Introduction to Hilbert Spaces with Applications | 334, 353 |
| Maugin G.A. — Material inhomogeneities in elasticity | 7, 21 |
| Debnath L. — Nonlinear Partial Differential Equations for Scientists and Engineers | 25, 43, 110 |
| Hand L.N., Finch J.D. — Analytical Mechanics | 18—19, 42, 85—86, (See also conservative forces) |
| Behnke H., Bachmann F., Fladt K. — Fundamentals of Mathematics, Volume III: Analysis | 416 |
| Lynch S. — Dynamical Systems with Applications Using Mathematica® | 112, 117 |
| Machel A.N., Wang K. — Qualitative Theory of Dynamical Systems: The Role of Stability Preserving Mappings | 53 |
| Serre D. — Handbook of Mathematical Fluid Dynamics, Vol. 1 | 54, 55 |
| Debnath L. — Linear Partial Differential Equations for Scientists and Engineers | 382 |
| Strauss W.A. — Partial Differential Equations: An Introduction | 39, 173, 218, 286 |
| Crisfield M.A. — Non-Linear Finite Element Analysis of Solids and Structures. Vol. 1: Essentials | 19, see also Total potential energy |
| Krupkova O. — The Geometry of Ordinary Variational Equations | 12, 12, 122, 165, 227 |
| Sokolnikoff I.S. — Mathematical Theory of Elasticity | 90, 280 |
| Thaller B. — Visual quantum mechanics | 91 |
| Eringen A.C. — Mechanics of continua | 123, 124 |
| Jones R.M. — Mechanics of composite materials | 357 |
| Getzlaff M. — Fundamentals of Magnetism | 7, 31 |
| Born M. — Natural philosophy of cause and chance (The Waynflete lectures) | 18, 61, 67, 95, 168, 180, 183, 206 |
| Feynman R.P., Leighton R.B., Sands M. — The Feynman lectures on physics (vol.1) | 4—4, 13—1 ff, 14—1 ff |
| Lang S.A. — Undergraduate Analysis | 390 |
| Altmann S.L. — Band Theory of Solids: An Introduction from the Point of View of Symmetry | 9 |
| Turnbull H.W. — An Introduction to the Theory of Canonical Matrices | 171 |
| Planck M. — Introduction to Theoretical Physics | 41ff., 52—55 |
| Griffits D.J. — Introduction to quantum mechanics | 1, 20, 31 |
| Szekeres P. — A Course in Modern Mathematical Physics: Groups, Hilbert Space and Differential Geometry | 468 |
| Scott A. — Neuroscience: a mathematical primer | 29, 30, 34 |
| Cantwell B.J., Crighton D.G. (Ed), Ablowitz M.J. (Ed) — Introduction to Symmetry Analysis | 110 |
| Elberly D.H., Shoemake K. — Game Physics | 83—85, 92 |
| Ito K. — Encyclopedic Dictionary of Mathematics | 271.G |
| Menzel D.H. — Mathematical Physics | 9, 29 |
| Eddington A. — Relativity Theory of Protons and Electrons | 245, 264 |
| Collins G.W. — Fundamentals of Stellar Astrophysics | 25 |
| Fundamentals of engineering. Supplied-reference handbook | 25 |
| Perry J. — The Calculus for Engineers | 32 |
| Hale J.K., Kocak H. — Dynamics and Bifurcations | 414 |
| Lanzcos C. — The Variational Principles of Mechanics | 33, 94 |
| Konopinski E.J. — Electromagnetic fields and relativistic particles | 409, 411, 469, 471—472, see also Interaction energy |
| Langmuir I. — Phenomena, Atoms and Molecules | 39, 61 |
| Schroeder M.R. — Schroeder, Self Similarity: Chaos, Fractals, Power Laws | 66, 67 |
| Kuznetsov N., Mazya V., Vainberq B. — Linear Water Waves: A Mathematical Approach | 4, 68, 97, 117, 122, 165, 166, 170, 173, 177, 196, 209, 210, 239, 241, 436, 456 |
