Thermodynamics and heat Books

Book SynopsisThis concise treatment embraces, in four parts, all the main aspects of theoretical physics. Recent topics such as holography and quantum cryptography are included. The book summarizes what a graduate student, physicist working in industry, or a physics teacher should master during his or her degree course. It will also be useful for deepening one’s insight and it adds new dimensions to understanding of these elemental concepts.Trade ReviewFrom the reviews: "A comprehensive work covering the material that graduate students in physics typically would study in preparing for doctoral candidacy examinations. … This book would be very useful for self-study by motivated students, or for preparation for candidacy exams. … Practicing physicists may find that the brief, accessible treatments of many topics will earn this book a place on a convenient bookshelf. Summing Up: Recommended. Upper-division undergraduates through professionals." (M. C. Ogilvie, CHOICE, Vol. 45 (7), 2008) "The book, written by two … ‘working physicists’, contains what the authors regard as being ‘basic knowledge’ in the standard courses of theoretical physics (yet) held at German Universities. … is primarily intended to cover the ‘Basic Theoretical Physics’ in a single and handy volume. … Hence, the book should be considered as being a kind of ‘compendium’ of … formulas used in theoretical physics where the formulas are filled in between with some remarks." (Jürgen Tolksdorf, Zentralblatt MATH, Vol. 1134 (12), 2008)Table of ContentsFrom the contents: Part I: Mechanics and Aspects of Relativity.- Space and Time.- Force and Mass.- Basic tasks of Mechanics for one-dimensional motions.-The damped and driven harmonic oscillator.- The three fundamental conservation laws.- Motion in central force fields.- The Rutherford scattering cross section.- Lagrange formalism I : The Lagrangian and the Hamiltonian.- Relativity I: Einstein's principle of the shortest proper time and Hamilton's principle of least-action momentum.- Coupled small oscillations.- Rigid bodies.- Remarks on non-integrable systems.- Lagrange formalism II: Constraints.- Accelerated reference frames.- Relativity II: E=mc².- Part II: Electrodynamics and aspects of optics.- Opening: Literature, internet, contents, purpose.- Introduction: units and (mathematical) prelimaries.- Electrostatics and magnetostatics.- Magnetic field of steady electric currents.- The general Maxwell equations I: Faraday's 'law of induction.- Maxwell's displacement current.- The general Maxwell equations II: Electromagnetic waves.- Applications of the electrodynamics in the field of optics.- Conclusion.- Part III: Quantum mechanics.- Introductory remarks.- References and internet.- On the history of quantum mechanics.- Quantum mechanics: Foundations.- One-dimensional problems.- The harmonic oscillator in the wave mechanics.- The hydrogen atom in the wave mechanics.- Abstract quantum mechanics (algebraic methods).- Spin momentum and Pauli's principle (the spin-statistics theorem).- Spin-orbit interaction.- The minimisation principle of Ritz.- Schrödinger's perturbation theory for the statics.- Time-dependent perturbations.- Magnetism as an essentially quantum-mechanical phenomenon.- Cooper pairs.- On the interpretation of quantum mechanics.- Conclusion: Repetition and summary on the history of quantum mechanics.- Looking back and looking forward.- Appendix: On cryptography and quantum cryptography.- Part IV: Thermodynamics and Statistical Physics.- Introductionand overview.- Phenomenological thermodynamics: Temperature and heat.- The fundamental theorems I and II.- Phase transitions, van der Waals theory and related problems.- Kinetic gas theory.- Statistical Physics.- From quantum statistics to the classical statistical physics.- Deepening of the fundamental theorem II.- Shannon's information entropy.- The set of canonical ensembles in the phenomenological thermodynamics.- The relation of Clausius and Clapeyron.- Generation of low and ultralow temperatures, and the fundamental theorem III.- General statistical physics (formal completion): The statistical operator and the trace formalism.- Ideal Bose and Fermi gases.- Applications I.- Applications II.- Conclusion

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Book SynopsisSchnell und bequem auffindbare, wissenschaftlich fundierte, somit verlässliche, neutrale und umfassende Information zu modernen Energietechnologien stellt dieses Handbuch bereit. Im Vordergrund stehen dabei die naturwissenschaftlich-technischen Aspekte, jedoch auch Ökonomie, Ökologie und Gesellschaft werden angemessen berücksichtigt. Das Werk wendet sich vor allem an Studenten, Wissenschaftler und Fachleute aus Naturwissenschaft und Technik, die sich in bestimmte Themen einlesen oder nur rasch etwas nachschlagen wollen. Es ist jedoch so verständlich geschrieben, dass es sich auch den mit Energiefragestellungen befassten Nicht-Technikern erschließt. Dem Herausgeber ist ein Werk "aus einem Guss" gelungen, wobei es von der detaillierten Fachkenntnis zahlreicher namhafter Beitragsautoren profitiert.Table of ContentsPrinzipielles zur Energie, zu ihren Formen, ihrer Umformung und Nutzung.- Energievorräte, Energiegewinnung und Engergiebedarf.- Energiewandlung - Methoden der Strom- und Wärmeerzeugung.- Speichern und transportieren von Energie.- Effiziente Energieanwendung.- Energie, Umwelt, Gesellschaft.- Energie im 21. Jahrhundert - Zukunftsperspektiven.

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Book SynopsisThe present subvolume IV/19B1 contains evaluated data for elements and Binary Systems from Ag-Al to Au-Tl appearing in alphabetic order of the elements in the chemical formulae. The volume is accompanied by a CD, which allows computer calculation of a range of solution properties for selected temperature and phase composition ranges for the systems presented in that particular volume. Graphical representations, including the calculated phase diagram for each system, are also possible. Information on more comprehensive software, allowing complex equilibrium calculations involving both pure substances and solution phases of different types (e.g. slags, salt systems, aqueous solutions, etc.), can be obtained from SGTE members. A list of the SGTE membership is presented in the cover pages of this volume.

