| Êíèãà | Ñòðàíèöû äëÿ ïîèñêà |
| Guillemin V., Pollack A. — Differential topology | 38 |
| Nevanlinna R., Paatero V. — Introduction to Complex Analysis | 122, 128—130 |
| Heinbockel J.H. — Introduction to tensor calculus and continuum mechanics | 222 |
| Zeidler E. — Nonlinear Functional Analysis and its Applications IV: Applications to Mathematical Physic | 177 |
| Gross M., Huybrechts D., Joyce D. — Calabi-Yau Manifolds and Related Geometries: Lectures at a Summer School in Nordfjordeid, Norway, June 2001 | 163 |
| Dwork B. — Lectures on P-Adic Differential Equations | 64 |
| Harris J., Morrison I — Moduli of curves | 87 |
| Kollar J., Mori S. — Birational geometry of algebraic varieties | 144 |
| Kodaira K. — Complex manifolds and deformation of complex structures | 61 |
| Miller E., Sturmfels B. — Combinatorial Commutative Algebra | 126. See also Specialization |
| Goffman C., Nishiura T., Waterman D. — Homeomorphisms in Analysis | 90—92, 95, 96 |
| Miranda R. — Graduate studies in mathematics (vol.5). Algebraic curves and Riemann surfaces | 364 |
| Fulton W. — Intersection theory | 198—200 |
| Lefschetz S. — Algebraic topology | 39 |
| Joyce D.D. — Compact Manifolds with Special Holonomy | 92—93 |
| Clift R., Grace J.R., Weber M.E. — Bubbles, drops, and particles | 32. See also Aspect ratio, Shapes |
| Lee J.M. — Introduction to Topological Manifolds | 148 |
| Ahlfors L.V. — Complex analysis | 281 |
| Murnaghan F.D. — Finite deformation of an elastic solid | 29 |
| Sadd M.H. — Elasticity: theory, applications, and numerics | 27 |
| Miklowitz J. — The theory of elastic waves and waveguides | 30—38 |
| Chorin A., Marsden J. — A Mathematical Introduction to Fluid Mechanics | 18 |
| Aris R. — Vectors, Tensors and the Basic Equations of Fluid Mechanics | 88 |
| Hazewinkel M. (ed.) — Handbook of Algebra, Volume 4 | 217 |
| Mill J.V. — The Infinite-Dimensional Topology of Function Spaces | 510 |
| Parshin A.N., Shafarevich I.R. — Algebraic Geometry III : Complex Algebraic Varieties. Algebraic Curves and Their Jacobians | 89 |
| Brown R.F., Gorniewicz L., Jiang B. — Handbook of Topological Fixed Point Theory | 194 |
| Joyce D.D. — Riemannian holonomy groups and calibrated Geometry | 94—95 |
| Shafarevich I.R., Danilov V.I., Iskovskih V.A. — Algebraic Geometry II : Cohomology of Algebraic Varieties. Algebraic Surfaces (Encyclopaedia of Mathematical Sciences) | 242 |
| Roussarie R.H., Dumortier F., Sotomayor J. — Bifurcations of Planar Vector Fields: Nilpotent Singularities and Abelian Integrals | 19, 170 |
| Sokolnikoff I.S. — Mathematical Theory of Elasticity | 1 |
| Eringen A.C. — Mechanics of continua | 7, 11, 19, 27 |
| Namba M. — Families of Meromorphic Functions on Compact Riemann Surfaces | 1 |
| Zoladek H. — Monodromy Group | 17 |
| Weickert J. — Visualization and Processing of Tensor Fields: Proceedings of the Dagstuhl Workshop | 270 |
| Debye P. — Polar Molecules | 15 |
| Steenrod N.E. — First Concepts of Topology | 99 |
| Born M. — Einstein's Theory of Relativity | 96 |
| Ueno K. — Advances in Moduli Theory | 2 |
| Langmuir I. — Phenomena, Atoms and Molecules | 262 |
| Golubitsky M., Guillemin V. — Stable Mappings and Their Singularities | 118, 120 |
