Êíèãà | Ñòðàíèöû äëÿ ïîèñêà |
Nagel R. — One-parameter semigroups of positive operators | 64, 387 |
Kadison R.V., Ringrose J.R. — Fundamentals of the theory of operator algebras (vol. 1) Elementary Theory | 109 |
Kedlaya K.S., Poonen B., Vakil R. — The William Lowell Putnam Mathematical Competition 1985–2000: Problems, Solutions, and Commentary | 49, 63, 93, 98, 99, 167, 184, 199, 200, 207, 227–229, 241, 242, 276–277 |
Taylor M.E. — Partial Differential Equations. Basic theory (vol. 1) | 17, 309, 498 |
Taylor M.E. — Partial Differential Equations. Qualitative studies of linear equations (vol. 2) | 88, 340 |
Hunter J.K., Nachtergaele B. — Applied Analysis | 216 |
Reed M., Simon B. — Methods of Modern mathematical physics (vol. 1) Functional analysis | 188 |
Apostol T.M. — Calculus (vol 2) | 97 |
Êèðüÿíîâ Ä.Â. — Ñàìîó÷èòåëü MathCad 11 | 309 |
Dummit D.S., Foote R.M. — Abstract algebra | 414, 423, 472 |
Lang S. — Algebra | 562 |
Ogata K. — Modern Control Engineering | 714, 968 |
Devroye L. — Generation of non-uniform random variates | 605 |
Nathanson M.B. — Elementary methods in number theory | 146 |
Fisher Y. — Fractal Image Compression. Theory and Application | 46, 50, 106, 117, 146, 147, 186, 187, 247, 294 |
Evans L.C. — Partial Differential Equations | 11, 169, 305, 334, 574, 575, 638 |
Brown W.C. — Matrices over communicative rings | 51, 214 |
Lipschutz Seymour — Schaum's Outline of Theory and Problems of Linear Algebra (Schaum's Outlines) | 284—285, 292—298, 350 |
Fishman G.S. — Monte Carlo: concepts, algorithms, and applications | 415, 426, 473 |
Hayek S.I. — Advanced mathematical methods in science and engineering | 108, 142, 157, 308 |
Gray R.M., Davisson L.D. — Introduction to statistical signal processing | 404 |
Hedenmalm H., Korenblum B., Zhu K. — Theory of Bergman spaces | 37 |
Ben-Israel A., Greville T. — Generalized inverses: Theory and applications | 11, 308 |
Felinger A. — Data analysis and signal processing in chromatography | 262 |
Olver P.J. — Equivalence, Invariants and Symmetry | 2, 43, 45, 212, 255, 320 |
Oprea J. — Differential Geometry and Its Applications | 74 |
Finlayson B.A. — Numerical Methods for Problems With Moving Fronts | 480 |
Wesseling P. — An introduction to multigrid methods | 3, 37, 39, 85, 89, 97, 98, 105, 112, 153, 159, 203, 204, 227 |
Saad Y. — Numerical Methods for Large Eigenvalue Problems | 3 |
Golub G.H., Ortega J.M. — Scientific Computing and Differential Equations : An Introduction to Numerical Methods | 211, 314 |
Enns R.H., Mc Guire G.C. — Nonlinear physics with mathematica for scientists and engineers | 494, 496 |
Korsch H.J., Jodl H.-J. — Chaos: A Program Collection for the PC | 37, 43, 65, 216 |
Alon N., Spenser J. — The probabilistic method | 137 |
Barbeau E.J. — Polynomials: a problem book | 219, 332 (5.4.11), 357 |
Kodaira K. — Complex manifolds and deformation of complex structures | 323 |
Rosenberger W.F., Lachin J.M. — Randomization in Clinical Trials : Theory and Practice | 68—69, 151, 179—180 |
Rao C.R., Toutenberg H. — Linear models: least squares and alternatives | 360 |
Hille E. — Ordinary Differential Equations in the complex domain | 8 |
Hoffman K., Kunze R. — Linear algebra | See Characteristic value |
Cameron P.J. — Combinatorics : Topics, Techniques, Algorithms | 182, 186 |
Kuttler K. — Introduction to linear algebra for mathematicians | 137, 178 |
Lutkepohl H. — Handbook of Matrices | 12, 63, 64 |
Henrici P. — Applied and Computational Complex Analysis (Vol. 2) | 78, 114, 120, 121, 122, 123, 126, 378, 387 |
Henrici P. — Applied and Computational Complex Analysis (Vol. 3) | 285 |
Nikolskii N.K. — Treatise on the Shift Operator: Spectral Function Theory | 32 |
Porter D., Stirling D.S.G. — Integral equations: a practical treatment, from spectral theory to applications | 14, 95, 99, 100, 101, 108, 109, 110, 120, 122, 164, 206ff, 214ff |
Weinberger H.F. — First course in partial defferential equations with complex variables and transform methods | 65, 124, 160—168, 171—178, 180, 186, 187, 391 |
Millman R.S., Parker G.D. — Elements of Differential Geometry | 5, 128 |
