| Êíèãà | Ñòðàíèöû äëÿ ïîèñêà |
| Abell M., Braselton J. — Differential Equations with Mathematica | 382 |
| Brauer F., Nohel J.A. — The qualitative theory of ordinary differential equations | 35 |
| Latrve D.R., Kreider D.L., Proctor T.G. — Hp-48G/Gx Investigations in Mathematics | 422 |
| Enns R.H., Mc Guire G.C. — Nonlinear physics with mathematica for scientists and engineers | 476 |
| Conte S.D., de Boor C. — Elementary numerical analysis - an algorithmic approach | 133, 166—168 |
| Mathews J.H., Fink K.D. — Numerical Methods Using MATLAB | 112, 114 |
| Golub G.H., van Loan C.F. — Matrix Computations | 50 |
| Rawlings J.O., Pantula S.G., Dickey D.A. — Applied Regression Analysis: A Research Tool | 44, 79 |
| Rao R.C. — Linear Statistical Inference and Its Applications | 16 |
| Kuttler K. — Introduction to linear algebra for mathematicians | 64 |
| Lutkepohl H. — Handbook of Matrices | 7, 27, 253 |
| Thomas J.M. — Differential systems | 19 |
| Abell M.L., Braselton J.P. — Mathematica by Example | 304, 305, 309 |
| Goldstein H., Poole C., Safko J. — Classical mechanics | 147 |
| Bird J. — Engineering Mathematics | 509, 511 |
| Williamson R.E., Crowell R.H., Trotter H.F. — Calculus of vector functions | 15 |
| Artin M. — Algebra | 7 |
| Kohonen T. — Self-organizing maps | 14 |
| Shankar R. — Basic Training In Mathematics | 211, 216 |
| Akivis M., Goldberg V. — Differential Geometry of Varieties with Degenerate Gauss Maps | 16 |
| Galwey N.V. — Introduction to Mixed Modelling: Beyond Regression and Analysis of Variance | 309 |
| Dudgeon D.E., Mersereau R.M. — Multidimensional Digital Signal Processing | 324 |
| Knuth D.E. — The art of computer programming (vol. 2 Seminumerical Algorithms) | 98, 331, 500, 524 |
| Motwani R., Raghavan P. — Randomized algorithms | 348, 354 |
| Griffits D.J. — Introduction to quantum mechanics | 84 |
| Barton J.J., Nackman L.R. — Scientific and engineering C++ | 570 |
| Shirley P., Morley R.K. — Realistic Ray Tracing | 116 |
| Knuth D.E. — The art of computer programming (Vol. 2. Seminumerical algorithms) | 95—96, 314, 482, 657 |
| Strang G. — Linear Algebra and Its Applications | 32, 42 |
| Ardema M.D. — Newton-Euler Dynamics | 54 |
| Desloge E.A. — Classical Mechanics. Volume 1 | 455 — 456 |
| Miller W. — Symmetry Groups and Their Applications | 17 |
| Farin G., Hansford D. — Practical Linear Algebra: A Geometry Toolbox | 93, 95, 97, 115, 219, 256, 270 |
| Searle S.R. — Matrix algebra useful for statistics | 119 |
| Pipes L.A. — Applied Mathemattics for Engineers and Physicists | 80 |
| Mirsky L. — An introduction to linear algebra | 91, 178-9 |
| Kuttler K. — Calculus, Applications and Theory | 411 |
| Antia H.M. — Numerical Methods for Scientists and Engineers | 86, 113, 756, 758, 761 |
| Olver P.J., Shakiban C. — Applied linear. algebra | 73, 594 |
| Kreyszig E. — Advanced engineering mathematics | 315 |
| Simmons G.F. — Introduction to topology and modern analysis | 284 |
| Dunn F., Parberry I. — 3D Math Primer for Graphics and Game Development | (see Inverse matrix) |
| Paeth A.W. (ed.) — Graphics gems (volume 5) | IV.199, IV.534 |
| Quarteroni A., Saleri F. — Scientific Computing with MATLAB | 10 |
| M.A.Akivis, V.V.Goldberg — Projective Differential Geometry of Submanifolds | 3, 14, 215, 244, 283 |
| Neter J., Kutner M.H., Wasserman W. — Applied Linear Regression Models | 200—204 |
| Aristotle D. Michal — Matrix and tensor calculus: with applications to mechanics, elasticity, and aeronautics | 8 |
| Bjoerck A., Dahlquist G. — Numerical mathematics and scientific computation | 20—21 |
| Nicholson W.K. — Linear Algebra with Applications | 57, 63, 74, 76 |
| Ohanian H.C. — Classical Electrodynamics | 8 |
| Press W.H., Teukolsky S.A., Vetterling W.T. — Numerical recipes in Fortran 90 | 25, 27, 34, 40, 65ff., 70, 95ff., 1014, 1016f. |
| Messiah A. — Quantum mechanics. Volume 1 | 277, 281 |
| Harman T.L., Dabney J.B., Richert N.J. — Advanced Engineering Mathematicas with MATLAB | 116 |
| Hefferon J. — Linear algebra | 329 |
| Abell M.L., Braselton J.P. — Differential equations with Mathematica | 382 |
| Bazaraa M.S., Jarvis J.J. — Linear Programming and Network Flows | 49 |
| Antsaklis P.S., Michel A.N. — Linear Systems | 110 |
| Goswami J., Chan A. — Fundamentals of Wavelets. Theory, Algorithms, and Applications | 19 |
| Atkins P. — Molecular Quantum Mechanics | 520 |
| Hille E. — Methods in classical and functional analysis | 21 |
| Elden L. — Numerical Linear Algebra and Applications in Data Mining | 18 |
| Davis H. F., Snider A. D. — Introduction to Vector Analysis | 216 |
| Hildebrand F.B. — Methods of Applied Mathematics | 16, 97(27) |
| Thomas J.M. — Differential systems | 19 |
| Thomas J.M. — Differential systems | 19 |
| Fox L., Parker I.B. — Chebyshev Polynomials in Numerical Analysis | 148, 150 |
| Stinson D.R. — Cryptography: Theory and practice | 15 |
| Atkins P.W., Friedman R.S. — Molecular Quantum Mechanics | 520 |
| Barry Steven, Davis Stephen — Essential Mathematical Skills: For Students of Engineering, Science and Applied Mathematics | 65, 68 |
| Intriligator M.D. — Mathematical optimization and economic theory | 487 |
| Cohen G.L. — A Course in Modern Analysis and Its Applications | 82, 241 |
| Zeidler E. — Oxford User's Guide to Mathematics | 608 |
| Hassani S. — Mathematical Methods: for Students of Physics and Related Fields | 180, 203, 207 |
| Gossett E. — Discrete Math with Proof | A25 |
| Foulds L.R. — Combinatorial optimization for undergraduates | 208 |
| Higham D.J., Higham N.J. — MATLAB guide | 126 |
| Rice J. — Matrix computations and mathematical software | 9, 22, 50 |
| Burden R.L., Faires J.D. — Numerical analysis | 349 |
| Akenine-Möller T. — Real-Time Rendering | 28—32, 34—37, 43, 728—729, 730, 731 |
| Shirley P., Ashikhmin M, Gleicher M. — Fundamentals of computer graphics | 124, 128 |
| Davis P.J. — Mathematics of Matrices | 84 |
| Mason P.L. — Multivariate Statistical Process Control with Industrial Application | 29, 66 |
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