| Книга | Страницы для поиска |
| Sornette D. — Critical phenomena in natural sciences | |
| Ito K. — Encyclopedic Dictionary of Mathematics. Vol. 2 | 441.B |
| Birkhoff G.D. — Dynamical Systems | 36—39 |
| Meirovitch L. — Methods of analytical dynamics | 69, 330—334 |
| Krotov V. — Global Methods in Optimal Control Theory | 151 |
| Hand L.N., Finch J.D. — Analytical Mechanics | See Hamilton's Principle of Relativity, 493^494 |
| Ryder L.H. — Quantum Field Theory | 80 |
| Kline M. — Mathematics in Western Culture | 228—229 |
| Debnath L. — Linear Partial Differential Equations for Scientists and Engineers | 7, 636 |
| Reed M., Simon B. — Methods of Modern mathematical physics (vol. 3) Scattering theory | 279 |
| Kline M. — Mathematical Thought from Ancient to Modern Times, Vol. 1 | 581—582, 587—589, 620, 739—745 |
| Arnold V.I., Khesin B.A. — Topological methods in hydrodynamics | 1, 16 |
| Planck M. — Introduction to Theoretical Physics | 342 |
| Cantwell B.J., Crighton D.G. (Ed), Ablowitz M.J. (Ed) — Introduction to Symmetry Analysis | 98, 99 |
| Kline M. — Mathematical Thought from Ancient to Modern Times, Vol. 3 | 581—582, 587—589, 620, 739—745 |
| Lanzcos C. — The Variational Principles of Mechanics | 111f. |
| Zajac A. — Optics | 110 |
| Kline M. — Mathematical Thought from Ancient to Modern Times, Vol. 2 | 581—582, 587—589, 620, 739—745 |
| Eddington A.S. — Space Time and Gravitation | 149, 178 |
| Feynman R.P., Leighton R.B., Sands M. — The Feynman lectures on physics (vol.2) | II-19-1 ff |
| Stone M. — The physics of quantum fields | 8 |
| Collins P.D., Squires E.J., Martin A.D. — Particle Physics and Cosmology | 31 |
| Ardema M.D. — Analytical Dynamics: Theory and Applications | 94 |
| Collins P.D.B., Martin A.D., Squires E.J. — Particle Physics and Cosmology | 31 |
| Kompaneyets A.S., Yankovsky G. — Theoretical Physics | 84 |
| Economou E.N. — Green's Functions in Quantum Physics | 379 |
| Sokolnikoff I.S. — Tensor Analysis: Theory and Applications to Geometry and Mechanics of Continua | 219 |
| Weinberg S. — Gravitation and Cosmology: Principles and Applications of the General Theory of Relativity | (see Variational) |
| Landau L.D., Lifshitz E.M. — The classical theory of fields | 25, 28 |
| Simmons G.F. — Differential Equations with Applications and Historical Notes | 379 |
| Lanczos C. — Variational principles of mechanics | 11 |
| Hermann R. — Differential geometry and the calculus of variations | 136 |
| Gallavotti G. — Statistical Mechanics | 320 |
| Wilson W. — Theoretical physics - Relativity and quantum dynamics | 200 |
| Eddington A.S. — The mathematical theory of relativity | 139, 147, 209 |
| Greiner W., Reinhardt J. — Field quantization | 4 |
| Gould H., Tobochnik J., Christian W. — An introduction to computer simulation methods | 244, 711 |
| Ercolani N.M., Gabitov I.R., Levermore C.D. — Singular limits of dispersive waves | 305—306, 311, 312 |
| Frankel T. — The geometry of physics: an introduction | 281 |
| Milonni P.W. — The quantum vacuum: introduction to quantum electrodynamics | 116, 120 |
| Eddington A.S. — Mathematical Theory of Relativity | 139, 147, 209 |
| Schouten J.A. — Tensor Analysis for Physicists | 210 |
| Hume-Rothery W. — Electrons, Atoms, Metals and Alloys | 51 |
| Whittaker E.T., McCrae W. — Treatise on analytical dynamics of particles and rigid bodies | 248 |
| Slater J., Frank N. — Introduction to Theoretical Physics | 342 |
| Ivanov O.A. — Easy as Pi?: An Introduction to Higher Mathematics | 131 |
| Frankel T. — The geometry of physics: An introduction | 281 |
| Feynman R., Leighton R., Sands M. — Lectures on Physics 2 | II-19-1 ff |
| Landau L.D., Lifshitz E.M. — Course of Theoretical Physics (vol.3). Quantum Mechanics. Non-relativistic Theory | 20 |
| Collins P.D.B., Martin A.D., Squires E.J. — Particle Physics and Cosmology | 31 |
| Kline M. — Mathematical thought from ancient to modern times | 581, 582, 587, 589, 620, 739—745 |
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