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Book SynopsisThis volume is a compilation of volumetric property data on subcritical binary homogeneous (single-phase) or heterogeneous (two-phase) liquid–liquid mixtures. All the components are well-defined pure substances, which are organic or inorganic nonelectrolytes, including low-melting ionic liquids and water. It provides a standard reference book with selected data collected by acknowledged international scientists. The full set of data is available online on www.springerlink.comTable of Contents1 Introduction.- 2 Index.- 3 Instructions on Using the Computer Program ELBT.- Tables on Volumetric Properties.- Volumetric Properties of the Mixture Pentan-3-one C5H10O + C6H12O 4-Methylpentan-2-one (LB2744, VMSD1111).- Volumetric Properties of the Mixture Pentan-3-one C5H10O + C6H12O 4-Methylpentan-2-one (LB2755, VMSD1212).- Volumetric Properties of the Mixture Hexan-2-one C6H12O + C6H12O 4-Methylpentan-2-one (LB2750, VMSD1111).- Volumetric Properties of the Mixture Hexan-2-one C6H12O + C6H12O 4-Methylpentan-2-one (LB2761, VMSD1212).- Volumetric Properties of the Mixture (+,?)-1-Methoxypropan-2-ol C4H10O2 + C6H12O 4-Methylpentan-2-one (LB2754, VMSD1111).- Volumetric Properties of the Mixture (+,?)-1-Methoxypropan-2-ol C4H10O2 + C6H12O 4-Methylpentan-2-one (LB2765, VMSD1212).- Volumetric Properties of the Mixture 2-Methylpropan-1-ol C4H10O + C6H12O 4-Methylpentan-2-one (LB2742, VMSD1111).- Volumetric Properties of the Mixture 2-Methylpropan-1-ol C4H10O + C7H14O 2,4-Dimethylpentan-3-one (LB2065, VMSD1111).- Volumetric Properties of the Mixture 2-Methylpropan-1-ol C4H10O + C7H14O 2,4-Dimethylpentan-3-one (LB2060, VMSD1212).- Volumetric Properties of the Mixture Methanol CH4O + C7H14O 2,4-Dimethylpentan-3-one (LB2063, VMSD1111).- Volumetric Properties of the Mixture Methanol CH4O + C7H14O 2,4-Dimethylpentan-3-one (LB2061, VMSD1212).- Volumetric Properties of the Mixture Propan-1-ol C3H8O + C7H14O 2,4-Dimethylpentan-3-one (LB2067, VMSD1111).- Volumetric Properties of the Mixture Propan-1-ol C3H8O + C7H14O 2,4-Dimethylpentan-3-one (LB2062, VMSD1212).- Volumetric Properties of the Mixture Pentylamine C5H13N + C6H12 Cyclohexane (LB0241, VMSD1111).- Volumetric Properties of the Mixture Pentylamine C5H13N + C6H12 Cyclohexane (LB0262, VMSD1212).- Volumetric Properties of the Mixture Cyclohexane C6H12 + C6H15N Hexylamine (LB0242, VMSD1111).- Volumetric Properties of the Mixture Cyclohexane C6H12 + C6H15N Hexylamine (LB0255, VMSD1212).- Volumetric Properties of the Mixture Cyclohexane C6H12 + C7H17N Heptylamine (LB0249, VMSD1111).- Volumetric Properties of the Mixture Cyclohexane C6H12 + C7H17N Heptylamine (LB0263, VMSD1212).- Volumetric Properties of the Mixture Cyclohexane C6H12 + C8H19N Octylamine (LB0250, VMSD1111).- Volumetric Properties of the Mixture Cyclohexane C6H12 + C8H19N Octylamine (LB0256, VMSD1212).- Volumetric Properties of the Mixture Pentylamine C5H13N + C6H14 Hexane (LB0238, VMSD1111).- Volumetric Properties of the Mixture Pentylamine C5H13N + C6H14 Hexane (LB0259, VMSD1212).- Volumetric Properties of the Mixture Pentylamine C5H13N + C7H16 Heptane (LB0239, VMSD1111).- Volumetric Properties of the Mixture Pentylamine C5H13N + C7H16 Heptane (LB0264, VMSD1212).- Volumetric Properties of the Mixture Pentylamine C5H13N + C8H18 Octane (LB0240, VMSD1111).- Volumetric Properties of the Mixture Pentylamine C5H13N + C8H18 Octane (LB0266, VMSD1212).- Volumetric Properties of the Mixture Hexane C6H14 + C6H15N Hexylamine (LB0243, VMSD1111).- Volumetric Properties of the Mixture Hexane C6H14 + C6H15N Hexylamine (LB0254, VMSD1212).- Volumetric Properties of the Mixture Hexane C6H14 + C7H17N Heptylamine (LB0247, VMSD1111).- Volumetric Properties of the Mixture Hexane C6H14 + C7H17N Heptylamine (LB0260, VMSD1212).- Volumetric Properties of the Mixture Hexane C6H14 + C8H19N Octylamine (LB0251, VMSD1111).- Volumetric Properties of the Mixture Hexane C6H14 + C8H19N Octylamine (LB0261, VMSD1212).- Volumetric Properties of the Mixture Hexylamine C6H15N + C7H16 Heptane (LB0244, VMSD1111).- Volumetric Properties of the Mixture Hexylamine C6H15N + C7H16 Heptane (LB0257, VMSD1212).- Volumetric Properties of the Mixture Hexylamine C6H15N + C8H18 Octane (LB0245, VMSD1111).- Volumetric Properties of the Mixture Hexylamine C6H15N + C8H18 Octane (LB0267, VMSD1212).- Volumetric Properties of the Mixture Heptane C7H16 + C7H17N Heptylamine (LB0248, VMSD1111).- Volumetric Properties of the Mixture Heptane C7H16 + C7H17N Heptylamine (LB0265, VMSD1212).- Volumetric Properties of the Mixture Heptane C7H16 + C8H19N Octylamine (LB0252, VMSD1111).- Volumetric Properties of the Mixture Heptane C7H16 + C8H19N Octylamine (LB0258, VMSD1212).- Volumetric Properties of the Mixture Heptylamine C7H17N + C8H18 Octane (LB0246, VMSD1111).- Volumetric Properties of the Mixture Heptylamine C7H17N + C8H18 Octane (LB0268, VMSD1212).- Volumetric Properties of the Mixture Octane C8H18 + C8H19N Octylamine (LB0253, VMSD1111).- Volumetric Properties of the Mixture Octane C8H18 + C8H19N Octylamine (LB0269, VMSD1212).- Volumetric Properties of the Mixture Butylamine C4H11N + C6H14O 2-Methylpentan-1-ol (LB0680, VMSD1111).- Volumetric Properties of the Mixture Butylamine C4H11N + C6H14O 2-Methylpentan-1-ol (LB0684, VMSD1212).- Volumetric Properties of the Mixture Butylamine C4H11N + C6H14O Hexan-2-ol (LB0678, VMSD1111).- Volumetric Properties of the Mixture Butylamine C4H11N + C6H14O Hexan-2-ol (LB0682, VMSD1212).- Volumetric Properties of the Mixture Butylamine C4H11N + C6H14O Hexan-3-ol (LB0679, VMSD1111).- Volumetric Properties of the Mixture Butylamine C4H11N + C6H14O Hexan-3-ol (LB0683, VMSD1212).- Volumetric Properties of the Mixture Butylamine C4H11N + C6H14O 4-Methylpentan-2-ol (LB0656, VMSD1111).- Volumetric Properties of the Mixture Butylamine C4H11N + C6H14O 4-Methylpentan-2-ol (LB0657, VMSD1212).- Volumetric Properties of the Mixture Butylamine C4H11N + C6H14O 2-Methylpentan-2-ol (LB0681, VMSD1111).- Volumetric Properties of the Mixture Butylamine C4H11N + C6H14O 2-Methylpentan-2-ol (LB0685, VMSD1212).- Volumetric Properties of the Mixture 1,2,4-Trichlorobenzene C6H3Cl3 + C6H14 Hexane (LB1737, VMSD1111).- Volumetric Properties of the Mixture 1,2,4-Trichlorobenzene C6H3Cl3 + C6H14 Hexane (LB1729, VMSD1212).- Volumetric Properties of the Mixture 1,2,4-Trichlorobenzene C6H3Cl3 + C7H16 Heptane (LB1738, VMSD1111).- Volumetric Properties of the Mixture 1,2,4-Trichlorobenzene C6H3Cl3 + C7H16 Heptane (LB1730, VMSD1212).- Volumetric Properties of the Mixture 1,2,4-Trichlorobenzene C6H3Cl3 + C9H20 Nonane (LB1739, VMSD1111).- Volumetric Properties of the Mixture 1,2,4-Trichlorobenzene C6H3Cl3 + C9H20 Nonane (LB1731, VMSD1212).- Volumetric Properties of the Mixture 1,2,4-Trichlorobenzene C6H3Cl3 + C10H22 Decane (LB1740, VMSD1111).- Volumetric Properties of the Mixture 1,2,4-Trichlorobenzene C6H3Cl3 + C10H22 Decane (LB1732, VMSD1212).- Volumetric Properties of the Mixture 1,2,4-Trichlorobenzene C6H3Cl3 + C12H26 Dodecane (LB1741, VMSD1111).- Volumetric Properties of the Mixture 1,2,4-Trichlorobenzene C6H3Cl3 + C12H26 Dodecane (LB1733, VMSD1212).- Volumetric Properties of the Mixture 1,2,4-Trichlorobenzene C6H3Cl3 + C14H30 Tetradecane (LB1736, VMSD1111).- Volumetric Properties of the Mixture 1,2,4-Trichlorobenzene C6H3Cl3 + C14H30 Tetradecane (LB1734, VMSD1212).- Volumetric Properties of the Mixture 1,2,4-Trichlorobenzene C6H3Cl3 + C16H34 Hexadecane (LB1742, VMSD1111).- Volumetric Properties of the Mixture 1,2,4-Trichlorobenzene C6H3Cl3 + C16H34 Hexadecane (LB1735, VMSD1212).- Volumetric Properties of the Mixture Vinylbenzene C8H8 + C10H7Cl 1-Chloronaphthalene (LB0172, VMSD1111).- Volumetric Properties of the Mixture Vinylbenzene C8H8 + C10H7Cl 1-Chloronaphthalene (LB0509, VMSD1212).- Volumetric Properties of the Mixture Hexane C6H14 + C10H7Cl 1-Chloronaphthalene (LB1761, VMSD1111).- Volumetric Properties of the Mixture Hexane C6H14 + C10H7Cl 1-Chloronaphthalene (LB1756, VMSD1212).- Volumetric Properties of the Mixture Heptane C7H16 + C10H7Cl 1-Chloronaphthalene (LB1760, VMSD1111).- Volumetric Properties of the Mixture Heptane C7H16 + C10H7Cl 1-Chloronaphthalene (LB1755, VMSD1212).- Volumetric Properties of the Mixture Octane C8H18 + C10H7Cl 1-Chloronaphthalene (LB1759, VMSD1111).- Volumetric Properties of the Mixture Octane C8H18 + C10H7Cl 1-Chloronaphthalene (LB1754, VMSD1212).- Volumetric Properties of the Mixture 1-Chloronaphthalene C10H7Cl + C12H26 Dodecane (LB1762, VMSD1111).- Volumetric Properties of the Mixture 1-Chloronaphthalene C10H7Cl + C12H26 Dodecane (LB1753, VMSD1212).- Volumetric Properties of the Mixture 1-Chloronaphthalene C10H7Cl + C14H30 Tetradecane (LB2071, VMSD1111).- Volumetric Properties of the Mixture 1-Chloronaphthalene C10H7Cl + C14H30 Tetradecane (LB2068, VMSD1212).- Volumetric Properties of the Mixture 1-Chloronaphthalene C10H7Cl + C15H32 Pentadecane (LB1757, VMSD1111).- Volumetric Properties of the Mixture 1-Chloronaphthalene C10H7Cl + C15H32 Pentadecane (LB1751, VMSD1212).- Volumetric Properties of the Mixture 1-Chloronaphthalene C10H7Cl + C16H34 Hexadecane (LB2070, VMSD1111).- Volumetric Properties of the Mixture 1-Chloronaphthalene C10H7Cl + C16H34 Hexadecane (LB1758, VMSD1111).- Volumetric Properties of the Mixture 1-Chloronaphthalene C10H7Cl + C16H34 Hexadecane (LB2069, VMSD1212)..- Volumetric Properties of the Mixture 1-Chloronaphthalene C10H7Cl + C16H34 Hexadecane (LB1752, VMSD1212).- Volumetric Properties of the Mixture Methanamide CH3NO + C4H10O Butan-1-ol (LB1489, VMSD1511).- Volumetric Properties of the Mixture Methanamide CH3NO + C4H10O Butan-2-ol (LB1490, VMSD1511).- Volumetric Properties of the Mixture Methanamide CH3NO + C4H10O2 Butane-1,3-diol (LB1492, VMSD1511).- Volumetric Properties of the Mixture Methanamide CH3NO + C4H10O2 Butane-1,4-diol (LB1491, VMSD1511).- Volumetric Properties of the Mixture Ethanenitrile C2H3N + C8H10 1,4-Dimethylbenzene (LB2649, VMSD1111).- Volumetric Properties of the Mixture Ethanenitrile C2H3N + C8H10 1,4-Dimethylbenzene (LB2647, VMSD1212).- Volumetric Properties of the Mixture Ethanenitrile C2H3N + C8H10 Ethylbenzene (LB2626, VMSD1112).- Volumetric Properties of the Mixture Ethanenitrile C2H3N + C8H10 Ethylbenzene (LB2621, VMSD1211).- Volumetric Properties of the Mixture Ethanenitrile C2H3N + C9H12 1,3,5-Trimethylbenzene (LB2651, VMSD1111).- Volumetric Properties of the Mixture Butanenitrile C4H7N + C8H10 Ethylbenzene (LB2627, VMSD1112).- Volumetric Properties of the Mixture Butanenitrile C4H7N + C8H10 Ethylbenzene (LB2622, VMSD1211).- Volumetric Properties of the Mixture Ethanenitrile C2H3N + C6H6 Benzene (LB2714, VMSD1111).- Volumetric Properties of the Mixture Ethanenitrile C2H3N + C6H6 Benzene (LB0132, VMSD1111).- Volumetric Properties of the Mixture Ethanenitrile C2H3N + C6H6 Benzene (LB2871, VMSD1111).- Volumetric Properties of the Mixture Ethanenitrile C2H3N + C6H6 Benzene (LB0135, VMSD1212).- Volumetric Properties of the Mixture Ethanenitrile C2H3N + C6H6 Benzene (LB2697, VMSD1212).- Volumetric Properties of the Mixture Ethanenitrile C2H3N + C6H6 Benzene (LB2876, VMSD1212).- Volumetric Properties of the Mixture Ethanenitrile C2H3N + C6H6 Benzene (LB2880, VMSD1511).- Volumetric Properties of the Mixture Ethanenitrile C2H3N + C6H6 Benzene (LB2877, VMSD1511).- Volumetric Properties of the Mixture Trichloromethane CHCl3 + C2H3N Ethanenitrile (LB2711, VMSD1111).- Volumetric Properties of the Mixture Trichloromethane CHCl3 + C2H3N Ethanenitrile (LB2701, VMSD1212).- Volumetric Properties of the Mixture Butanenitrile C4H7N + C6H12 Cyclohexane (LB1108, VMSD1111).- Volumetric Properties of the Mixture Butanenitrile C4H7N + C6H12 Cyclohexane (LB1103, VMSD1212).- Volumetric Properties of the Mixture Ethanenitrile C2H3N + C6H12O Cyclohexanol (LB1519, VMSD1111).- Volumetric Properties of the Mixture Ethanenitrile C2H3N + C6H12O Cyclohexanol (LB1509, VMSD1211).- Volumetric Properties of the Mixture Ethanenitrile C2H3N + C6H12O Cyclohexanol (LB1524, VMSD1412).- Volumetric Properties of the Mixture Ethanenitrile C2H3N + C6H12O Cyclohexanol (LB1514, VMSD1511).- Volumetric Properties of the Mixture Ethanenitrile C2H3N + C3H6O Propan-2-one (LB2700, VMSD1212).- Volumetric Properties of the Mixture Ethanenitrile C2H3N + C3H6O Propan-2-one (LB2712, VMSD1111).- Volumetric Properties of the Mixture Ethanenitrile C2H3N + C4H11N Diethylamine (LB0118, VMSD1112).- Volumetric Properties of the Mixture Ethanenitrile C2H3N + C4H11N Diethylamine (LB0015, VMSD1211).- Volumetric Properties of the Mixture Ethanenitrile C2H3N + C2H6OS Dimethyl sulfoxide (LB2716, VMSD1111).- Volumetric Properties of the Mixture Ethanenitrile C2H3N + C2H6OS Dimethyl sulfoxide (LB2702, VMSD1212).- Volumetric Properties of the Mixture Ethanenitrile C2H3N + C4H8O2 1,4-Dioxane (LB2713, VMSD1111).- Volumetric Properties of the Mixture Ethanenitrile C2H3N + C4H8O2 1,4-Dioxane (LB2699, VMSD1212).- Volumetric Properties of the Mixture Ethanenitrile C2H3N + C6H14O Diisopropyl ether (LB2718, VMSD1111).- Volumetric Properties of the Mixture Ethanenitrile C2H3N + C6H14O Diisopropyl ether (LB2698, VMSD1212).- Volumetric Properties of the Mixture Butanenitrile C4H7N + C4H8O Oxolane (LB1109, VMSD1111).- Volumetric Properties of the Mixture Butanenitrile C4H7N + C4H8O Oxolane (LB1104, VMSD1212).- Volumetric Properties of the Mixture Propanenitrile C3H5N + C5H12 Pentane (LB1434, VMSD1211).- Volumetric Properties of the Mixture Propanenitrile C3H5N + C6H14 Hexane (LB1435, VMSD1211).- Volumetric Properties of the Mixture Propanenitrile C3H5N + C7H16 Heptane (LB1436, VMSD1211).- Volumetric Properties of the Mixture Propanenitrile C3H5N + C8H18 Octane (LB1437, VMSD1211).- Volumetric Properties of the Mixture Butanenitrile C4H7N + C5H12 Pentane (LB1439, VMSD1211).- Volumetric Properties of the Mixture Butanenitrile C4H7N + C6H14 Hexane (LB1440, VMSD1211).- Volumetric Properties of the Mixture Butanenitrile C4H7N + C8H18 Octane (LB1438, VMSD1211).- Volumetric Properties of the Mixture Butanenitrile C4H7N + C10H22 Decane (LB1441, VMSD1211).- Volumetric Properties of the Mixture Butanenitrile C4H7N + C12H26 Dodecane (LB1488, VMSD1211).- Volumetric Properties of the Mixture Butanenitrile C4H7N + C14H30 Tetradecane (LB1442, VMSD1211).- Volumetric Properties of the Mixture Hexanenitrile C6H11N + C6H14 Hexane (LB1443, VMSD1211).- Volumetric Properties of the Mixture Ethanenitrile C2H3N + C4H10O 2-Methylpropan-1-ol (LB1518, VMSD1111).- Volumetric Properties of the Mixture Ethanenitrile C2H3N + C4H10O 2-Methylpropan-1-ol (LB1842, VMSD1211).- Volumetric Properties of the Mixture Ethanenitrile C2H3N + C4H10O 2-Methylpropan-1-ol (LB1508, VMSD1211).- Volumetric Properties of the Mixture Ethanenitrile C2H3N + C4H10O 2-Methylpropan-1-ol (LB1523, VMSD1412).- Volumetric Properties of the Mixture Ethanenitrile C2H3N + C4H10O 2-Methylpropan-1-ol (LB1513, VMSD1511).- Volumetric Properties of the Mixture Methanol CH4O + C2H3N Ethanenitrile (LB0133, VMSD1111).- Volumetric Properties of the Mixture Methanol CH4O + C2H3N Ethanenitrile (LB1835, VMSD1211).- Volumetric Properties of the Mixture Methanol CH4O + C2H3N Ethanenitrile (LB0136, VMSD1212).- Volumetric Properties of the Mixture Ethanenitrile C2H3N + C2H6O Ethanol (LB1836, VMSD1211).- Volumetric Properties of the Mixture Ethanenitrile C2H3N + C3H8O Propan-1-ol (LB1516, VMSD1111.- Volumetric Properties of the Mixture Ethanenitrile C2H3N + C3H8O Propan-1-ol (LB1505, VMSD1211).- Volumetric Properties of the Mixture Ethanenitrile C2H3N + C3H8O Propan-1-ol (LB1837, VMSD1211).- Volumetric Properties of the Mixture Ethanenitrile C2H3N + C3H8O Propan-1-ol (LB1521, VMSD1412).- Volumetric Properties of the Mixture Ethanenitrile C2H3N + C3H8O Propan-1-ol (LB1510, VMSD1511).- Volumetric Properties of the Mixture Ethanenitrile C2H3N + C4H10O Butan-1-ol (LB1517, VMSD1111).- Volumetric Properties of the Mixture Ethanenitrile C2H3N + C4H10O Butan-1-ol (LB1838, VMSD1211).- Volumetric Properties of the Mixture Ethanenitrile C2H3N + C4H10O Butan-1-ol (LB1507, VMSD1211).- Volumetric Properties of the Mixture Ethanenitrile C2H3N + C4H10O Butan-1-ol (LB1522, VMSD1412).- Volumetric Properties of the Mixture Ethanenitrile C2H3N + C4H10O Butan-1-ol (LB1512, VMSD1511).