| Êíèãà | Ñòðàíèöû äëÿ ïîèñêà |
| Wolf E.L. — Nanophysics and nanotechnology. An introduction to modern concepts in nanoscience | |
| Sornette D. — Critical phenomena in natural sciences | |
| Hutchins M., Schlager N. — Grzimek's animal life encyclopedia (Vol. 17. Cumulative index) | 2:8, 2:11 |
| Grinstead C.M., Snell J.L. — Introduction to Probability | 348 |
| Graham R.L., Grotschel M., Lovasz L. — Handbook of combinatorics (vol. 1) | 1985 |
| Carey F.A. — Organic Chemistry | see “Deoxyribonucleic acid” |
| Twyman R.M. — Advanced Molecular Biology: A Concise Reference | 224 |
| Berman F., Fox G., Hey T. (eds.) — Grid Computing | 811, 814 |
| Greenwood N.N., Earnshaw A. — Chemistry of the Elements | see “Deoxyribonucleic acids” |
| Hermanson G.T. — Bioconjugate Techniques | 29, 125, 346 |
| Rettig W. (ed.), Strehmel B., Schrader S. — Applied Fluorescence in Chemistry, Biology and Medicine | 39, 42, 48, 50, 150, 198, 422, 428, 465, 466, 468, 479, 480, 483 |
| Graham R.L., Grotschel M., Lovasz L. — Handbook of combinatorics (vol. 2) | 1985 |
| Smil V. — The Earth's biosphere: evolution, dynamics, and change | 29, 32—34, 36—37, 39—40, 54—56, 68—69, 78, 80, 83, 85, 137, 147, 265—266 |
| Stansfield W.D. — Schaums outline of genetics | see Deoxyribonucleic acid |
| Spiegel R. — Psychopharmacology: an introduction | 139 |
| Clote P., Backofen R. — Computational Molecular Biology | 2, 8—12 |
| Kuchel P.W., Ralston G.B. — Schaum's outline of theory and problems of biochemistry | 7, 11t, 12, 14, 17, 19 |
| Boyer R. — Modern Experimental Biochemistry | see Deoxynbonucleic acid |
| Ormerod M.G. — Flow Cytometry | 10—11, 15, 18, 29—51, 53, 55, 58—60 |
| Lydyard P.M., Whelan A., Fanger M.W. — Instant Notes in Immunology | 217, 219—220, 265 |
| Ramamurthy V., Schanze K.S. — Molecular and Supramolecular Photochemistry (Vol. 3: Organic Molecular Photochemistry) | 316 |
| Leach A.R. — Molecular Modelling Principles and Applications | 197, 227, 452, 489, 604 |
| Mahmoud H.M. — Evolution of random search trees | 214 |
| Branden C., Tooze J. — Introduction to protein structure | 121 |
| Devlin K.J. — Language of Mathematics: Making the Invisible Visible | 257 |
| Tompkins H.G., Irene E.A. — Handbook of Ellipsometry | 830, 845, 854 |
| Bauer F.L. — Decrypted Secrets: Methods and Maxims of Cryptology | 486 |
| Kappraff J. — Beyond Measure: A Guided Tour through Nature, Myth, and Number | xviii, 359, 369—372, 449 |
| Wapner L. — The Pea and the Sun: A Mathematical Paradox | 199 |
| Lerner K.L., Lerner B.W. — The gale encyclopedia of science (Vol. 6) | 2:575, 2:1188—1194, 2:2259, 2:1191, 3:1669, 3:1750, 3:1775, 4:2606—2607 |
| Coxeter H.S.M. — Introduction to Geometry | 278 |
| Carter J.S. — How Surfaces Intersect in Space: A Friendly Introduction to Topology | 181 |
| Cheremisinoff N. — Handbook of engineering polymeric materials | 100, 102 |
| Mahmoud H.M. — Sorting: a distribution theory | 260—261 |
| Leff H.S., Rex A.F. — Maxwell's Demon 2: Entropy, Classical and Quantum Information, Computing | 290—294, 312, 319, 330, 332, 399, 437 |
| Ormerod M.G. — Flow Cytometry: A Practical Approach | 28—29, 81, 83—97, 140 |
| Berrar D.P., Dubitzky W., Granzow M. — Practical approach to microarray data analysis | 48, 58 |
| Rubinstein M., Colby R.H. — Polymer Physics | 7, 8, 57, 74, 78, 408 |
| Structure Property Relationships in Polimers | 175 |
| Sakai K. (ed.) — Terahertz Optoelectronics | 231, 232, 237 |
| Lesk A.M. — Introduction to Protein Architecture | 61 |
| Ìÿ÷åâ À.À. — Ïåðñîíàëüíûå ÝÂÌ: êðàòêèé ýíöèêëîïåäè÷åñêèé ñïðàâî÷íèê | 154 |
| Wiley E.O. — Phylogenetics. The theory and practice of phylogenetic systematics | 123,337—339 |
| Kennedy D. — Academic Duty | 183, 187, 206, 262 |
| Adams C.C. — The Knot Book: An Elementary Introduction to the Mathematical Theory of Knots | 181 |
| Beckenbach E.F. (editor), Polya G., Lehmer D.H. and others — Applied combinatorial mathematics | 520 |
| Knuth D.E. — The art of computer programming (vol. 3 Sorting and Searching) | 34, 72 |
| Dawkins R. — Unweaving the Rainbow: Science, Delusion, and the Appetite for Wonder | see also “Genes” |
| Balian R. — From Microphysics to Macrophysics: Methods and Applications of Statistical Physics (vol. 1) | see “Genetic code” |