Nayfeh A.H. — Perturbation Methods | 56 |
Goldstein H., Poole C., Safko J. — Classical mechanics | 156—158 |
Nayfeh A.H., Mook D.T. — Nonlinear Oscillations | 23, 111, 11 2, 1 72, 234, 274, 275, 280, 283, 344 |
Murdock J. — Perturbations: Theory and Methods | 122, 441 |
Atkins P.W., Friedman R.S. — Molecular Quantum Mechanics | 10, 551 |
Papapetrou A. — Lectures on general relativity | 44 |
Watkins D. — Fundamentals of matrix computations | 305, 505 |
Pedlosky J. — Waves in the ocean and atmosphere: introduction to wave dynamics | 84, 85 |
Bailey N.T.J. — The Elements of Stochastic Processes With Applications to the Natural Sciences. | 47, 203 |
Artin M. — Algebra | 117 |
Pugovecki E. — Quantum mechanics in hilbert space | 48, 226 |
Akhiezer N.I., Glazman I.M. — Theory of Linear Operators in Hilbert Space | 46 |
Gorbachuk M., Gorbachuk V. — M. G. Krein's Lectures on Entire Operators | 2 |
Davies E. — Spectral Theory and Differential Operators | 2 |
Debnath L., Mikusinski P. — Introduction to Hilbert Spaces with Applications | 176, 253 |
Engel K.-J., Nagel R. — One-Parameter Semigroups for Linear Evolution Equations | 241 |
Dummit D.S., Foote R.M. — Abstract Algebra | 341, 383 |
Appell J.M., Kalitvin A.S., Zabrejko P.P. — Partial Integral Operators and Integro-Differential Equations | 287, 343 |
Behnke H., Bachmann F., Fladt K. — Fundamentals of Mathematics, Volume III: Analysis | 296, 348, 410, 411, 412, 417, 435 |
Behnke H., Bachmann F., Fladt K. — Fundamentals of Mathematics, Volume II: Geometry | 321 |
Hagen R., Roch S., Silbermann B. — C-Algebras and Numerical Analysis | 12 |
Bitsadze A.V. — Equations of mathematical physics | 248 |
Gupta M.M., Jin L., Homma N. — Static and dynamic neural networks | 366, 439 |
Lim Ch., Nebus J. — Vorticity, Statistical Mechanics, and Monte Carlo Simulation | 54, 70—72, 77, 128, 129, 224, 229, 252, 253, 256 |
Wolkenhauser O. — Data Engineering: Fuzzy Mathematics in Systems Theory and Data Analysis | 26, 110 |
Grillet P.A. — Abstract Algebra | 345 |
Merris R. — Combinatorics | 392, 401ff, 498 |
Grotschel M., Lovasz L., Schrijver A. — Geometric Algorithms and Combinatorial Optimization | 4 |
Zimand M. — Computational Complexity: A Quantitative Perspective | 284 |
Reich S., Shoikhet D. — Nonlinear Semigroups, Fixed Points, and Geometry of Domains in Banach Spaces | 31 |
Brünjes L. — Forms of Fermat Equations and Their Zeta Functions | 209—211, 214, 215 |
Hale J.K., Magalhaes L.T., Oliva W. — Dynamics in Infinite Dimensions | 130 |
Monk P. — Finite Element Methods for Maxwell's Equations | 24 |
Heesterman A.R.G. — Matrices and Their Roots: A Textbook of Matrix Algebra/With Disk | 165, 279 |
Polyanin A., Manzhirov A.V. — Handbook of Mathematics for Engineers and Scientists | 183, 482, 605, 829 |
Kohonen T. — Self-organizing maps | 12 |
Maurel A., Petitjeans P. — Vortex Structure and Dynamics | 150, 215 |
Kanatani K. — Statistical Optimization for Geometric Computation: Theory and Practice | 37 |
Debnath L. — Linear Partial Differential Equations for Scientists and Engineers | 237 |
Prugovecki E. — Quantum Mechanics in Hilbert Space | 48, 226 |
Zung N.T. — Poisson Structures and their Normal Forms | 276 |
Afraimovich V., Ugalde E. — Fractal Dimensions for Poincare Recurrences | 21 |
Bourbaki N. — Algebra II: Chapters 4-7 | VII, page 30 |
Strauss W.A. — Partial Differential Equations: An Introduction | 86, 88, 91—96, 121 |
Araki H. — Mathematical Theory of Quantum Fields | 202 |
Treil S. — Linear Algebra Done Wrong | 94 |
Allouche J.-P., Shallit J. — Automatic Sequences: Theory, Applications, Generalizations | 250 |
Cao Z.-Q., Kim K.H., Roush F.W. — Incline algebra and applications | 108 |
Ericson T. — Codes on Euclidean Spheres | 265 |
Hertrich-Jeromin U. — Introduction to Mobius Differential Geometry | 151 |
Reed M., Simon B. — Methods of Modern mathematical physics (vol. 3) Scattering theory | 188 |
Greiner W. — Quantum mechanics. An introduction | 70 ff., 427 ff. |
Blyth T.S., Robertson E.F. — Basic Linear Algebra | 153, 157 |
Wicker S.B., Kim S. — Fundamentals of Codes, Graphs, and Iterative Decoding | 79, 82, 83, 86, 88 |
