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Поиск книг, содержащих: Lagrangian function
| Книга | Страницы для поиска | | Ito K. — Encyclopedic Dictionary of Mathematics. Vol. 2 | 271.F 292.A | | Webster R. — Convexity | 240 | | Fletcher R. — Practical methods of optimization. Volume 2: constrained optimization | 48, 69, 86, 97, 138 | | Debnath L., Mikusinski P. — Introduction to Hilbert Spaces with Applications | 335 | | Murnaghan F.D. — The calculus of variations | 2, 71 | | Hogben L. — Handbook of Linear Algebra | 51—5 | | Terng Ch. — Critical Point Theory and Submanifold Geometry | 233 | | Crisfield M.A. — Non-Linear Finite Element Analysis of Solids and Structures. Vol. 1: Essentials | 193 | | Bhatti M. — Practical Optimization Methods | 150, 552, 591, 621 | | Lange K. — Optimization | 11, 219—221 | | Rockafellar R.T. — Convex analysis | 280—290, 296—298, 302—305, 309, 314, 385—387 | | Love R., Morris J., Wesolowsky G. — Facilities location | 110, 246, 247 | | Planck M. — Introduction to Theoretical Physics | 59 | | Szekeres P. — A Course in Modern Mathematical Physics: Groups, Hilbert Space and Differential Geometry | 465 | | Elberly D.H., Shoemake K. — Game Physics | 133, 426 | | Ito K. — Encyclopedic Dictionary of Mathematics | 271.F, 292.A | | Kuhn D. — Generalized Bounds For Convex Multistage Stochastic Programs | 150, 157, 160 | | Schroeder M.R. — Schroeder, Self Similarity: Chaos, Fractals, Power Laws | 66 | | Giorgi G., Thierfelder J. — Mathematics of Optimization: Smooth and Nonsmooth Case | 212 | | Maimistov A.I., Basharov A.M. — Nonlinear optical waves | 394, 395 | | Karman T., Biot A.M. — Mathematical Methods in Engineering | 106 | | Bhagavantam S., Venkatarayudu T. — Theory of Groups and Its Application to Physical Problems | 67 | | Intriligator M.D., Arrow K.J. — Handbook of Mathematical Economics (vol. 1) | 60, 65, 67—68, 73 | | Murota K. — Discrete convex analysis | 236 | | Perkins D.H. — Particle Astrophysics | 65 | | Wright S. J. — Primal-dual interior-point methods | 165 | | Eisenhart L.P. — Continuous groups of transformations | 263, 278 | | Tolman R.C. — Relativity, thermodynamics, and cosmology | 222 | | Houston W.V. — Principles of Mathematical Physics | 65 | | Bertsekas D.P. — Constrained Optimization and Lagrange Multiplier Methods | 67, 316 | | Auletta G. — Foundations and Interpretation of Quantum Mechanics | 10 | | Slater J.C., Frank N.H. — Mechanics | 74 | | Arya A.P. — Introduction to Classical Mechanics | 470 | | Bazaraa M.S., Sherali H.D., Shetty C.M. — Nonlinear Programming: Theory and Algorithms | 211, 269 | | Hyers D.H., Isac G., Rassias T.M. — Stability of functional equations in several variables | 238 | | Gantmacher F. — Lectures in Analytical Mechanics | 66, 73, 245 | | Lindsay R.B. — Mechanical Radiation | 40 | | Hildebrand F.B. — Methods of Applied Mathematics | 150 | | Wilson W. — Theoretical physics - Relativity and quantum dynamics | 63 | | Eddington A.S. — The mathematical theory of relativity | 131, 233 | | Kemble E. C. — The fundamental principles of quantum mechanics | 23n, 293, 560 | | McQuarrie D.A. — Statistical Mechanics | 6 | | Feher L. (ed.), Stipsicz A. (ed.), Szenthe J. (ed.) — Topological quantum field theories and geometry of loop spaces | 97 | | Richards P.I. — Manual of Mathematical Physics | 10 | | Francis D Murnaghan — The calculus of variations | 2, 71 | | Antes H., Panagiotopoulos P.D. — The boundary integral approach to static and dynamic contact problem | 149, 178, 209 | | Eddington A.S. — Mathematical Theory of Relativity | 131, 233 | | Intriligator M.D. — Mathematical optimization and economic theory | 31, 33, 50—51, 56, 79, 346—348 | | Whittaker E.T., McCrae W. — Treatise on analytical dynamics of particles and rigid bodies | 39 | | Slater J., Frank N. — Introduction to Theoretical Physics | 59 | | Schutz B. — Geometrical Methods in Mathematical Physics | 167, 174 | | Mangasarian O. — Nonlinear programming | 71 | | Giorgi G., Guerraggio A., Thierfelder J. — Mathematics of optimization | 212 |
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