| Haas A.E. — Introduction to theoretical physics, Vol. 1 and 2 | 168 |
| Zeldovich Ya.B., Yaglom I.M. — Higher Math for Beginners | 115 |
| McHardy J., Sawan S.P. — See Inside! Supercritical Fluid Cleaning by Samuel P. Haber: Book Cover * o Table of Contents Supercritical Fluid Cleaning: Fundamentals, Technology and Applications | 79, 130 |
| Abraham Taylor — An introduction to X-ray metallography | 4, 114, 205, 208, 228, 229, 231, 232, 234, 235, 243, 260, 273, 274, 289, 296 |
| Achenbach J.D. — Wave propagation in elastic solids | 11, 50 |
| Granas A., Dugundji J. — Fixed Point Theory | 289 |
| Hu S.-T. — Elements of general topology | 50 |
| Hazewinkel M. — Handbook of Algebra (part 2) | 153, 226 |
| Olver P.J., Shakiban C. — Applied linear. algebra | 421 |
| Strelkov S.P. — Mechanics | 55, 304 |
| Graver J.E. — Counting on Frameworks: Mathematics to Aid the Design of Rigid Structures | 12, 35 |
| Li L.-W., Kang X.-K., Leong M.-S. — Spheroidal Wave Functions in Electromagnetic Theory | 228 |
| Clemens C.H. — Scrapbook of Complex Curve Theory | 172 |
| Pfeiler W. — Alloy Physics: A Comprehensive Reference | 124 ff, 129 ff, 154, 167 |
| Pozrikidis C. — Fluid Dynamics: Theory, Computation, and Numerical Simulation | 3 |
| Poincare H. — Mathematics and Science: Last Essays | 25, 27, 28, 76 |
| West B.J., Bologna M., Grigolini P. — Physics of Fractal Operators | 234—240 |
| Goryunov V.I., Lyashko O.V. — Dynamical Systems VI: Singularity Theory I, Vol. 6 | 15, 167 |
| Herzog B. — Kodaira-Spencer Maps in Local Algebra | x |
| Anderson G.A., Granas A. — Fixed Point Theory | 289 |
| Sarfraz M. — Advances in geometric modeling | 168, 169, 172, 221 |
| Bijvoet J.M., Kolkmeyer N.H., Macgillavry C.H. — X-Ray Analysis of Crystals | 54—58 |
| Thompson Philip A. — Compressible-fluid dynamics | 9ff. |
| van der Giessen E., Wu T. Y. — Advances in Applied Mechanics, Volume 34 | 67, 87, 93, 96, 97, 99, 113, 152, 156, 173 |
| Morrow J., Kodaira K. — Complex Manifolds | 19 |
| Eringen A.C., Suhubi E.S. — Elastodynamics (vol.1) Finite motions | 4 |
| Ore O. — Theory of Graphs | 164 |
| Slodowy P. — Simple Singularities and Simple Algebraic Groups | 4, 13 |
| Dold A. — Lectures on Algebraic Topology | 13 |
| Sokolnikoff I.S. — Mathematical Theory of Elasticity | 1 |
| Johnson C. — Numerical solution of partial differential equations by the finite element method | 102 |
| Jähne B. — Spatio-Temporal Image Processing | 68, 73 |
| Izu Vaisman — Lectures on the geometry of Poisson manifolds | 93 |
| Browder A. — Mathematical Analysis: An Introduction | 262 |
| Grosche C. — Path integrals, hyperbolic spaces, and Selberg trace formulae | 50 |
| Cairns S.S. — Introductory topology | 152, 187 |
| Novikov S.P., Fomenko A.T. — Basic elements of differential geometry and topology | 292 |
| McCrory C., Shifrin T. — Geometry and Topology: Manifolds, Varieties, and Knots | 92, 154 |
| Struik D.J. — Lectures on Analytic and Projective Geometry | Sec. 4-7 |
| Kuratowski K. — Topology. Volume II | 368 |
| Hermann R. — Differential geometry and the calculus of variations | 152, 153 |
| Hu S.T. — Introduction to general topology | 50 |