Quoc N.S. — Stability and nonlinear solid mechanics | 53, 375 |
Goldberg M.A. (ed.) — Solution Methods for Integral Equations | 3, 38, 64—67, 91, 191, 198, 201, 261, 272, 274, 277, 319, 337, 342—343 |
Kline M. — Mathematical Thought from Ancient to Modern Times, Vol. 1 | See Charactelistic value |
Akivis M., Goldberg V. — Differential Geometry of Varieties with Degenerate Gauss Maps | 139, 140, 142, 150—152, 170,171 |
Weickert J. — Visualization and Processing of Tensor Fields: Proceedings of the Dagstuhl Workshop | 6, 124, 194, 204, 215—220,225, 230, 242, 243, 259, 261, 271,275, 348 |
Hall B.C. — Lie Groups, Lie Algebras, and Representations: An Elementary Understanding | 291 |
James G., Liebeck M.W. — Representations and Characters of Groups | 24 |
Duistermaat J.J., Kolk J.A.C. — Multidimensional Real Analysis II: Integration | 72, 224 |
Duistermaat J.J., Kolk J.A.C. — Multidimensional Real Analysis I(Cambridge Studies in Advanced Mathematics #86), Vol. 1 | 72, 224 |
Engel K.-J., Nagel R. — Short Course on Operator Semigroups | 159 |
Devaney R.L. — An introduction to chaotic dynamical systems | 164 |
Finch S.R. — Mathematical constants | 71, 152, 158, 161, 220, 226 |
Geroch R. — Mathematical physics | 293 |
Bronson R. — Schaum's Outline of Matrix Operations | 60 |
Reed M., Simon B. — Methods of Functional Analysis (in 4 volumes). Volume 1: Functional Analysis | 188 |
Atkinson K.E., Han W. — Theoretical Numerical Analysis: A Functional Analysis Framework | 103 |
Sandor J., Mitrinovic D.S., Crstici B. — Handbook of Number Theory II | 393, 409 |
Gudder S.P. — Stochastic methods in quantum mechanics | 5, 6, 7 |
Johnston R. — Numerical methods, a software approach | 26, 64 |
Engel K.-J., Nagel R. — One-Parameter Semigroups for Linear Evolution Equations (preliminary version of 10 September 1998) | 254 |
Reed M., Simon B. — Methods of Modern mathematical physics (vol. 4) Analysis of operators | $188^1$ |
Terano T., Asai K., Sugeno M. — Fuzzy systems theory and its applications | 121 |
Born M. — Natural philosophy of cause and chance (The Waynflete lectures) | 91, 93—94, 98, 100, 111—112, 195 |
Streater R.F. (Ed) — Mathematics of Contemporary Physics | 32 |
Dudgeon D.E., Mersereau R.M. — Multidimensional Digital Signal Processing | 135—136 |
Rammer J. — Quantum transport theory | 19, 36 |
Rudin W. — Functional analysis | 98, 311 |
Motwani R., Raghavan P. — Randomized algorithms | 437 |
Lang S. — Undergraduate Algebra | 215, 233 |
Rall D. — Computational Solution to Nonlinear Operator Equations | 201 |
Antman S.S. — Nonlinear Problems of Elasticity | 141, 373 |
Dorlas T.C. — Statistical mechanics, fundamentals and model solutions | 94, 239, 242 |
Griffits D.J. — Introduction to quantum mechanics | 87—88, 93 |
Eidelman Y., Milman V., Tsolomitis A. — Functional Analysis. An Introduction | 75, 211 |
Bowman K.O., Shenton L.R. — Continued Fractions in Statistical Applications | 95 |
Szekeres P. — A Course in Modern Mathematical Physics: Groups, Hilbert Space and Differential Geometry | 100, 351 |
Kline M. — Mathematical Thought from Ancient to Modern Times, Vol. 3 | see Characteristic value |
Lang S. — Real Analysis | 170, 230 |
Galindo A., Pascual P. — Quantum Mechanics Two | I 44, 348 |
Menzel D.H. — Mathematical Physics | 187 |
Polkinghorne J.C. — The quantum world | 25, 27, 87, 93 |
Cohn P.M. — Skew Fields : Theory of General Division Rings (Encyclopedia of Mathematics and its Applications) | 370, 375, 378, 403 |
Du D. (ed.), Pardalos P. (ed.) — Handbook of combinatorial optimization: supplement volume A | 16 |
Elizalde E., Odintsov A.D., Romeo A. — Zeta Regularization Techiques with Applications | 11 |
Helgason S. — Differential Geometry, Lie Groups and Symmetric Spaces | 155 |
Takezawa K. — Introduction to Nonparametric Regression | 98, 229, 272 |
Shiryaev A.N. — Probability | 130 |
Hale J.K., Kocak H. — Dynamics and Bifurcations | 229, 231 |
Jahne B. — Digital Image Processing | 114, 459 |
Ionin Y.J., Shrikhande M.S. — Combinatorics of Symmetric Designs | 21 |
Nagel R., Derdinger R., Günther P. — Ergodic theory in the perspective of functional analysis | B/6 |