| Herbert C.G., Johnstone R.A.W. — Mass Spectrometry Basics | see “Deoxyribonucleic acid” |
| Dresselhaus M.S., Dresselhaus G., Avouris Ph. — Carbon nanotubes | 206 |
| Wolf E.L. — Nanophysics and nanotechnology: an introduction to modern concepts in nanoscience | 2, 109 |
| Deák P. — Computer Simulation of Materials at Atomic Level | 346, 365, 373, 374 |
| Mason G.W., Griffen D.T., Merrill J. — Physical Science Concepts | 208-210, 212-221, 333, 335, 377-378 |
| Eisenberg M., Abelson H. — Programming in Scheme | 100 (E 8.21) |
| Aminov Y. — Differential Geometry and Topology of Curves | 187 |
| Kundt W. — Astrophysics. A Primer | 146, 153 |
| Mourachkine A. — High-Temperature Superconductivity in Cuprates: The Nonlinear Mechanism and Tunneling Measurements | 253 |
| Mitra S., Acharya T. — Data mining. Multimedia, soft computing, and bioinformatics | 23, 367 |
| Thorpe M.F. (ed.), Duxbury P.M. (ed.) — Rigidity theory and applications | 388, 429 |
| Astfalk G. — Applications on Advanced Architecture Computers | 299, 300 |
| Pevzner P.A. — Computational Molecular Biology An Algorithmic Approach | 271 |
| McCrory C., Shifrin T. — Geometry and Topology: Manifolds, Varieties, and Knots | 297 |
| Callen H. — Thermodynamics and an Introduction to Thermostatistics | 361 |
| Hayes D.F. (ed.), Shubin T. (ed.) — Mathematical Adventures for Students and Amateurs | 5 |
| N. Vilenkin, George Yankovsky (translator) — Combinatorial mathematics for recreation | 13 |
| Butler M., Dawson M. (eds.) — Cell Culture Labfax | 15, 43, 54, 178, 219 |
| Daudel R.(edit.) — Advances in Chemical Physics. Volume VIII. The Application of Wave Mechanical Methods to the Study of Molecular Properties | see Deoxyribonucleic acid |
| Rogers L. — Its ONLY Rocket Science. An Introduction in Plain English (Astronomers Universe) | 182 |
| Murray R.M. — Control in an Information Rich World: Report of the Panel on Future Directions in Control, Dynamics, and Systems | 53, 64 |
| Rucker R. — Mind Tools. The Five Levels of Mathematical Reality | 4, 16, 155, 303 |
| Roberts F. S. — Graph theory and its applications to problems of society | 70 |
| Crowell B. — Electricity and Magnetism | 65 |
| Misra J.C. — Biomathematics: Modelling and Simulation | 195, 208, 212, 218 |
| Lockett K. — Physics in the real world | 49 |
| Rosenhouse J. — The Monty Hall Problem: The Remarkable Story of Math's Most Contentious Brain Teaser | 14 |
| McGuire J.H. — Electron correlation dynamics in atomic collisions | 121 |
| Beckenbach E.F. (ed.) — Applied Combinatorial Mathematics | 520 |
| Hugh D. Young, Roger A. Freedman — University physics with modern physics | 1252 |
| Hobbie R., Roth B. — Intermediate Physics for Medicine and Biology, | 74, 459, 461, 500 |
| Percus J.K. — Mathematics of genome analysis | 1—6 |
| Cole G.H.A., Woolfson M.M. — Planetary science. The science of planets around stars | 443, 445 |
| Morkoc H. — Advanced semiconductor and organic nano-techniques | 62 |
| Kruegel E. — The Physics of Interstellar Dust | 214 |
| Lockett K. — Physics in the Real World | 49 |
| Jablan S., Sazdanovic R. — LinKnot: knot theory by computer | 383 |
| Rice J.A. — Mathematical statistics and data analysis | 9 |
| Bäck T. — Evolutionary Algorithms in Theory and Practice | 11, 14, 19 |
| Stein S. — Strength In Numbers: Discovering the Joy and Power of Mathematics in Everyday Life | 51 |
| Park R., Lagally M. — Methods of Experimental Physics.Volume 22.Solid State Physics:Surfaces. | 423 |
| Ïàëìåð Ì., Ñèíêëåð Ð.Á. — Ïðîåêòèðîâàíèå è âíåäðåíèå êîìïüþòåðíûõ ñåòåé : Ó÷åáíûé êóðñ | ñì. "Digital Network Architecture" |
| Blin-Stoyle R.J. — Eureka! Physics of particles, matter and the universe | 86 |
| Mezey P.G. — Shape In Chemistry: An Introduction To Molecular Shape And Topology | 15 |
| Badii R., Politi A. — Complexity: Hierarchical structures and scaling in physics | 26—31, 100, 209—211, 240 |
| Stein S. — Strength In Numbers: Discovering the Joy and Power of Mathematics in Everyday Life | 51 |
| Zelkowitz M. — Advances in Computers, Volume 55 | 138 |
| Voit E. — Computational Analysis of Biochemical Systems: A Practical Guide for Biochemists and Molecular Biologists | 63, 145, 327, 330, 347, 348, 352, 353 |
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