| Brandt D.A., Warner J.C. — Metallurgy Fundamentals | 53—54 |
| Lefschetz S. — Introduction to topology | 42, 144 |
| Patnaik S., Hopkins D. — Strength of Materials: A New Unified Theory for the 21st Century | 7, 25—26 |
| Spanier E.H. — Algebraic Topology | 29 |
| Aleksandrov P.S. — Combinatorial topology. Volume 1 | 32 |
| Povh B., Rith K., Scholz C., Zetsche F. — Particles and nuclei. An introduction to the Physical Concepts | 34, 259—261, 305, 306 |
| Soares C. — Process Engineering Equipment Handbook | M-39, P-102, P-104 |
| Lefschetz S. — Introduction to Topology | 42, 144 |
| Astarita G., Marrucci G. — Principles of Non-Newtonian Fluid Mechanics | 4, 61, 99, 118, 193, 202, 213 |
| Looijenga E.J.N. — Isolated Singular Points on Complete Intersections | (6.4), (6.9) |
| Goldsmid H.J. (ed.) — Problems in solid state physics | 4.4, 4.5 |
| Flügge S. (ed.) — Encyclopedia of Physics (Volume 3/1 Principles of Classical Mechanics and Field Theory) | 243—325, see also "Verformung" |
| Joyce D.D. — Compact manifolds with special holonomy | 92—93 |
| Ciarlet P.G. — Mathematical elasticity. Volume II: Theory of plates | 258, 260, 335 |
| Lane S.M. — Mathematics, form and function | 323 |
| Lemm J.M. — Mathematical elasticity. Theory of shells | 9, 387, 456 |
| Courant R. — Dirichlet's Principle, Confomal Mapping and Minimal Surfaces | see "Pinching" |
| Ðàäèîðåëåéíàÿ ñòàíöèÿ òèïà Ð-414. Òåõíè÷åñêîå îïèñàíèå. Êíèãà âòîðàÿ | 19 |
| Hartshorne R. — Algebraic Geometry | 89, 90, 188, 267, see also "Family" |
| Vafa C., Zaslow E. — Mirror symmetry | 161 |
| Zeidler E. — Oxford User's Guide to Mathematics | 361 |
| Krasnov N.F. — Aerodynamics. Part 1. Fundamentals of theory. Aerodynamics of an Airfoil and a Wing | see also "Strain" |
| Schouten J.A. — Tensor Analysis for Physicists | 139 |
| Vassiliev V.A. — Applied Picard-Lefschetz Theory | 45 |
| Courant R., Robbins H. — What Is Mathematics?: An Elementary Approach to Ideas and Methods | 242 |
| Gullberg J. — Mathematics: from the birth of numbers | 379 |
| Anderson G.A. — Surgery with Coefficients | 32 |
| Silva V.D. — Mechanics and Strength of Materials | 5 |
| Shu-Ang Zhou — Electrodynamics of solids and microwave superconductivity | 133 |
| Lord E., Wilson C. — The Mathematical Description of Shape and Form (Mathematics and Its Applications) | 50, 64, 129 |
| Greiner W., Maruhn J. — Nuclear models | 167, 296 |
| Joyce D. — Riemannian Holonomy Groups and Calibrated Geometry (Oxford Graduate Texts in Mathematics) | 94—95 |
| Buchdahl H.A. — The Concepts of Classical Thermodynamics | 6 |
| Mac Lane S. — Mathematics: Form and Function | 323 |
| Shafarevich I.R. (ed.) — Algebraic Geometry II: Cohomology of Algebraic Varieties. Algebraic Surfaces (Encyclopaedia of Mathematical Sciences. Volume 35) | 242 |
| Lipparini E. — Modern many-particle physics: atomic gases, quantum dots and quantum fluids | 142, 144, 257, 385—387, 402, 406, 407, 412 |
| Kittel C. — Introduction to solid state physics | 80 |
| Nash C., Sen S. — Topology and geometry for physicists | 1 |
| Lundell A., Weingram S. — The topology of CW complexes | 3,117-119 |
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