Ablowitz M.J., Segur H. — Solitons and the Inverse Scattering Transform | 164, 169—171, 249, 264, 283, 285, 298, 338 (see also “Continuous eigenvalue”, “Discrete eigenvalue”) |
Carmo M.P. — Differential geometry of curves and surfaces | 216 |
Staffans O. — Well-Posed Linear Systems | xv, 102, 112 |
Kress R., Gehring F.W. — Numerical Analysis | 36 |
Gruenberg K.W. — Linear Geometry | 71, 135, 137, 14 |
Schercliff J.A. — Vector Fields | 180, 193 |
Robinson D.J.S. — A Course in Linear Algebra with Applications | 288, 298 |
Guggenheimer H.W. — Applicable Geometry | 88, 101, 103 |
Duffie D. — Security Markets. Stochastic Models | 181 |
Gallier J. — Geometric Methods and Applications: For Computer Science and Engineering | 202, 312, 494 |
Cleland A.N. — Foundations of nanomechanics | 413 |
Greenberg M.D. — Advanced engineering mathematics | 542, 888 |
Berndt B.C., Evans R.J., Williams K.S. — Gauss and Jacobi Sums | 47—48, 51 |
Bachman G., Beckenstein E. — Fourier And Wavelet Analysis | 137 |
Dauge M. — Elliptic Boundary Value Problems On Corner Domains | 14 |
Kozlov V., Mazya V., Rossmann J. — Spectral problems associated with corner singularities of solutions to elliptic equations | 10 |
Kline M. — Mathematical Thought from Ancient to Modern Times, Vol. 2 | See Characteristic value |
Berard P.H. — Spectral Geometry | 13, 52 |
Choquet-Bruhat Y., Dewitt-Morette C. — Analysis, Manifolds and Physics (vol. 2) | 48 |
Kadison R.V., Ringrose J.R. — Fundamentals of the Theory of Operator Algebras (vol. 2) Advanced Theory | 109 |
Fletcher C.A. — Computational Techniques for Fluid Dynamics. Vol. 1 | 23, 81, 83, 84, 245 |
Tapp K. — Matrix Groups for Undergraduates | 147 |
von zur Gathen J., Gerhard J. — Modern computer algebra | 680 |
Libai A., Simmonds J.G. — The Nonlinear Theory of Elastic Shells | 315—317, 426, 447 |
Wiley E.O. — Phylogenetics. The theory and practice of phylogenetic systematics | 350 |
Strichartz R.S. — The way of analysis | 444, 521 |
Kolmogorov A.N., Fomin S.V. — Introductory real analysis | 235 |
Sanders J.A., Verhulst F. — Averaging methods in nonlinear dynamical systems | 5, 6, 20, 67, 70, 73, 74, 80, 122, 137, 155, 165, 206, 208—211 |
Wang Z.X., Guo D.R., Xia X.J. — Special Functions | 616 |
Schechter M. — Spectra of partial differential operators | 16 |
Bamberg P.G., Sternberg Sh. — A Course in Mathematics for Students of Physics: Volume 1 | 59 |
Strang G. — Linear Algebra and Its Applications | 245, 249, 258, 331, 370 |
Billingham J., King A.C. — Wave Motion | 406 |
Kienzler R., Herrmann G. — Mechanics of material space: with applications to defect and fracture mechanics | 54, 86, 89, 92 |
Peleg Y., Pnini R., Zaarur E. — Schaum's outline of theory and problems of quantum mechanics | 13 |
Kühnel W., Hunt B. — Differential Geometry: Curves - Surfaces - Manifolds | 72 |
Beckenbach E.F. (editor), Polya G., Lehmer D.H. and others — Applied combinatorial mathematics | 133, 559, 564 |
Stewart G.W. — Matrix algorithms. Volume 2: Eigensystems | 2 (see also “Eigenpair”, “Hermitian matrix”, “Similarity transformation”) |
Kubo R. — Statistical Mechanics: An Advanced Course with Problems and Solutions | 129 |
Ascher U.M., Russell R.D., Mattheij R.M. — Numerical Solution of Boundary Value Problems for Ordinary Differential Equations | 32 |
Chung F.R.K. — Spectral Graph Theory | 4 |
Goswami J.C., Chan A.K. — Fundamentals of Wavelets : Theory, Algorithms, and Applications | 19 |
Schiff L.I. — Quantum mechanics | 28, 41—59 |
Demmel J.W. — Applied Numerical Linear Algebra | 140 |
Galindo A., Pascual P. — Quantum Mechanics One | 44, 348 |
Demidov A.S. — Generalized Functions in Mathematical Physics: Main Ideas and Concepts | 77 |
Allaire G. — Numerical Analysis and Optimization: An Introduction to Mathematical Modelling and Numerical Simulation | 209 |
Krause G.R., Lenagan T.H. — Growth of Algebras and Gelfand-Kirillov Dimension | 41 |
Englert B.G. (Ed) — Quantum Mechanics | 68 |
Port S.C., Stone C.J. — Brownian motion and classical potential theory | 122 |
