| Êíèãà | Ñòðàíèöû äëÿ ïîèñêà |
| Agarwal R.P. — Difference Equations and Inequalities. Theory, Methods and Applications. | 254 |
| Nagel R. — One-parameter semigroups of positive operators | 156 |
| Hunter J.K., Nachtergaele B. — Applied Analysis | 410 |
| Apostol T.M. — Calculus (vol 2) | 304 |
| Acheson David — From calculus to chaos | 19 |
| Bulirsch R., Stoer J. — Introduction to numerical analysis | 275, 277 |
| Apostol T.M. — Mathematical Analysis | 377 |
| Ben-Israel A., Greville T. — Generalized inverses: Theory and applications | 132 |
| Porter D., Stirling D.S.G. — Integral equations: a practical treatment, from spectral theory to applications | 205—207, 260 |
| Springer G. — Introduction to Riemann Surfaces | 14 |
| Fletcher R. — Practical methods of optimization. Volume 1: unconstrained optimization | 13, 36, 37, 76 |
| Fletcher R. — Practical methods of optimization. Volume 2: constrained optimization | 46, 49 |
| Debnath L. — Nonlinear water waves | 58, 85, 95, 100, 120—121, 215, 309, 315 |
| Hartman P. — Ordinary Differential Equations | 144, 183, 209, 212, 220 |
| Debnath L., Mikusinski P. — Introduction to Hilbert Spaces with Applications | 425 |
| Debnath L. — Nonlinear Partial Differential Equations for Scientists and Engineers | 58, 66, 268, 295 |
| Singer I. — Bases in Banach spaces I | 244 |
| Lynch S. — Dynamical Systems with Applications Using Mathematica® | 34 |
| Hall G.R., Lee — Continuous dynamical systems | 7 |
| F.Giannessi, F.Giannessi — Constrained Optimization and Image Space Analysis | 2, 191 |
| Polyanin A., Manzhirov A.V. — Handbook of Mathematics for Engineers and Scientists | 220, 269, 545 |
| Brown R.F., Gorniewicz L., Jiang B. — Handbook of Topological Fixed Point Theory | 907 |
| Jang J.-S.R., Sun Ch.-T., Muzutani E. — Neuro-Fuzzy and Soft Computing | 133 |
| Debnath L. — Linear Partial Differential Equations for Scientists and Engineers | 459 |
| Dacorogna B. — Direct Methods in the Calculus of Variations | 138 |
| Strauss W.A. — Partial Differential Equations: An Introduction | 376 |
| Mishra S.K., Giorgo G. — Invexity and Optimization | 61 |
| Bhatti M. — Practical Optimization Methods | 133 |
| Lange K. — Optimization | 3, 212 |
| Shankar R. — Basic Training In Mathematics | 53 |
| McMano D., Topa D.M. — A Beginner's Guide to Mathematica | 351 |
| Duistermaat J.J., Kolk J.A.C. — Multidimensional Real Analysis II: Integration | 60 |
| Duistermaat J.J., Kolk J.A.C. — Multidimensional Real Analysis I(Cambridge Studies in Advanced Mathematics #86), Vol. 1 | 60 |
| Khuri A.I. — Advanced calculus with applications in statistics | 284, 345 |
| Nesterov Y. — Introductory Lectures on Convex Optimization: A Basic Course | 18 |
| Kiwiel K.C. — Methods of Descent for Nondifferentiable Optimization | 15, 17 |
| Zauderer E. — Partial Differential Equations of Applied Mathematics | 295 |
| Gallier J. — Geometric Methods and Applications: For Computer Science and Engineering | 417, 418 |
| Intriligator M.D., Arrow K.J. — Handbook of Mathematical Economics (vol. 1) | 57 |
| Sanders J.A., Verhulst F. — Averaging methods in nonlinear dynamical systems | 78, 80, 132, 150, 151, 5, 156 |
| Demidenko E. — Mixed Models: Theory and Applications | 657 |
| Mattheij R.M.M., Molenaar J. — Ordinary Differential Equations in Theory and Practice (Classics in Applied Mathematics) (No. 43) | 7 |
| Lichtenberg A.J., Liebermen M.A. — Regular and Chaotic Dynamics | see “Fixed point” |
| Axellson O., Barker V.A. — Finite Element Solution of Boundary Value Problems. Theory and Computation | 4, 66 |
| Antia H.M. — Numerical Methods for Scientists and Engineers | 347, 353, 356, 360, 367, 389 |
| Kreyszig E. — Advanced engineering mathematics | 937 |
| Bhaya A., Kaszkurewicz E. — Control Perspectives on Numerical Algorithms and Matrix Problems | 148 |
| Bluman G.W. — Problem Book for First Year Calculus | see Critical point |
| Grosche C., Steiner F. — Handbook of Feynman path integrals | 144-146, 149, 206 |
| Trefethen L.N., Bau D. — Numerical Linear Algebra | 203, 283 |
| Nash C. — Differential Topology and Quantum Field Theory | 346 |
| Bjoerck A., Dahlquist G. — Numerical mathematics and scientific computation | 402 |
| L Sirovich — Techniques of Asymptotic Analysis With 23 Illustrations | 87, 99, 100 |
| Rall L.B. — Automatic Differentiation: Techniques and Applications | 95 |
| Fox W.P., Goirdano F.R., Weir M.D. — First Course in Mathematical Modeling | 414 |
| Duistermaat J.J, Kolk J.A.C. — Distributions: theory and applications | 57 |
| Demidovich B. (ed.) — Problems in mathematical analysis | 196, 222, 225 |
| Courant R., John F. — Introduction to Calculus and Analysis. Volume 1 | 240, 347 |
| Springer G. — Introduction to Riemann Surfaces | 14 |
| Smart W.M. — Textbook on Spherical Astronomy | 162, 164 |
| Almgren F.J. — Plateau's Problem: An Invitation to Varifold Geometry | 54 |
| Tzenov S.I. — Contemporary Accelerator Physics | 52, 75 |
| Hirsch M.W., Smale S. — Differential Equations, Dynamical Systems, and Linear Algebra | 181 |
| Mason R.L., Gunst R.F., Hess J.L. — Statistical Design and Analysis of Experiments, with Applications to Engineering and Science | 593 |
| Cvitanovic P., Artuso R., Dahlqvist P. — Classical and quantum chaos | 39, see also "Equilibrium point" |
| Intriligator M.D. — Mathematical optimization and economic theory | 26 |
| Apostol T.M. — Calculus (Volume 2): Multi-Variable Calculus and Linear Algebra with Applications | 304 |
| Schott J.R. — Matrix Analysis for Statistics | 345 |
| Sakai M. — Quadrature Domains | 73 |
| Lee A. — Mathematics Applied to Continuum Mechanics | 449 |
| Bruno A.D., Fen L.S. — Power geometry in algebraic and differential equations | 105 |
| Bangerth W., Rannacher R. — Adaptive Finite Element Methods for Differential Equations | 73, 103, 108 |
| BertsekasD., Tsitsiklis J. — Neuro-Dynamic Programming (Optimization and Neural Computation Series, 3) | 79 |
| Apostol T. — Mathematical Analysis, Second Edition | 377 |
| Pallaschke D., Rolewicz S. — Foundations of Mathematical Optimization. Convex Analysis without Linearity | 396, 479 |
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