- Volumetric Properties of the Mixture Ethanenitrile C2H3N + C5H12O Pentan-1-ol (LB1839, VMSD1211).- Volumetric Properties of the Mixture Ethanenitrile C2H3N + C6H14O Hexan-1-ol (LB1840, VMSD1211).- Volumetric Properties of the Mixture Ethanenitrile C2H3N + C8H18O Octan-1-ol (LB2403, VMSD1211).- Volumetric Properties of the Mixture Butanenitrile C4H7N + C8H18O Octan-1-ol (LB2404, VMSD1211).- Volumetric Properties of the Mixture Ethanenitrile C2H3N + C3H8O Propan-2-ol (LB1515, VMSD1111).- Volumetric Properties of the Mixture Ethanenitrile C2H3N + C3H8O Propan-2-ol (LB1506, VMSD1211).- Volumetric Properties of the Mixture Ethanenitrile C2H3N + C3H8O Propan-2-ol (LB1841, VMSD1211).- Volumetric Properties of the Mixture Ethanenitrile C2H3N + C3H8O Propan-2-ol (LB1520, VMSD1412).- Volumetric Properties of the Mixture Ethanenitrile C2H3N + C3H8O Propan-2-ol (LB1511, VMSD1511).- Volumetric Properties of the Mixture Ethanenitrile C2H3N + C4H10O Butan-2-ol (LB1843, VMSD1211).- Volumetric Properties of the Mixture Ethanenitrile C2H3N + C6H15N Triethylamine (LB2715, VMSD1111).- Volumetric Properties of the Mixture Ethanenitrile C2H3N + C6H15N Triethylamine (LB2703, VMSD1212).- Volumetric Properties of the Mixture Benzene C6H6 + C24H52O4Si Tetrakis(2-ethylbutoxy)silane (LB0440, VMSD1211).- Volumetric Properties of the Mixture Cyclohexane C6H12 + C24H52O4Si Tetrakis(2-ethylbutoxy)silane (LB0439, VMSD1211).- Volumetric Properties of the Mixture Tetrachloromethane CCl4 + C24H52O4Si Tetrakis(2-ethylbutoxy)silane (LB0441, VMSD1211).- Volumetric Properties of the Mixture Toluene C7H8 + C8H10 1,2-Dimethylbenzene (LB1639, VMSD1112).- Volumetric Properties of the Mixture Toluene C7H8 + C8H10 1,2-Dimethylbenzene (LB1635, VMSD1211).- Volumetric Properties of the Mixture Toluene C7H8 + C8H10 1,3-Dimethylbenzene (LB1637, VMSD1112).- Volumetric Properties of the Mixture Toluene C7H8 + C8H10 1,3-Dimethylbenzene (LB1633, VMSD1211).- Volumetric Properties of the Mixture Toluene C7H8 + C8H10 1,4-Dimethylbenzene (LB1638, VMSD1112).- Volumetric Properties of the Mixture Toluene C7H8 + C8H10 1,4-Dimethylbenzene (LB1634, VMSD1211).- Volumetric Properties of the Mixture Toluene C7H8 + C8H10 Ethylbenzene (LB1646, VMSD1112).- Volumetric Properties of the Mixture Toluene C7H8 + C8H10 Ethylbenzene (LB1641, VMSD1211).- Volumetric Properties of the Mixture 1,2-Dimethylbenzene C8H10 + C8H10 1,3-Dimethylbenzene (LB1663, VMSD1112).- Volumetric Properties of the Mixture 1,2-Dimethylbenzene C8H10 + C8H10 1,3-Dimethylbenzene (LB1660, VMSD1211).- Volumetric Properties of the Mixture 1,2-Dimethylbenzene C8H10 + C8H10 1,4-Dimethylbenzene (LB1665, VMSD1112).- Volumetric Properties of the Mixture 1,2-Dimethylbenzene C8H10 + C8H10 1,4-Dimethylbenzene (LB1662, VMSD1211).- Volumetric Properties of the Mixture 1,2-Dimethylbenzene C8H10 + C8H10 Ethylbenzene (LB1647, VMSD1112).- Volumetric Properties of the Mixture 1,2-Dimethylbenzene C8H10 + C8H10 Ethylbenzene (LB1642, VMSD1211).- Volumetric Properties of the Mixture 1,3-Dimethylbenzene C8H10 + C8H10 1,4-Dimethylbenzene (LB1664, VMSD1112).- Volumetric Properties of the Mixture 1,3-Dimethylbenzene C8H10 + C8H10 1,4-Dimethylbenzene (LB1661, VMSD1211).- Volumetric Properties of the Mixture 1,3-Dimethylbenzene C8H10 + C8H10 Ethylbenzene (LB1649, VMSD1112).- Volumetric Properties of the Mixture 1,3-Dimethylbenzene C8H10 + C8H10 Ethylbenzene (LB1643, VMSD1211).- Volumetric Properties of the Mixture 1,4-Dimethylbenzene C8H10 + C8H10 Ethylbenzene (LB1648, VMSD1112).- Volumetric Properties of the Mixture 1,4-Dimethylbenzene C8H10 + C8H10 Ethylbenzene (LB1644, VMSD1211).- Volumetric Properties of the Mixture Benzene C6H6 + C7H8 Toluene (LB1636, VMSD1112).- Volumetric Properties of the Mixture Benzene C6H6 + C7H8 Toluene (LB1632, VMSD1211).- Volumetric Properties of the Mixture Benzene C6H6 + C8H10 1,2-Dimethylbenzene (LB1655, VMSD1112).- Volumetric Properties of the Mixture Benzene C6H6 + C8H10 1,2-Dimethylbenzene (LB1652, VMSD1211).- Volumetric Properties of the Mixture Benzene C6H6 + C8H10 1,3-Dimethylbenzene (LB1653, VMSD1112).- Volumetric Properties of the Mixture Benzene C6H6 + C8H10 1,3-Dimethylbenzene (LB1676, VMSD1141).- Volumetric Properties of the Mixture Benzene C6H6 + C8H10 1,3-Dimethylbenzene (LB1650, VMSD1211).- Volumetric Properties of the Mixture Benzene C6H6 + C8H10 1,3-Dimethylbenzene (LB2078, VMSD1442).- Volumetric Properties of the Mixture Benzene C6H6 + C8H10 1,3-Dimethylbenzene (LB1674, VMSD1541).- Volumetric Properties of the Mixture Benzene C6H6 + C8H10 1,4-Dimethylbenzene (LB1476, VMSD1111).- Volumetric Properties of the Mixture Benzene C6H6 + C8H10 1,4-Dimethylbenzene (LB1654, VMSD1112).- Volumetric Properties of the Mixture Benzene C6H6 + C8H10 1,4-Dimethylbenzene (LB1677, VMSD1141).- Volumetric Properties of the Mixture Benzene C6H6 + C8H10 1,4-Dimethylbenzene (LB1364, VMSD1211).- Volumetric Properties of the Mixture Benzene C6H6 + C8H10 1,4-Dimethylbenzene (LB1651, VMSD1211).- Volumetric Properties of the Mixture Benzene C6H6 + C8H10 1,4-Dimethylbenzene (LB1477, VMSD1212).- Volumetric Properties of the Mixture Benzene C6H6 + C8H10 1,4-Dimethylbenzene (LB2079, VMSD1541).- Volumetric Properties of the Mixture Benzene C6H6 + C8H10 1,4-Dimethylbenzene (LB1675, VMSD1541).- Volumetric Properties of the Mixture Benzene C6H6 + C8H10 Ethylbenzene (LB1482, VMSD1111).- Volumetric Properties of the Mixture Benzene C6H6 + C8H10 Ethylbenzene (LB1645, VMSD1112).- Volumetric Properties of the Mixture Benzene C6H6 + C8H10 Ethylbenzene (LB1485, VMSD1212).- Volumetric Properties of the Mixture Benzene C6H6 + C8H10 Ethylbenzene (LB1640, VMSD1211).- Volumetric Properties of the Mixture Benzene C6H6 + C9H12 Propylbenzene (LB1483, VMSD1111).- Volumetric Properties of the Mixture Benzene C6H6 + C9H12 Propylbenzene (LB1486, VMSD1212).- Volumetric Properties of the Mixture Benzene C6H6 + C10H14 Butylbenzene (LB1484, VMSD1111).- Volumetric Properties of the Mixture Benzene C6H6 + C10H14 Butylbenzene (LB1487, VMSD1212).- Volumetric Properties of the Mixture 2,3-Dimethylbutane C6H14 + C7H8 Toluene (LB1689, VMSD1111).- Volumetric Properties of the Mixture 2,3-Dimethylbutane C6H14 + C7H8 Toluene (LB1691, VMSD1212).- Volumetric Properties of the Mixture Cyclohexane C6H12 + C8H10 1,4-Dimethylbenzene (LB0692, VMSD1111).- Volumetric Properties of the Mixture Cyclohexane C6H12 + C8H10 1,4-Dimethylbenzene (LB0696, VMSD1212).- Volumetric Properties of the Mixture Hexane C6H14 + C8H10 1,4-Dimethylbenzene (LB1553, VMSD1112).- Volumetric Properties of the Mixture Hexane C6H14 + C8H10 1,4-Dimethylbenzene (LB1339, VMSD1211).- Volumetric Properties of the Mixture Hexane C6H14 + C8H10 Ethylbenzene (LB2917, VMSD1211).- Volumetric Properties of the Mixture Heptane C7H16 + C8H10 1,2-Dimethylbenzene (LB1321, VMSD1111).- Volumetric Properties of the Mixture Heptane C7H16 + C8H10 1,2-Dimethylbenzene (LB1306, VMSD1212).- Volumetric Properties of the Mixture Heptane C7H16 + C8H10 1,3-Dimethylbenzene (LB1314, VMSD1111).- Volumetric Properties of the Mixture Heptane C7H16 + C8H10 1,3-Dimethylbenzene (LB1309, VMSD1212).- Volumetric Properties of the Mixture Heptane C7H16 + C8H10 1,4-Dimethylbenzene (LB1315, VMSD1111).- Volumetric Properties of the Mixture Heptane C7H16 + C8H10 1,4-Dimethylbenzene (LB1310, VMSD1212).- Volumetric Properties of the Mixture Heptane C7H16 + C9H12 1,2,4-Trimethylbenzene (LB2529, VMSD1111).- Volumetric Properties of the Mixture Heptane C7H16 + C9H12 1,2,4-Trimethylbenzene (LB2532, VMSD1212).- Volumetric Properties of the Mixture Heptane C7H16 + C9H12 1,3,5-Trimethylbenzene (LB1316, VMSD1111).- Volumetric Properties of the Mixture Heptane C7H16 + C9H12 1,3,5-Trimethylbenzene (LB1313, VMSD1212).- Volumetric Properties of the Mixture 1,2-Dimethylbenzene C8H10 + C14H30 Tetradecane (LB1318, VMSD1111).- Volumetric Properties of the Mixture 1,2-Dimethylbenzene C8H10 + C14H30 Tetradecane (LB1307, VMSD1212).- Volumetric Properties of the Mixture 1,3-Dimethylbenzene C8H10 + C14H30 Tetradecane (LB1319, VMSD1111).- Volumetric Properties of the Mixture 1,3-Dimethylbenzene C8H10 + C14H30 Tetradecane (LB1308, VMSD1212).- Volumetric Properties of the Mixture 1,4-Dimethylbenzene C8H10 + C8H18 Octane (LB1554, VMSD1112).- Volumetric Properties of the Mixture 1,4-Dimethylbenzene C8H10 + C8H18 Octane (LB1340, VMSD1211).- Volumetric Properties of the Mixture 1,4-Dimethylbenzene C8H10 + C10H22 Decane (LB1556, VMSD1112).- Volumetric Properties of the Mixture 1,4-Dimethylbenzene C8H10 + C10H22 Decane (LB1341, VMSD1211).- Volumetric Properties of the Mixture 1,4-Dimethylbenzene C8H10 + C12H26 Dodecane (LB1557, VMSD1112).- Volumetric Properties of the Mixture 1,4-Dimethylbenzene C8H10 + C12H26 Dodecane (LB1342, VMSD1211).- Volumetric Properties of the Mixture 1,4-Dimethylbenzene C8H10 + C14H30 Tetradecane (LB1317, VMSD1111).- Volumetric Properties of the Mixture 1,4-Dimethylbenzene C8H10 + C14H30 Tetradecane (LB1558, VMSD1112).- Volumetric Properties of the Mixture 1,4-Dimethylbenzene C8H10 + C14H30 Tetradecane (LB1311, VMSD1212).- Volumetric Properties of the Mixture 1,4-Dimethylbenzene C8H10 + C14H30 Tetradecane (LB1343, VMSD1211).- Volumetric Properties of the Mixture 1,4-Dimethylbenzene C8H10 + C16H34 Hexadecane (LB1555, VMSD1112).- Volumetric Properties of the Mixture 1,4-Dimethylbenzene C8H10 + C16H34 Hexadecane (LB1344, VMSD1211).- Volumetric Properties of the Mixture Ethylbenzene C8H10 + C8H18 Octane (LB2918, VMSD1211).- Volumetric Properties of the Mixture Ethylbenzene C8H10 + C10H22 Decane (LB2919, VMSD1211).- Volumetric Properties of the Mixture Ethylbenzene C8H10 + C12H26 Dodecane (LB2920, VMSD1211).- Volumetric Properties of the Mixture Ethylbenzene C8H10 + C14H30 Tetradecane (LB2921, VMSD1211).- Volumetric Properties of the Mixture Ethylbenzene C8H10 + C16H34 Hexadecane (LB2922, VMSD1211).- Volumetric Properties of the Mixture 1,2,4-Trimethylbenzene C9H12 + C10H22 Decane (LB2530, VMSD1111).- Volumetric Properties of the Mixture 1,2,4-Trimethylbenzene C9H12 + C10H22 Decane (LB2533, VMSD1212).- Volumetric Properties of the Mixture 1,2,4-Trimethylbenzene C9H12 + C14H30 Tetradecane (LB2531, VMSD1111).- Volumetric Properties of the Mixture 1,2,4-Trimethylbenzene C9H12 + C14H30 Tetradecane (LB2534, VMSD1212).- Volumetric Properties of the Mixture 1,3,5-Trimethylbenzene C9H12 + C14H30 Tetradecane (LB1320, VMSD1111).- Volumetric Properties of the Mixture 1,3,5-Trimethylbenzene C9H12 + C14H30 Tetradecane (LB1312, VMSD1212).- Volumetric Properties of the Mixture Ethane-1,2-diamine C2H8N2 + C7H8 Toluene (LB1230, VMSD1111).- Volumetric Properties of the Mixture Ethane-1,2-diamine C2H8N2 + C7H8 Toluene (LB1225, VMSD1211).- Volumetric Properties of the Mixture Ethane-1,2-diamine C2H8N2 + C7H8 Toluene (LB1235, VMSD1412).- Volumetric Properties of the Mixture Ethane-1,2-diamine C2H8N2 + C7H8 Toluene (LB1240, VMSD1511).- Volumetric Properties of the Mixture Ethane-1,2-diamine C2H8N2 + C8H10 1,2-Dimethylbenzene (LB1231, VMSD1111).- Volumetric Properties of the Mixture Ethane-1,2-diamine C2H8N2 + C8H10 1,2-Dimethylbenzene (LB1226, VMSD1211).- Volumetric Properties of the Mixture Ethane-1,2-diamine C2H8N2 + C8H10 1,2-Dimethylbenzene (LB1236, VMSD1412).- Volumetric Properties of the Mixture Ethane-1,2-diamine C2H8N2 + C8H10 1,2-Dimethylbenzene (LB1241, VMSD1511).- Volumetric Properties of the Mixture Ethane-1,2-diamine C2H8N2 + C8H10 1,3-Dimethylbenzene (LB1232, VMSD1111).- Volumetric Properties of the Mixture Ethane-1,2-diamine C2H8N2 + C8H10 1,3-Dimethylbenzene (LB1227, VMSD1211).- Volumetric Properties of the Mixture Ethane-1,2-diamine C2H8N2 + C8H10 1,3-Dimethylbenzene (LB1237, VMSD1412).- Volumetric Properties of the Mixture Ethane-1,2-diamine C2H8N2 + C8H10 1,3-Dimethylbenzene (LB1242, VMSD1511).- Volumetric Properties of the Mixture Ethane-1,2-diamine C2H8N2 + C8H10 1,4-Dimethylbenzene (LB1233, VMSD1111).- Volumetric Properties of the Mixture Ethane-1,2-diamine C2H8N2 + C8H10 1,4-Dimethylbenzene (LB1228, VMSD1211).- Volumetric Properties of the Mixture Ethane-1,2-diamine C2H8N2 + C8H10 1,4-Dimethylbenzene (LB1238, VMSD1412).- Volumetric Properties of the Mixture Ethane-1,2-diamine C2H8N2 + C8H10 1,4-Dimethylbenzene (LB1243, VMSD1511).- Volumetric Properties of the Mixture Ethane-1,2-diamine C2H8N2 + C6H6 Benzene (LB1229, VMSD1111).- Volumetric Properties of the Mixture Ethane-1,2-diamine C2H8N2 + C6H6 Benzene (LB1224, VMSD1211).- Volumetric Properties of the Mixture Ethane-1,2-diamine C2H8N2 + C6H6 Benzene (LB1234, VMSD1412).- Volumetric Properties of the Mixture Ethane-1,2-diamine C2H8N2 + C6H6 Benzene (LB1239, VMSD1511).- Volumetric Properties of the Mixture Butane-2,3-dione C4H6O2 + C4H11N Butylamine (LB1454, VMSD1211).- Volumetric Properties of the Mixture Butylamine C4H11N + C5H8O2 Pentane-2,4-dione (LB1455, VMSD1211).- Volumetric Properties of the Mixture Butylamine C4H11N + C6H10O2 Hexane-2,5-dione (LB1456, VMSD1211).- Volumetric Properties of the Mixture Ethane-1,2-diamine C2H8N2 + C4H10O 2-Methylpropan-1-ol (LB1526, VMSD1211).- Volumetric Properties of the Mixture Ethane-1,2-diamine C2H8N2 + C5H12O 3-Methylbutan-1-ol (LB1527, VMSD1211).- Volumetric Properties of the Mixture Ethane-1,2-diamine C2H8N2 + C3H8O Propan-1-ol (LB1244, VMSD1211).- Volumetric Properties of the Mixture Ethane-1,2-diamine C2H8N2 + C4H10O Butan-1-ol (LB1245, VMSD1211).- Volumetric Properties of the Mixture Ethane-1,2-diamine C2H8N2 + C5H12O Pentan-1-ol (LB1246, VMSD1211).- Volumetric Properties of the Mixture Ethane-1,2-diamine C2H8N2 + C6H14O Hexan-1-ol (LB1247, VMSD1211).- Volumetric Properties of the Mixture Ethane-1,2-diamine C2H8N2 + C3H8O Propan-2-ol (LB1525, VMSD1211).- Volumetric Properties of the Mixture Morpholine C4H9NO + C6H6 Benzene (LB0733, VMSD1111).- Volumetric Properties of the Mixture Morpholine C4H9NO + C6H6 Benzene (LB0719, VMSD1212).- Volumetric Properties of the Mixture Trichloromethane CHCl3 + C4H9NO Morpholine (LB1727, VMSD1111).- Volumetric Properties of the Mixture Trichloromethane CHCl3 + C4H9NO Morpholine (LB0729, VMSD1212).- Volumetric Properties of the Mixture Propan-2-one C3H6O + C4H9NO Morpholine (LB1726, VMSD1111).- Volumetric Properties of the Mixture Propan-2-one C3H6O + C4H9NO Morpholine (LB0721, VMSD1212).- Volumetric Properties of the Mixture Morpholine C4H9NO + C4H10O2 2-Ethoxyethanol (LB2010, VMSD1111).- Volumetric Properties of the Mixture Morpholine C4H9NO + C4H10O2 2-Ethoxyethanol (LB2006, VMSD1212).- Volumetric Properties of the Mixture 2-Ethoxyethanol C4H10O2 + C5H11NO 4-Methylmorpholine (LB2011, VMSD1111).- Volumetric Properties of the Mixture 2-Ethoxyethanol C4H10O2 + C5H11NO 4-Methylmorpholine (LB2007, VMSD1212).- Volumetric Properties of the Mixture Methanol CH4O + C4H9NO Morpholine (LB0732, VMSD1111).- Volumetric Properties of the Mixture Methanol CH4O + C4H9NO Morpholine (LB0720, VMSD1212).- Volumetric Properties of the Mixture Benzene C6H6 + C6H7N Aniline (LB1463, VMSD1111).- Volumetric Properties of the Mixture Benzene C6H6 + C6H7N Aniline (LB1464, VMSD1212).- Volumetric Properties of the Mixture Benzene C6H6 + C6H7N Aniline (LB1529, VMSD1541).- Volumetric Properties of the Mixture Chlorobenzene C6H5Cl + C6H7N Aniline (LB1462, VMSD1111).- Volumetric Properties of the Mixture Chlorobenzene C6H5Cl + C6H7N Aniline (LB1465, VMSD1212).- Volumetric Properties of the Mixture Chlorobenzene C6H5Cl + C6H7N Aniline (LB1528, VMSD1541).- Volumetric Properties of the Mixture Pyridine C5H5N + C6H7N Aniline (LB2334, VMSD1211).- Volumetric Properties of the Mixture Aniline C6H7N + C6H7N 2-Methylpyridine (LB2333, VMSD1211).- Volumetric Properties of the Mixture Aniline C6H7N + C6H7N 4-Methylpyridine (LB2332, VMSD1211).- Volumetric Properties of the Mixture Cyclohexane C6H12 + C7H8O Methyl phenyl ether (LB1714, VMSD1111).- Volumetric Properties of the Mixture Cyclohexane C6H12 + C7H8O Methyl phenyl ether (LB0435, VMSD1111).- Volumetric Properties of the Mixture Cyclohexane C6H12 + C7H8O Methyl phenyl ether (LB0426, VMSD1211).- Volumetric Properties of the Mixture Cyclohexane C6H12 + C7H8O Methyl phenyl ether (LB0560, VMSD1212).- Volumetric Properties of the Mixture Cyclohexane C6H12 + C7H8O Methyl phenyl ether (LB1720, VMSD1412).