Cercignani C. — Theory and Application of the Boltzman Equation | 122, 125, 160, 181, 182, 183, 184, 186, 200, 203, 204, 207, 261, 290, 306,321,405 |
Griffits D. — Introduction to elementary particles | 114, 146 |
Granas A., Dugundji J. — Fixed Point Theory | 22—1 |
Kenzel W., Reents G., Clajus M. — Physics by Computer | 47-49, 59, 61, 65, 67, 69, 76, 78, 131, 145 |
O'Donnell C.J. — Incidence Algebras | 171 |
Duda R.O., Hart P.E., Stork D.G. — Pattern Classification | 11 |
Fenn R. — Geometry | 202, 245 |
Goodman J.W. — Introduction to Fourier Optics | 22 |
Âraker J.G. — Algorithms and applications in timed discrete event systems | 12, 16, 44, 73, 117 |
Miller W. — Symmetry Groups and Their Applications | 18, 70, 109 |
Bitsadze A.V. — Equations of Mathematical Physics | 248 |
Farin G., Hansford D. — Practical Linear Algebra: A Geometry Toolbox | 125, 160 |
Searle S.R. — Matrix algebra useful for statistics | 272 |
Asmar N.H. — Partial Differential Equations with fourier series and boundary value problems | 173, 231, 288, 334, 353 |
Kozen D.C. — The Design And Analysis Of Algorithms | 4, 47, 168, 174, 175 |
Kincaid D., Cheney W. — Numerical analysis: mathematics of scientific computing | 187, 227, 555 |
Kuttler K. — Calculus, Applications and Theory | 501 |
Fuhrmann P.A. — A Polynomial Approach to Linear Algebra | 92 |
Nicolis G., Prigogine I. — Self-organization in nonequilibrium systems | 84 |
Bertsekas D.P. — Dynamic programming and optimal control (Vol. 1) | 332 |
Antia H.M. — Numerical Methods for Scientists and Engineers | 63, 78, 475, 479, 503, 562, 589, 876 |
Olver P.J., Shakiban C. — Applied linear. algebra | 395, 396, 407, 438, 446, 514 |
Bamberg P.G., Sternberg S. — A Course in Mathematics for Students of Physics, Vol. 1 | 59 |
Faraut J., Korányi A. — Analysis on symmetric cones | 43, 150 |
Li L.-W., Kang X.-K., Leong M.-S. — Spheroidal Wave Functions in Electromagnetic Theory | 22—23, 36 |
Economou E.N. — Green's Functions in Quantum Physics | 3, 5, 10, 11, 15, 16, 19, 41, 55, 71, 102 |
Slater J.C. — Quantum Theory of Atomic Structure vol1 | 65, 86 |
Steeb W.- H. — Problems and Solutions in Introductory and Advanced Matrix Calculus | 68 |
Simmons G.F. — Introduction to topology and modern analysis | 278 |
D'Inverno R. — Introducing Einstein's Relatvity | 164, 299, 300 |
Binmore K. — Fun and Games: A Text on Game Theory | 440 |
Mattheij R.M.M. — Partial differential equations: modeling, analysis, computation | 639 |
Neff H.P.Jr. — Introductory electromagnetics | 337 |
Zhidkov P.E. — Korteweg-de Vries and Nonlinear Schrodinger Equations: Qualitative Theory | 62 |
Zeidler E. — Nonlinear Functional Analysis and Its Applications: Part 1: Fixed-Point Theorems | 269 |
Conway J.B. — A Course in Functional Analysis | 45, 213 |
Mac Lane S., Birkhoff G.D. — Algebra | 257, 311, 365, 376 |
Oprea J. — Differential Geometry and Its Applications | 86 |
Basdevant J.-L., Dalibard J. — Quantum Mechanics | 45, 94, 99, 101, 431 |
Anderson G.A., Granas A. — Fixed Point Theory | 2, 2-4 |
Englezos P., Kalogerakis K. — Applied parameter estimation for chemical engineers | 75, 91, 142, 189 |
Blackford L.S., Choi J., Geary A. — ScaLAPACK User's Guide | 34, 47—49, 138 |
McQuistan R.B. — Scalar and Vector Fields: a Physical Interpretation | 127ff |
Kitahara M. — Boundary Integral Equation Methods in Eigenvalue Problems of Elastodynamics and Thin Plates | 64—65, 72, 75, 85, 87 |
Quarteroni A., Saleri F. — Scientific Computing with MATLAB | 14, 137 |
Lang S. — Real and Functional Analysis (Graduate Texts in Mathematics Series #142) | 426 |
Sachs R.K., Wu H. — General relativity for mathematicians | see "Linear transformation" |
Attouch H., Buttazzo G., Michaille G. — Variational Analysis in Sobolev and BV Spaces: Applications to PDEs and Optimization | 279—281 |
Stewart G.W., Sun J. — Matrix perturbation theory | 14 |
Buser P. — Geometry and spectra of compact riemann surfaces | 187 |
Amit D.J. — Field theory, the renormalization group, and critical phenomena | 302, 304—306 |
Curtis M.L. — Abstract Linear Algebra | 39, 76, 84 |
Perina J., Hradil Z., Jurco B. — Quantum optics and fundamentals of physics | 46, 158 |
