| Книга | Страницы для поиска |
| Zeidler E. — Nonlinear Functional Analysis and its Applications IV: Applications to Mathematical Physic | 35 |
| Wesseling P. — Principles of computational fluid dynamics | 13, 14 |
| Zienkiewicz O.C., Taylor L.R. — The finite element method (vol. 3, Fluid dynamics) | 66, 92, 291 |
| Lee G.H.W., Chu V.H. — Turbulent Jets and Plumes : A Lagrangian Approach | 37 |
| Naber G.L. — The geometry of Minkowski spacetime: an introduction to the mathematics of the special theory of relativity | 94 |
| Biscamp D. — Magnetohydrodynamic turbulence | 20 |
| Aris R. — Vectors, Tensors and the Basic Equations of Fluid Mechanics | 249 |
| Hand L.N., Finch J.D. — Analytical Mechanics | See momentum conservation |
| Hall G.R., Lee — Continuous dynamical systems | 15 |
| Shafarevich I.R., Kostrikin A.I. (ed.) — Basic Notions of Algebra | 98 |
| Strauss W.A. — Partial Differential Equations: An Introduction | 343, 368 |
| Greiner W. — Quantum mechanics. An introduction | 188 |
| Friedlander S.J. (Ed), Serre D. (Ed) — Handbook of Mathematical Fluid Dynamics, Vol. 3 | 537, 542 |
| Born M. — Natural philosophy of cause and chance (The Waynflete lectures) | 164, 182 |
| Lerner K.L., Lerner B.W. — The gale encyclopedia of science (Vol. 6) | 4:2621 |
| Menzel D.H. — Mathematical Physics | 29 |
| Collins G.W. — Fundamentals of Stellar Astrophysics | 23 |
| Sokolnikoff I.S. — Mathematics of Physics and Modern Engineering | 44 |
| Fishbane P.M. — Physics For Scientists and Engineers with Modern Physics | 210—212, 1097 |
| Thirring W.E. — Classical Mathematical Physics: Dynamical Systems and Field Theories | 98 |
| Thirring W.E. — Course in Mathematical Physics: Classical Dynamical System, Vol. 1 by Walter E. Thirring | 85 |
| Fletcher C.A. — Computational Techniques for Fluid Dynamics. Vol. 1 | 11 |
| Rickayzen G. — Green's functions and condensed matter | 74 |
| Bamberg P.G., Sternberg Sh. — A Course in Mathematics for Students of Physics: Volume 1 | 161 |
| Adair R.K. — The Great Design: Particles, Fields, and Creation | 16—17, 27—28, 94—97 |
| Billingham J., King A.C. — Wave Motion | 37, 42, 49, 74, 243, 249, 261, 277 |
| Dubrovin B.A., Fomenko A.T., Novikov S.P. — Modern Geometry - Methods and Applications. Part 1. The Geometry of Surfaces, Transformation Groups and Fields | 323, 326 |
| Kleppner D., Kolenkow R. — An introduction to mechanics | 122 |
| Cercignani C. — Theory and Application of the Boltzman Equation | 15, 68, 78, 84, 86, 169, 362, 369 |
| Cohen-Tannoudji C., Dupont-Roc J., Grynberg G. — Photons and atoms: introduction to quantum electrodynamic | 8, 61, 138, 200, 232 |
| ter Haar D. — Elements of Statistical Mechanics | 12, 21 |
| Bamberg P.G., Sternberg S. — A Course in Mathematics for Students of Physics, Vol. 1 | 161 |
| D'Inverno R. — Introducing Einstein's Relatvity | 157 |
| Greiner W., Mueller B. — Quantum mechanics: symmetries | 13 |
| Kitaigorodsky A. — Introduction to Physics | 59, 79 |
| Sachs R.K., Wu H. — General relativity for mathematicians | 269, 270 |
| Astfalk G. — Applications on Advanced Architecture Computers | 244 |
| Rutherford D.E. — Vector methods. Applied to differential geometry, mechanics, and potential theory | 129 |
| Ehlers J. (ed.) — Relativity theory and astrophysics. 1. Relativity and cosmology | 177 |
| Stavroulakis I.P., Tersian S.A. — Partial Differential Equations: An Introduction with Mathematica and Maple | 131 |
| Toro E.F. — Riemann Solvers and Numerical Methods for Fluid Dynamics: A Practical Introduction | 4, 21, 22 |
| Ehlers J. (ed.) — Relativity theory and astrophysics. Relativity and cosmology | 177 |
| Courant R., Hilbert D. — Methods of Mathematical Physics. Volume 1 | 265 |
| Rosser J.B., Newton R.R., Gross G.L. — Mathematical Theory of Rocket Flight | 3 |
| Bondi H. — Cosmology | 78 |
| Belotserkovsky S.M., Lifanov I.K. — Method of Discrete Vortices | 8 |
| Wilson W. — Theoretical physics - Relativity and quantum dynamics | 70 |
| Carmichael R.D. — The theory of relativity | 26, 50, 66 |
| McQuarrie D.A. — Statistical Mechanics | 26 |
| Wolfgang K. H. Panofsky, Phillips Panofsky, Melba Panofsky — Classical Electricity and Magnetism | 184 |
| Lane S.M. — Mathematics, form and function | 264 |
| Collins G.W. — The virial theorem in stellar astrophysics | 74 |
| Biskamp D. — Magnetohydrodynamic Turbulence | 20 |
| Guyon E., Hulin J., Petit L. — Physical Hydrodynamics | 171—176 |
| Dingle H. — The Special Theory of Relativity | 62, 65 |
| Freidberg J.P. — Plasma Physics and Fusion Energy | 229 |
| Hartmann A.K., Rieger H. — Optimization Algorithms in Physics | 298 |
| Yariv A. — Quantum Electronics | 425 |
| Zeidler E. — Oxford User's Guide to Mathematics | 913 |
| Whittaker E.T., McCrae W. — Treatise on analytical dynamics of particles and rigid bodies | 59 |
| Lienhardt J.H. IV, Lienhardt J.H. V — A heat transfer textbook | 279—282 |
| Johnson W.C. — Mathematical and physical principles of engineering analysis | 19—20 |
| Chandrasekhar S. — Plasma Physics | 3 |
| ter Haar D. — Elements of Statistical Mechanics | 12, 21 |
| Sexl R., Urbantke H.K. — Relativity, Groups, Particles. Special Relativity and Relativistic Symmetry in Field and Particle Physics | 116, 324 |
| Mac Lane S. — Mathematics: Form and Function | 264 |
| Thirring W., Harrell E.M. — Classical mathematical physics. Dynamical systems and field theory | 98 |
| Schiffer M.M. — The role of mathematics in science | 172 |
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