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Book SynopsisThis concise treatment embraces, in four parts, all the main aspects of theoretical physics. Recent topics such as holography and quantum cryptography are included. The book summarizes what a graduate student, physicist working in industry, or a physics teacher should master during his or her degree course. It will also be useful for deepening one’s insight and it adds new dimensions to understanding of these elemental concepts.Trade ReviewFrom the reviews: "A comprehensive work covering the material that graduate students in physics typically would study in preparing for doctoral candidacy examinations. … This book would be very useful for self-study by motivated students, or for preparation for candidacy exams. … Practicing physicists may find that the brief, accessible treatments of many topics will earn this book a place on a convenient bookshelf. Summing Up: Recommended. Upper-division undergraduates through professionals." (M. C. Ogilvie, CHOICE, Vol. 45 (7), 2008) "The book, written by two … ‘working physicists’, contains what the authors regard as being ‘basic knowledge’ in the standard courses of theoretical physics (yet) held at German Universities. … is primarily intended to cover the ‘Basic Theoretical Physics’ in a single and handy volume. … Hence, the book should be considered as being a kind of ‘compendium’ of … formulas used in theoretical physics where the formulas are filled in between with some remarks." (Jürgen Tolksdorf, Zentralblatt MATH, Vol. 1134 (12), 2008)Table of ContentsFrom the contents: Part I: Mechanics and Aspects of Relativity.- Space and Time.- Force and Mass.- Basic tasks of Mechanics for one-dimensional motions.-The damped and driven harmonic oscillator.- The three fundamental conservation laws.- Motion in central force fields.- The Rutherford scattering cross section.- Lagrange formalism I : The Lagrangian and the Hamiltonian.- Relativity I: Einstein's principle of the shortest proper time and Hamilton's principle of least-action momentum.- Coupled small oscillations.- Rigid bodies.- Remarks on non-integrable systems.- Lagrange formalism II: Constraints.- Accelerated reference frames.- Relativity II: E=mc².- Part II: Electrodynamics and aspects of optics.- Opening: Literature, internet, contents, purpose.- Introduction: units and (mathematical) prelimaries.- Electrostatics and magnetostatics.- Magnetic field of steady electric currents.- The general Maxwell equations I: Faraday's 'law of induction.- Maxwell's displacement current.- The general Maxwell equations II: Electromagnetic waves.- Applications of the electrodynamics in the field of optics.- Conclusion.- Part III: Quantum mechanics.- Introductory remarks.- References and internet.- On the history of quantum mechanics.- Quantum mechanics: Foundations.- One-dimensional problems.- The harmonic oscillator in the wave mechanics.- The hydrogen atom in the wave mechanics.- Abstract quantum mechanics (algebraic methods).- Spin momentum and Pauli's principle (the spin-statistics theorem).- Spin-orbit interaction.- The minimisation principle of Ritz.- Schrödinger's perturbation theory for the statics.- Time-dependent perturbations.- Magnetism as an essentially quantum-mechanical phenomenon.- Cooper pairs.- On the interpretation of quantum mechanics.- Conclusion: Repetition and summary on the history of quantum mechanics.- Looking back and looking forward.- Appendix: On cryptography and quantum cryptography.- Part IV: Thermodynamics and Statistical Physics.- Introductionand overview.- Phenomenological thermodynamics: Temperature and heat.- The fundamental theorems I and II.- Phase transitions, van der Waals theory and related problems.- Kinetic gas theory.- Statistical Physics.- From quantum statistics to the classical statistical physics.- Deepening of the fundamental theorem II.- Shannon's information entropy.- The set of canonical ensembles in the phenomenological thermodynamics.- The relation of Clausius and Clapeyron.- Generation of low and ultralow temperatures, and the fundamental theorem III.- General statistical physics (formal completion): The statistical operator and the trace formalism.- Ideal Bose and Fermi gases.- Applications I.- Applications II.- Conclusion