Sarfraz M. — Advances in geometric modeling | 291, 292, 294 |
Petersen K.E. — Ergodic theory | 43, 65 |
Margenau H., Murphy G.M. — The mathematics of physics and chemistry | 246 |
Smithies F., Hall P. (ed.) — INTEGRAL EQUATIONS (No. 49) | 22 |
M.A.Akivis, V.V.Goldberg — Projective Differential Geometry of Submanifolds | 120, 188, 243, 244 |
Tannehill J.C., Pletcher R.H., Anderson D.A. — Computational Fluid Mechanics and Heat Transfer | 17, 36—37, 92, 95—96, 356—357, 362, 556—558 |
Pavičić M. — Quantum Computation and Quantum Communication: Theory and Experiments | 26, 186 |
Moh T.T. — Algebra | 224 |
Bazaraa M.S., Sherali H.D., Shetty C.M. — Nonlinear Programming: Theory and Algorithms | 755 |
Katznelson I., KatznelsonY.R. — A (Terse) Introduction to Linear Algebra (Student Mathematical Library) | 64, 86, 89 |
Mullin T. — The nature of chaos | 194 |
Demmel J. — Applied numerical linear algebra | 140 |
Blanchard P., Devaney R.L. — Differential Equations | 263, 264 |
Simmons G.F. — Differential Equations with Applications and Historical Notes | 125, 136, 195 |
Haraux A. — Nonlinear Evolution Equations - Global Behavior of Solutions | 149, 159, 207 |
Jähne B. — Spatio-Temporal Image Processing | 145 |
Astfalk G. — Applications on Advanced Architecture Computers | 104, 108, 110 |
Corson E.M. — Perturbation Methods in the Quantum Mechanics of N-Electron Systems | 8 |
Balakrishnan N., Rao C.R. — Handbook of Statistics (Vol. 17): Order Statistics: Applications | 459, 540 |
Geckeler S. — Optical fiber transmission systems | 88, 114, 325 |
Lande A. — Foundations of quantum theory | 15, 89 |
Akhmediev N., Ankiewicz A. — Dissipative Solitons | 13, 259 |
Naimark M.A., Stern A.I. — Theory of Group Representations | 190 |
Lang S. — Algebra | 562 |
Reeves C.R., Rowe J.E. — Genetic Algorithms: Principles and Perspectives. A Guide to GA Theory | 114, 151, 242 |
Stavroulakis I.P., Tersian S.A. — Partial Differential Equations: An Introduction with Mathematica and Maple | 231 |
Nouredine Z. — Quantum Mechanics: Concepts and Applications | 115 |
Pattabhi V., Gautham N. — Biophysics | 2 |
Ortega J. M. — Iterative Solution of Nonlinear Equations in Several Variables | 35 |
Hermann R. — Differential geometry and the calculus of variations | 209, 210, 337, 390 |
Kreyszig E. — Introductory functional analysis with applications | 364, 366 |
Adler R.J. — Geometry of random fields | 51 |
Gumowski I., Mira Ch. — Recurrences and Discrete Dynamic Systems | 30, 66, 94 |
Selig J.M. — Introductory robotics | 14, 19, 22, 117 |
Schechter M. — Operator methods in quantum mechanics | 29 |
Ortega J.M. — Numerical analysis: a second course | 6, 14, 42, 45, 101 |
Barnett S.M., Radmore P.M. — Methods in Theoretical Quantum Optics | 2, 3, 5 |
Mandel L., Wolf E. — Optical Coherence and Quantum Optics | 215 |
Gloub G.H., Ortega J.M. — Scientific Computing and Differential Equations | 211, 314 |
Natanson I.P. — Constructive function theory, Volume II. Approximation in mean | 20 |
Antsaklis P.S., Michel A.N. — Linear Systems | 121, 122, 298, 301, 305, 564 |
Choquet-Bruhat Y., DeWitt-Morette C., Dillard-Bleick M. — Analysis, manifolds and physics. Part I. | 60 |
Gruber M.H.J. — Regression Estimators: A Comparative Study | 26, 61 |
Abramovich Y.A., Aliprantis C.D. — An Invitation to Operator Theory | 248 |
Birkhoff G., Mac Lane S. — A Survey of Modern Algebra | 265, 332 |
Gallavotti G. — Foundations of fluid mechanics | 96 |
Goswami J., Chan A. — Fundamentals of Wavelets. Theory, Algorithms, and Applications | 19 |
Atkins P. — Molecular Quantum Mechanics | 10, 17 |
Elden L. — Numerical Linear Algebra and Applications in Data Mining | 139 |
Devaney R.L., Keen L. — Chaos and Fractals: The Mathematics Behind the Computer Graphics | 63, 78 |
Hildebrand F.B. — Methods of Applied Mathematics | 30, 89, 247 |
Volkmer H. — Multiparameter Eigenvalue Problems And Expansion Theorems | 8, 21, 50 |
Borovik A.V. — Mathematics under the microscope | 40 |
Puri P.R. — Mathematical methods of quantum optics | 7, 186 |