| Sokolnikoff I.S. — Mathematics of Physics and Modern Engineering | 43 |
| Robinson W.S. — Magnetic Phenomena - An Elementary Treatise | 51 |
| Fishbane P.M. — Physics For Scientists and Engineers with Modern Physics | 151, 172, 183—197, 201 |
| Pedregal P. — Introduction to Optimization | 163, 173 |
| Gallier J. — Geometric Methods and Applications: For Computer Science and Engineering | 363 |
| Cleland A.N. — Foundations of nanomechanics | 2 |
| Greenberg M.D. — Advanced engineering mathematics | 664 |
| Karman T., Biot A.M. — Mathematical Methods in Engineering | 90 |
| Feodosiev V.I. — Advanced Stress and Stability Analysis | 247, 349 |
| Kyle T.G. — Atmospheric transmission, emission and scattering | 170 |
| Zeldovich Ya.B., Yaglom I.M. — Higher Math for Beginners | 309, 354 |
| Strichartz R.S. — The way of analysis | 506 |
| Rickayzen G. — Green's functions and condensed matter | 344 |
| Havin V.P., Nikolski N.K. (eds.) — Linear and Complex Analysis Problem Book 3 (part 2) | 6.10 |
| Feynman R.P., Leighton R.B., Sands M. — The Feynman lectures on physics (vol.2) | I-4-4, I-13-1 ff, I-14-1 ff |
| Ardema M.D. — Newton-Euler Dynamics | 271—272 |
| Cowling T.G. — Molecules in motion | 30, 106, 141 |
| Stuwe K. — Geodynamics of the Lithosphere: An Introduction | 69, 248, 282 |
| Mercier A. — Analytical and canonical formalism in physics | 11, 23, 27, 39, 40, 60, 97, 115, 120, 122, 123 |
| Kleppner D., Kolenkow R. — An introduction to mechanics | 168 |
| Kulish V.V. — Hierarchical Methods: Hierarchy and Hierarchical Asymptotic Methods In Electrodynamics, Volume 1 | 31, 32, 177, 179, 198, 199 |
| Englert B.G. (Ed) — Quantum Mechanics | 191, 320 |
| Freund L.B. — Dynamic Fracture Mechanics | 4 |
| Love A.E. — Theoretical Mechanics, an Introductory Treatise on the Principles of Dynamics: With Applications and Numerous Examples | 84, 152 |
| Jackson J.D. — Classical electrodynamics | see “Energy” |
| Frazer R.A., Duncan W.J., Collar A.R. — Elementary Matrices | 263, 264, 271, 326 |
| Cercignani C. — Theory and Application of the Boltzman Equation | see “Energy, potential” |
| Wolf E.L. — Nanophysics and nanotechnology: an introduction to modern concepts in nanoscience | 18, 48 |
| Bratteli O., Robinson D.W. — Operator Algebras and Quantum Statistical Mechanics (vol. 2) | 356—359, 386, 424 |
| Fetter A.L., Walecka J.D. — Quantum theory of many-particle systems | 4, 67—68, 200, 205—206, 230 |
| Truesdell C.A. — The Tragicomical History of Thermodynamics, 1822-1854 | 259 |
| Ardema M.D. — Analytical Dynamics: Theory and Applications | 13, 113 |
| Streetman B.G. — Solid State Electronic Devices | 34, 38 |
| Carrol B.W., Ostlie D.A. — An introduction to modern astrophysics | 37 |
| Mehta M.L. — Random Matrices | 63, 182 |
| ter Haar D. — Elements of Statistical Mechanics | 37, 39, 149, 268, 298 |
| Olver P.J., Shakiban C. — Applied linear. algebra | 180, 181, 300, 310, 462, 617 |
| Slater J.C. — Introduction To Chemical Physics | 3 |
| Eddington A.S. — Nature of the Physical World | 213 |
| Dewdney A.K. — Beyond reason. 8 great problems that reveal the limits of science | 5, 31 |
| Bluman G.W. — Problem Book for First Year Calculus | 99 |
| Prigogine I. — From being to becoming: time and complexity in the physical sciences. | 22, 30—31, 43, 55, 56 |