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Book SynopsisTwo Fundamental Laws of Nature.- Thermodynamic Functions.- Equilibrium and Stability.- Simple Phase Diagrams.- Microscopic Interactions.- Thermodynamics and Molecular Simulation.- Non-equilibrium Thermodynamics.

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Book SynopsisComputer Aided Engineering may be defined as an approach to solving tech­ nological problems in which most or all of the steps involved are automated through the use of computers, data bases and mathematical models. The success of this ap­ proach, considering hot forming, is tied very directly to an understanding of material behaviour when subjected to deformation at high temperatures. There is general agreement among engineers that not enough is known about that topic -and this gave the initial impetus for the project described in the present study. The authors secured a research grant from NATO (Special Research Grant #390/83) with a mandate to study the "State-of-the-Art of Controlled Rolling". What follows is the result of that study. There are five chapters in this Monograph. The first one, entitled "State-of-the­ Art of Controlled Rolling" discusses industrial and laboratory practices and research designed to aid in the development of microalloyed steels of superior quality. Follow­ ing this is the chapter "Methods of Determining Stress-Strain Curves at Elevated Temperatures". The central concern here is the material's resistance to deformation or in other words, its flow strength, the knowledge of which is absolutely essential for the efficient and economical utilization of the computers controlling the rolling process.Table of Contents1 State-of-the-Art of Controlled Rolling.- 2 Methods of Determining Stress-Strain Curves at Elevated Temperatures.- 3 Metallurgical Study of the Hot Upsetting of 1035 Steel.- 4 Computer-Aided Analysis and Modelling of Plastic Behaviour of Steels at Elevated Temperatures.- 5 Mapping Dynamic Material Behaviour.- Appendix Flow Curves of Microalloyed Steels.- 1. Introduction.- 2. Flow Curves of Steel #1.- 3. Flow Curves of Steel #2.- 4. References.- Author Index.