Amrein W.O., Sinha K.B., Jauch J.M. — Scattering Theory in Quantum Mechanics: Physical Principles and Mathematical Methods | 68—69, 186 |
Murdock J.A. — Perturbations: Theory and Methods (Classics in Applied Mathematics) | 122, 441 |
Gelbaum B.R. — Problems in Real and Complex Analysis | 6.2. 82 |
Greub W.H. — Linear Algebra | 116 |
Churchill R.V. — Operational mathematics | 264 |
Hristev R.M. — The artificial neural network book | 36, 327, 328 |
Carroll R.W. — Mathematical physics | 11 |
Avramidi I.G. — Heat Kernel and Quantum Gravity | 23, 116 |
Ram-Mohan R. — Finite Element and Boundary Element Applications in Quantum Mechanics | 7 |
Podgorsak E. — Radiation Physics for Medical Physicists | 36 |
Tzenov S.I. — Contemporary Accelerator Physics | 131 |
Khinchin A.Y. — Mathematical Foundations Of Quantum Statistics | 55 |
Saito Y. — Statistical physics of crystal growth | 40, 110, 145, 151 |
Wolfgang K. H. Panofsky, Phillips Panofsky, Melba Panofsky — Classical Electricity and Magnetism | 214 |
Silverman J. — The arithmetic of dynamical systems | 421 |
Moh T.T. — Algebra | 224 |
Beckenbach E.F. (ed.) — Applied Combinatorial Mathematics | 133, 559, 564 |
Rudzikas Z. — Theoretical Atomic Spectroscopy | 4 |
Loomis L.H., Sternberg S. — Advanced calculus | 34, 258 |
Anderssen R.S., de Hoog F.R., Lukas M.A. — The application and numerical solution of integral equations | 11, 122, 166, 179 |
Luenberger D.G. — Introduction to dynamic systems | 77, 135—150 |
Ciarlet P.G. — Mathematical elasticity. Volume II: Theory of plates | 105, 190 |
Lane S.M. — Mathematics, form and function | 192 |
Hirsch M.W., Smale S. — Differential Equations, Dynamical Systems, and Linear Algebra | 63 |
Atkins P.W., Friedman R.S. — Molecular Quantum Mechanics | 10, 17 |
Boerner H. — Representations of Groups | 12 |
Hackbusch W. — Multi-Grid Methods and Applications | 210, 252 |
Mandl F. — Quantum mechanics | 6, 12, 27, 32, 62—63 |
Miwa T., Jimbo M., Date E. — Solitons : Differential equations, symmetries and infinite dimensional algebras | 8, 9 |
Miva T. — Solitons : Differential equations, symmetries and infinite dimensional algebras | 8, 9 |
Devroye L. — Non-Uniform Random Variate Generation | 605 |
Kanwal R.P. — Linear Integral Equations: Theory and Techniques | 6ff |
Fuzhen Zhang — Matrix theory: basic results and techniques | 16, 18, 51, 219, 227 |
Gruenberg K.W., Weir A.J. — Linear Geometry | 71 (ex. 4), 135, 137, 141ff |
Strang G. — Introduction to Applied Mathematics | 47 |
Behnke H., Bachmann F., Fladt K. — Fundamentals of mathematics. Volume III. Analysis | 296, 348, 410, 411, 412, 417, 435 |
Vilenkin N.Ja., Klimyk A.U. — Representation of Lie Groups and Special Functions: Volume 1: Simplest Lie Groups, Special Functions and Integral Transforms | 30 |
Blum E.K., Lototsky S.V. — Mathematics of Physics and Engineering | 329 |
Zeidler E. — Applied Functional Analysis: Applications to Mathematical Physics | 83, 230 |
Ashby N., Miller S.C. — Principles of modern physics | 158 |
Lang S. — Linear Algebra | 247 |
Bates Douglas M., Watts Donald G. — Nonlinear Regression Analysis and Its Applications (Wiley Series in Probability and Statistics) | 173 |
Miller W. — Symmetry and Separation of Variables | 25 |
Schiff L.I. — Quantum Mechanics | 31, 155 |
Apostol T.M. — Calculus (Volume 2): Multi-Variable Calculus and Linear Algebra with Applications | 97 |
Herstein I.N. — Topics in algebra | 270 |
Hartmann A.K., Rieger H. — Optimization Algorithms in Physics | 320 |
Usmani R.A. — Applied Linear Algebra | 123 |
Greiner W. — Classical mechanics. Systems of particles and hamiltonian dynamics | 195 |
Zeidler E. — Oxford User's Guide to Mathematics | 626 |
Williams C.P., Clearwater S.H. — Explorations in quantum computing | 69, 70, 258 |
Kozlov V., Mazya V., Rossmann J. — Elliptic boundary value problems in domains with point singularities | 146 |
Schott J.R. — Matrix Analysis for Statistics | 84 |
Pier J.-P. — Mathematical Analysis during the 20th Century | 84 |
Pan G.W. — Wavelets in Electromagnetics and Device Modeling | 12, 14, 69, 70, 72, 194—197, 244, 245, 250, 281, 286—288, 290, 295 |
Schouten J.A. — Tensor Analysis for Physicists | 42, 115, 254, 256 |