| Oprea J. — Differential Geometry and Its Applications | 312, 323, 326, 351, 353, 358, 362, 412 |
| Bird R.B., Armstrong R.C., Hassager O. — Dynamics of polymeric liquids (Vol. 1. Fluid mechanics) | (2)37, 250, 265, 281 |
| Cotterill R.M.J. — Biophysics: An Introduction | 23, 45 |
| Slater J.C., Frank N.H. — Mechanics | 9—16, 62—66 |
| Meriam J. L. — Engineering Mechanics: Statics. Volume 1 | 405, 407, 409 |
| Arya A.P. — Introduction to Classical Mechanics | 44, 45, 68, 238, 393 |
| Carmeli M. — Classical Fields: General Gravity and Gauge Theory | 4, 92, 280, 299, 618 |
| Амензаде Ю.А. — Теория упругости | 222 |
| Simmons G.F. — Differential Equations with Applications and Historical Notes | 20, 105, 320, 378 |
| Sokolnikoff I.S. — Mathematical Theory of Elasticity | 90, 280 |
| Baez J.C., Muniain J.P. — Gauge theories, knots, and gravity | 268 |
| Gregg S.J., Sing K.S.W. — Adsorption, surface area and porosity | 5, 8 |
| Ohanian H.C. — Classical Electrodynamics | 132, 133, 138 |
| Stavroulakis I.P., Tersian S.A. — Partial Differential Equations: An Introduction with Mathematica and Maple | 92 |
| Lanczos C. — Variational principles of mechanics | 33, 94 |
| Hermann R. — Differential geometry and the calculus of variations | 99 |
| Gallavotti G. — Statistical Mechanics | 5, 59 |
| Courant R., Hilbert D. — Methods of Mathematical Physics. Volume 1 | 242 |
| Wriggers P. — Computational Contact Mechanics | 31 |
| Knight J. — Science of everyday things (volume 4). Real-life earth science | 1:11—12, 4:23—24, see also "Energy" |
| Schechter M. — Operator methods in quantum mechanics | 7 |
| Gantmacher F. — Lectures in Analytical Mechanics | 48 |
| Shu F.H. — The Physical Universe: An Introduction to Astronomy | 36 |
| Yang W. — Fluidization, Solids Handling, and Processing: Industrial Applications | 572 |
| Nelson E.W., Best C.L., McLean W.G. — Schaum's outline of theory and problems of engineering mechanics. Statics and dynamics | 387—389 |
| Hildebrand F.B. — Methods of Applied Mathematics | 149, 165 |
| Courant R., John F. — Introduction to Calculus and Analysis. Volume 1 | 421—423 |
| Eddington A.S. — The mathematical theory of relativity | 135, 148 |
| Lamb H. — Statics. Including Hydrostatics and the Elements of the Theory of Elasticity | 115, 132, 214, 238 |
| Lang S. — Undergraduate analysis | 390 |
| Greiner W., Reinhardt J. — Field quantization | 4, 16 |
| Choquard P.F. — The anharmonic crystal | 2 |
| Rosser G. — Interpretation of classical electromagnetism | 14, 267 |
| de Leon M., Rodrigues P.R. — Methods of differential geometry in analytical mechanics | 441 |
| Lane S.M. — Mathematics, form and function | 266 |
| Hirsch M.W., Smale S. — Differential Equations, Dynamical Systems, and Linear Algebra | 17, 288 |
| Hobbie R., Roth B. — Intermediate Physics for Medicine and Biology, | 141 |
| David A. Mooney — Introduction to Thermodynamics and Heat Transfer | 64, 69, 85 |
| Collins G.W. — The virial theorem in stellar astrophysics | 1, 10, 18, 33, 64 |
| Silhavy M. — The Mechanics and Thermodynamics of Continuous Media | 214 |
| Hildebrand F.B. — Advanced Calculus for Applications | 285 |