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Book SynopsisWarum kann man einen Raum nicht mit einem Kühlschrank abkühlen? Oder: Die Kunst ein Steak richtig zu braten. 50 thermofluiddynamische Alltagsphänomene werden nach folgendem Schema einheitlich behandelt: Beschreibung des Phänomens / Prinzipielle Erklärung / Weitergehende Betrachtungen. Ein ausführliches Glossar hilft beim physikalischen Verständnis der Fachbegriffe.Trade Review“... Leser allgemein verständlich an das Thema heran und gibt ihnen aufschlussreiches Wissen an die Hand. Anschließend geht der Autor zu weiterführenden Betrachtungen über, bei denen er zunehmend Formeln und Fachbegriffe verwendet. Mit diesen Passagen spricht er eher Naturwissenschaftler und Ingenieure an, die über einschlägige Vorkenntnisse verfügen. Am Ende des Buchs erklärt Herwig die verwendeten Fachwörter in einem Glossar.” (MARIA LUBS, in: Spektrum Der Wissenschaft, April 2015)“... Das Buch regt zum Hinterfragen von Vorgängen und zur Anwendung des erworbenen Wissens auf andere als in der Ausbildung häufig verwendete Beispiele an. ... kann allen, die naturwissenschaftlich und technisch interessiert sind, empfohlen werden.“ (Bernd Platzer, in: ZAMM Journal of Applied Mathematics and Mechanics, Zeitschrift für Angewandte Mathematik und Mechanik, Jg. 95, Heft 4, 2015)“... ein ausführliches Glossar ... Viele der Phänomene werden dem Leser vertraut sein – dies macht den Reiz des Buches aus. Er bekommt verständliche und doch hinreichend tiefgehende Erklärungen für bekannte Effekte und kann gleichzeitig sein Verständnis für die Fluiddynamik verbessern ...” (in: MM MaschinenMarkt, maschinenmarkt.vogel.de, 9. Februar 2015)“... Das Buch wendet sich nicht nur an Studierende technischer Fächer, sondern auch an den Interessierten Laien ...“ (in: f+h Fördern und Heben, Heft 1-2, 2015)Table of Contents​Kategorien: Haus und Garten.- Speisen und Getränke.- Reisen und Freizeit.- Energie und Umwelt.