Jahne B., Haubecker H. — Computer vision and applications | 234, 367 |
Hadlock C.R. — Field theory and its classical problems | 37 |
Hassani S. — Mathematical Methods: for Students of Physics and Related Fields | 224 |
Treves F. — Topological Vector Spaces, Distributions And Kernels | 491 |
Rao S.S. — Mechanical Vibrations | 284 |
Constantinescu F., Magyari E. — Problems in quantum mechanics | 2 |
Ma Z.-Q., Gu X.-Y. — Problems and Solutions in Group Theory for Physicists | 1 |
Haus H.A. — Waves and Fields in Optoelectronics | 160 |
Geroch R. — Mathematical physics | 293 |
Prikarpatsky A.K., Taneri U., Bogolubov N.N. — Quantum field theory with application to quantum nonlinear optics | 8 |
Higham D.J., Higham N.J. — MATLAB guide | 132 |
Hopf L., Nef W. — Introduction To The Differential Equations Of Physics | 87, 95, 99, 101, 116, 152 |
Lienhardt J.H. IV, Lienhardt J.H. V — A heat transfer textbook | 204 |
Sachkov V.N. — Combinatorial methods in discrete mathematics | 14 |
Popov E.P. — Engineering Mechanics of Solids | 426, 581 |
Berman A., Shaked-Monderer N. — Completely Positive Matrices | 6 |
Lyons L. — All You Wanted to Know about Mathematics but Were Afraid to Ask - Mathematics for Science Students. Volume 1 | 11, 13, 266, 284 |
Robertson A.P., Robertson W. — Topological vector spaces | 142 |
Hills D.A., Kelly P.A. — Solution of Crack Problems | 8, 128 |
Mattheij R.M. — Partial differential equations | 639 |
Akenine-Möller T. — Real-Time Rendering | see "Matrix" |
Mitrinović D.S., Vasić P.M. — Analytic inequalities | 124, 149, 168, 160 |
Hammerlin G., Hoffmann K.-H., Schumaker L.L. — Numerical Mathematics | 71, 91 |
Ascher U., Petzold L. — Computer Methods for Ordinary Differential Equations and Differential-Algebraic Equations | 24 |
Krane K.S. — Introductory nuclear physics | 12 |
Schutz B. — Geometrical Methods in Mathematical Physics | 19, 65, 96, 99 |
Petzold L. — Computer Methods for Ordinary Differential Equations and Differential-Algebraic Equations | 20 |
Marcus M., Minc H. — Introduction to Linear Algebra | 144 |
Cohn P.M. — Free Rings and Their Relations (London Mathematical Society Monographs) | 504, 510 |
Zorich V.A., Cooke R. — Mathematical analysis II | 518 |
Wiedemann H. — Particle Accelerator Physics I: Basic Principles and Linear Beam Dynamics | 191 |
Cheney W. — Analysis for Applied Mathematics | 91 |
Zorich V. — Mathematical Analysis | 518 |
Young D.M., Gregory R.T. — A Survey of Numerical Mathematics, Volume 2 | 172, 738 |
Golan J.S. — The Linear Algebra a Beginning Graduate Student Ought to Know (Texts in the Mathematical Sciences) | 229, 232 |
Clarke C.L.A., Cormack G.V. — Information Retrieval: Implementing and Evaluating Search Engines | 529 |
Tannehill J.C., Anderson D.A., Pletcher R.H. — Computational Fluid Mechanics and Heat Transfer | 17, 36—37, 92, 95—96, 356—357, 362, 556—558 |
Abramovich Y., Aliprantis C. — An Invitation to Operator Theory (Graduate Studies in Mathematics, V. 50) | 248 |
Choquet-Bruhat Y., Dewitt-Morette C. — Analysis, manifolds and physics | 60 |
Joyner D. — Adventures in group theory: Rubik's cube, Merlin's machine, and other mathematical toys | 133 |
Perina J., Hradil Z., Jurco B. — Quantum optics and fundamentals of physics | 46, 158 |
Mac Lane S. — Mathematics: Form and Function | 192 |
Geroch R. — Mathematical physics | 293 |
Lilley J.S. — Nuclear physics: principles and applications | 10, 330 |
Kline M. — Mathematical thought from ancient to modern times | see "Characteristic value" |
Dennery P., Krzywicki A. — Mathematics for Physicists | 120 |
Gripenberg G., Londen S.O., Staffans O. — Volterra integral and functional equations | 219, see also "Characteristic exponent" |
Vretblad A. — Fourier Analysis and Its Applications (Graduate Texts in Mathematics) | 154 |
Bruss D. (ed.), Leuchs G. (ed.) — Lectures on Quantum Information | 331 |
D'Angelo J.P. — Inequalities from Complex Analysis (Carus Mathematical Monographs) | 89, 105—109, 110, 154, 155, 158 |
Jorgensen P.E.T. — Analysis and Probability: Wavelets, Signals, Fractals | 9, 11, 19, 77, 100, 107, 116 |