| Griffits D.J. — Introductions to electrodynamics | 79 |
| Strang G. — Introduction to Applied Mathematics | 133, 167, 240 |
| Eddington A.S. — Mathematical Theory of Relativity | 135, 148 |
| Behnke H., Bachmann F., Fladt K. — Fundamentals of mathematics. Volume III. Analysis | 416 |
| Blum E.K., Lototsky S.V. — Mathematics of Physics and Engineering | 132 |
| Zeidler E. — Applied Functional Analysis: Applications to Mathematical Physics | 321, 336 |
| Oertel H. — Prandtl's Essentials of Fluid Mechanics (Applied Mathematical Sciences) | 195 |
| Hademenos G.J. — Applied physics | 31—32, 59 |
| Ashby N., Miller S.C. — Principles of modern physics | 88 |
| Synge J.L., Griffith B.A. — Principles of Mechanics | 64—67, 70, 85, 114, 130, 294—297, 299, 300, 302 |
| Apostol T.M. — Calculus (Volume 2): Multi-Variable Calculus and Linear Algebra with Applications | 336 |
| Di Battista G. — Graph Drawing: Algorithms for the Visualization of Graphs | 312 |
| Langhaar H.R. — Energy Methods in Applied Mechanics | 18—33 |
| Langhaar H.R. — Energy Methods in Applied Mechanics | 18—33 |
| Hassani S. — Mathematical Methods: for Students of Physics and Related Fields | 553 |
| Rao S.S. — Mechanical Vibrations | 276 |
| Minlos R.A. — Introduction to Mathematical Statistical Physics | 3 |
| Lee A. — Mathematics Applied to Continuum Mechanics | 89, 179—181, 214 |
| Attwood S.S. — Electric and Magnetic Fields | 13 |
| John F. — Partial Differential Equations | 3 |
| Whittaker E.T., McCrae W. — Treatise on analytical dynamics of particles and rigid bodies | 38 |
| Silva V.D. — Mechanics and Strength of Materials | 485 |
| ter Haar D. — Elements of Statistical Mechanics | 37, 39, 149, 268, 298 |
| Slater J., Frank N. — Introduction to Theoretical Physics | 41ff., 52—55 |
| Ivanov O.A. — Easy as Pi?: An Introduction to Higher Mathematics | 147 |
| Cercignani C. — Rarefied Gas Dynamics | 222—224 |
| Feynman R., Leighton R., Sands M. — Lectures on Physics 2 | I-4-4, I-13-1 ff, I-14-1 ff |
| Mackey G. — Unitary Group Representations in Physics, Probability and Number Theory | 208, 209 |
| Blin-Stoyle R.J. — Eureka! Physics of particles, matter and the universe | 21, 23, 32—33 |
| Conger D. — Physics modelling for game programming | 452—453, 454 |
| Bird R.B., Curtiss C.F., Armstrong R.C. — Dynamics of Polymeric Liquids. Vol. 2. Kinetic Theory | (2)37, 250, 265, 281 |
| Fetter A.L., Walecka J.D. — Quantum theory of many-particle systems | 4, 67—68, 200, 205—206, 230 |
| Mac Lane S. — Mathematics: Form and Function | 266 |
| Jackson J.D. — Classical electrodynamics | see "Energy" |
| Melissinos A.C. — Principles of modern technology | 282 |
| Halpern A., Erlbach E. — Beginning Physics II: Waves, Electromagnetism, Optics and Modern Physics | 102 |
| Logan J. — Applied Mathematics: A Contemporary Approach | 127 |
| Kittel C., Knight W., Ruderman M. — Berkeley physics course 1. Mechanics | 137—143, 148—152, 155—166, 270—277 |
| Cushman-Roisin B. — Introduction to geophysical fluid dynamics | see also "Available potential energy" |
| Poynting J.H., Sir Thomson J.J. — Heat (A text book of physics): Eighth Edition | 110, 111 $\textit{et seq.}$, 129, 130, 199 |
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