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Book SynopsisWolfgang Osterhage stellt die für eine praktische Energiegewinnung erforderlichen Kenntnisse der Strömungsmechanik und des Elektromagnetismus vor. Er baut seine Grundlagenüberlegungen auf den beiden Hauptsätzen der Thermodynamik auf, die besagen: Es kann an Energie nichts hinzugefügt und nichts hinweg genommen werden. Und: Wir verlieren bei jeder Umwandlung nutzbare Energie. Der Autor behandelt zudem Energiebilanzen, die Konzepte von Anergie und Exergie sowie die Rolle der Entropie in physikalischen Prozessen.Table of ContentsWas steht uns seit dem Urknall an Gesamtenergie und Masse zur Verfügung?.- 1. und 2. Hauptsatz der Thermodynamik.- Strömungsmechanik und Elektromagnetismus.

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Book SynopsisMichael Temmler zeigt, dass eine steuergerätetaugliche Verbrennungsoptimierung funktioniert. Dabei dienen physikalische Modellansätze zur Abbildung des Motorverhaltens. Die Kombination aus Verbrennungs-, Emissions- und Ladungswechselmodellen sowie nichtlinearen Optimierungsverfahren ermöglicht eine Individualisierung der Motorsteuerung am jeweiligen Verbrennungsmotor während seiner Laufzeit. Eine neue Steuergerätearchitektur unterstützt ein Ersetzen der zentralen Motorsteuerung durch ein System dezentraler gekapselter Einheiten, in denen die Verbrennungsoptimierung enthalten ist.Table of Contents​Einleitung.- Stand der Technik.- Theoretische Grundlagen.- Entwicklungssysteme, Messdatenerfassung und -auswertung.- Motormanagement der verteilten Systeme.- Modellbasierte Beschreibung des Arbeitsprozesses.- Steuerger¨ atetaugliche Optimierung.- Schlussfolgerungen und Ausblick.

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Book SynopsisDieses Fachbuch gibt eine kompakte Übersicht über regenerative Systeme zur Wärme- und Kälteerzeugung. Einbindungs- und Automatisierungsschemata ermöglichen einen schnellen Überblick. Es werden die Grundlagen zum Regelverhalten von Systemen zur regenerativen Energienutzung dargestellt. Praxisbeispiele zeigen anschaulich Standardlösungen zur Einbindung von regenerativen Energiequellen.Table of ContentsEinführung in die Nutzung erneuerbarer Energiequellen.- Grundlagen der Nutzung regenerativer Energiequellen in Gebäuden.- Energiebereitstellung aus regenerativen Energiequellen.- Speichersysteme.- Automation von Systemen zur Wärme- und Kältebereitstellung aus regenerativen Energiequellen.- Funktionsüberwachung und Ertragskontrolle.- Automationsgeräte und deren Anbindung an die Gebäudeautomation.

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Book SynopsisHannes Hopp erläutert die Notwendigkeit zur Kühlung von Lithium-Ionen-Batterien im Fahrzeug und stellt eine simulative Methode zur Prognose von Batterietemperaturen und der Wechselwirkung mit dem Kühlsystem im Fahrzeugverbund vor. Im Simulationsverbund bildet das Batteriemodell die zentrale Komponente. Aufbauend auf bestehenden Modellierungsansätzen untersucht der Autor die Abwärmecharakteristik der Batterie aus Einzelzellmessungen und überführt sie in ein modulares Simulationsmodell. Die Ergebnisse seiner Studie unterstreichen die Notwendigkeit zur engen Verzahnung von simulativen und experimentellen Werkzeugen in der Fahrzeugentwicklung. Die gekoppelte Simulation stellt eine zielführende Methode zur Bewertung der thermischen und elektrischen Interaktion in einem elektrifizierten Fahrzeug dar.Table of ContentsStand der Technik und Grundlagen von Lithium-Ionen-Batterien.- Simulationsmodelle – Aufbau und Funktion.- Experimentelle Untersuchungen und Validierung.- Thermisches Systemverhalten unter Reichweitenaspekten und im Rennstreckenbetrieb.

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Book SynopsisDieses essential erklärt die Physik der Wärmeübertragung mit den wesentlichen physikalischen Prozessen, der Wärmeleitung und der Wärmestrahlung. Es wird ein grundlegendes Verständnis für die verschiedenen Formen der Energieübertragung in Form von Wärme vermittelt. Die Beispiele dazu stammen weitgehend aus alltäglichen Situationen, wobei unterschiedliche Aspekte kritisch und vertiefend diskutiert werden.Table of ContentsEinleitung: Notwendige Klarstellungen.- Die zwei grundsätzlichen Arten der Wärmeübertragung.- Leitungsbasierte Wärmeübertragung.- Strahlungsbasierte Wärmeübertragung.- Anmerkungen zur Wärmeübertragung als Wissenschaftsdisziplin.

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Book SynopsisDavid Klemm untersucht das transiente thermische Verhalten einer Fahrzeugkabine. Relevante lokale Parameter modelliert der Autor mit dem Ansatz eines linearen, zeitinvarianten Systems und charakterisiert drei Lastfälle durch dreidimensionale transiente CFD-Simulationen. Mit diesen Parametern entwickelt er auf Basis eindimensionaler Übertragungsprozesse ein reduziertes Simulationsmodell und validiert es anhand dreidimensionaler CFD-Simulationen. Dieses Modell benötigt eine um den Faktor 105 reduzierte Rechenzeit im Bereich von Echtzeit.Der Autor:David Klemm hat mehrjährige Industrieerfahrung im Bereich der Strömungssimulation und der Auslegung von elektronischen Steuergeräten. Nach der Forschungstätigkeit am Institut für Verbrennungsmotoren und Kraftfahrwesen (IVK) der Universität Stuttgart beschäftigt er sich nun mit der Simulation in der Systementwicklung von Nutzfahrzeugen.Table of ContentsGrundlagen linearer zeitinvarianter Systeme (LTI), eindimensionaler Wärmeübertragung und Numerik finiter Differenzen.- Modellierung relevanter Größen des thermischen Verhaltens einer Fahrzeugkabine als LTI-System.- Modellbeschreibung des reduzierten transienten thermischen Simulationsmodells einer Fahrzeugkabine.- Validierung des reduzierten Simulationsmodells anhand dreidimensionaler CFD-Simulationen für die Lastfälle „Soak“, „Heatup“ und „Cooldown“.

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Book SynopsisHow does chance enter our world? And why is so much not predictable?In an understandable, exciting and amusing narrative, the author takes us into the world of chemistry, quantum physics and biology. Touching on astronomy and philosophy, we witness a rewarding journey of discovery. In the process, he develops a completely new view of chance based on the laws of nature. Here, the omnipresent non-equilibrium plays an extremely decisive role, because it generates the complex structures in our world. Finally, on this basis, he presents an equally simple and captivating hypothesis on the nature of time.This non-fiction book provides a deep insight into the fascination of research, the agonizing search for fundamental understanding, and the struggle for scientific knowledge.Table of ContentsChance takes its course.- Chance is everywhere.- Creativity is chance in the brain.- "Balance is good, non-balance is bad" - is it true?- Almost despairing of science.- The birth of chance in complex systems.- What is there when time flows, and where does it flow to?- Our perception of time.

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Book SynopsisBasierend auf langjährige experimentelle Erfahrungen werden elementare physikalische Ansätze verwendet. Damit lassen sich die Zusammenhänge der Pkw-Klimatisierung transparent darstellen. Beschrieben werden typische Betriebsarten eines Pkw im Winter und Sommer. Hierzu ist auch ein Kapitel der Klimaphysiologie gewidmet. Ausführliche Beispiele dienen zur Vertiefung der gelesenen Kapitel. Mathematisch aufwändige Berechnungen und Tabellen sind im Anhang zusammengestellt.Zu den besonderen Themen gehören z.B.:· Luft- und Wärmeströme· Sonneneinstrahlung· Wärmeübertrager· Prüfstände· Energieersparnis· Elektrisch betriebene Pkw Eine Zusammenstellung wichtiger Normen und Richtlinien erleichtert deren SucheTable of ContentsGrundlagen.- Klimaphysiologie.- Luftstrom durch den Fahrgastraum.- Wärmestrom durch den Fahrgastraum.- Winterbetrieb.- Sommerbetrieb.- Stofftransport.- Wärmeübertrager.- Kältemittelkreislauf.- Komforterhöhung und Energieersparnis.- Prüfstände.- Straßenversuche.- Elektrisch betriebene Pkw.- Anhang.- Sachverzeichnis.

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Book SynopsisEntropy and upheaval Energy and life Economic growthPost-growth economicsCountries in transitionStationary or space. 

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Book SynopsisDie Erforschung komplexer Strukturen ist gegenwärtig eines der interessantesten wissenschaftlichen Themen. Dieses Buch behandelt Möglichkeiten der Beschreibung und quantitativen Charakterisierung komplexer Strukturen mit Hilfe verschiedener Entropie- und Informationsmaße. Nach einer allgemein verständlichen Einführung der Grundbegriffe werden die für eine quantitative Analyse erforderlichen Konzepte ausführlich behandelt und an zahlreichen Beispielen, wie Zeitreihen, Biosequenzen, literarischen Texten und Musikstücken, veranschaulicht.Table of ContentsKomplexität und Entropie - Selbstorganisation und Information - Informationstheoretische Maße - Dynamisch generierte Strukturen - Entropie und Komplexität natürlicher Sequenzen - Quantitative Ästhetik

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Book SynopsisThis textbook is the result of many years of teaching quantum and statistical mechanics, drawing on exercises and exam papers used on courses taught by the authors. The subjects of the exercises have been carefully selected to cover all the material which is most needed by students. Each exercise is carefully solved in full details, explaining the theory behind the solution with particular care for those issues that students often find difficult, or which are often neglected in other books on the subject. The exercises in this book never require extensive calculations but tend to be somewhat unusual and force the solver to think about the problem starting from first principles, rather than by analogy with some previously solved exercise.Table of ContentsIntroduction to Quantum Mechanics.- Problems on Quantum Mechanics.- Problems on Statistical Mechanics.

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Book SynopsisThe book is aimed at undergraduate students in their senior year and first year graduate students. It elucidates the basis of thermodynamics and provides a basis for the understanding of, not only the thermodynamic properties of a microscopic system, but also their fluctuations, correlations and close-to-equilibrium properties.

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Book SynopsisThis book highlights a comprehensive and detailed introduction to the fundamental principles related to nuclear engineering. As one of the most popular choices of future energy, nuclear energy is of increasing demand globally. Due to the complexity of nuclear engineering, its research and development as well as safe operation of its facility requires a wide scope of knowledge, ranging from basic disciplines such as mathematics, physics, chemistry, and thermodynamics to applied subjects such as reactor theory and radiation protection. The book covers all necessary knowledge in an illustrative and readable style, with a sufficient amount of examples and exercises. It is an easy-to-read textbook for graduate students in nuclear engineering and a valuable handbook for nuclear facility operators, maintenance personnel and technical staff.Table of ContentsChapter 1 Fundamentals of mathematics and physics Chapter 2 Thermodynamics Chapter 3 Heat transferChapter 4 Fluid flowChapter 5 Electrical ScienceChapter 6 Instrumentation & controlChapter 7 Chemistry and chemical engineeringChapter 8 Material ScienceChapter 9 Mechanical Science Chapter 10 Nuclear physics Chapter 11 Reactor theory Chapter 12 Radiation protection

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Book SynopsisThis latest edition enhances the material of the first edition with a derivation of the value of the action for each of the Harrington-Shepard calorons/anticalorons that are relevant for the emergence of the thermal ground state. Also included are discussions of the caloron center versus its periphery, the role of the thermal ground state in U(1) wave propagation, photonic particle-wave duality, and calculational intricacies and book-keeping related to one-loop scattering of massless modes in the deconfining phase of an SU(2) Yang-Mills theory. Moreover, a derivation of the temperature-redshift relation of the CMB in deconfining SU(2) Yang-Mills thermodynamics and its application to explaining an apparent early re-ionization of the Universe are given. Finally, a mechanism of mass generation for cosmic neutrinos is proposed.

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Book SynopsisThis textbook introduces thermodynamics with a modern approach, starting from four fundamental physical facts (the atomic nature of matter, the indistinguishability of atoms and molecules of the same species, the uncertainty principle, and the existence of equilibrium states) and analyzing the behavior of complex systems with the tools of information theory, in particular with Shannon's measure of information (or SMI), which can be defined on any probability distribution. SMI is defined and its properties and time evolution are illustrated, and it is shown that the entropy is a particular type of SMI, i.e. the SMI related to the phase-space distribution for a macroscopic system at equilibrium. The connection to SMI allows the reader to understand what entropy is and why isolated systems follow the Second Law of Thermodynamics. The Second Llaw is also formulated for other systems, not thermally isolated and even open with respect to the transfer of particles. All the fundamental aspects of thermodynamics are derived and illustrated with several examples in the first part of the book. The second part addresses important applications of thermodynamics, covering phase transitions, mixtures and solutions (including the Kirkwood-Buff approach and solvation thermodynamics), chemical equilibrium, and the outstanding properties of water.This textbook is unique in two aspects. First, thermodynamics is introduced with a novel approach, based on information theory applied to macroscopic systems at equilibrium. It is shown that entropy is a particular case of Shannon's measure of information (SMI), and the properties and time evolution of the SMI are used to explain the Second Law of Thermodynamics. This represents a real breakthrough, as classical thermodynamics cannot explain entropy, nor clarify why systems should obey the Second Law. Second, this textbook offers the reader the possibility to get in touch with important and advanced applications of thermodynamics, to address the topics discussed in the second part of the book. Although they may go beyond the content of a typical introductory course on thermodynamics, some of them can be important in the curriculum chosen by the student. At the same time, they are of appealing interest to more advanced scholars.Table of ContentsFundamentals: Introduction and Overview; The Historical Development of Thermodynamics; Elements of Probability Theory; Shannon's Measure of Information; Three Theorems on Shannon's Measure of Information; The Entropy Function of a Classical Ideal Gas; Thermodynamics of Ideal Gas; The Fundamental Principles of Thermodynamics; Applications: The Phase Rule and Phase Diagrams; Mixtures and Solutions; Chemical Equilibrium; Water and Aqueous Solutions; Appendices: Solutions to Exercises; Mathematics;

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Book SynopsisWritten by a former Olympiad student, Wang Jinhui, and a Physics Olympiad national trainer, Bernard Ricardo, Competitive Physics delves into the art of solving challenging physics puzzles. This book not only expounds a multitude of physics topics from the basics but also illustrates how these theories can be applied to problems, often in an elegant fashion. With worked examples that depict various problem-solving sleights of hand and interesting exercises to enhance the mastery of such techniques, readers will hopefully be able to develop their own insights and be better prepared for physics competitions. Ultimately, problem-solving is a craft that requires much intuition. Yet this intuition, perhaps, can only be honed by trudging through an arduous but fulfilling journey of enigmas.This is the second part of a two-volume series and will mainly analyze thermodynamics, electromagnetism and special relativity. A brief overview of geometrical optics is also included.

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Book SynopsisSpace–time transformations as a design tool for a new class of composite materials (metamaterials) have proved successful recently. The concept is based on the fact that metamaterials can mimic a transformed but empty space. Light rays follow trajectories according to Fermat’s principle in this transformed electromagnetic, acoustic, or elastic space instead of laboratory space. This allows one to manipulate wave behaviors with various exotic characteristics such as (but not limited to) invisibility cloaks. This book is a collection of works by leading international experts in the fields of electromagnetics, plasmonics, elastodynamics, and diffusion waves. The experimental and theoretical contributions will revolutionize ways to control the propagation of sound, light, and other waves in macroscopic and microscopic scales. The potential applications range from underwater camouflaging and electromagnetic invisibility to enhanced biosensors and protection from harmful physical waves (e.g., tsunamis and earthquakes). This is the first book that deals with transformation physics for all kinds of waves in one volume, covering the newest results from emerging topical subjects such as transformational plasmonics and thermodynamics.Table of ContentsPart 1: Non-Classical, Non-Linear Transport. Properties of quantum transport. Non-equilibrium transport. Resonant tunneling. Longitudinal transport of superlattices. Mesoscopic transport. Transport in quantum dots. Silicon single electron transistor. Silicon single electron memory. Part 2: Quantum Waveguide Theory. Properties of quantum transport. One-dimensional quantum waveguide theory. Two-dimensional quantum waveguide theory. One-dimensional quantum waveguide theory of Rashba electron. One-dimensional quantum waveguide theory of Rashba electrons in curved circuits. Spin polarization of Rashba electron with mixed state. Two-dimensional quantum waveguide theory of Rashba electrons.

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