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Thermodynamic equilibrium. --- Equilibrium, Thermal --- Equilibrium, Thermodynamic --- Equilibrium thermodynamics --- Thermal equilibrium --- Chemical equilibrium --- Thermodynamics
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Multiphase flow --- Thermodynamic equilibrium. --- Mathematical models. --- Equilibrium, Thermal --- Equilibrium, Thermodynamic --- Equilibrium thermodynamics --- Thermal equilibrium --- Chemical equilibrium --- Thermodynamics
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Thermodynamic equilibrium --- Equilibre thermodynamique --- 536.7 --- Thermodynamics. Energetics --- Thermodynamic equilibrium. --- Chemisch evenwicht --- Thermodynamica --- Thermodynamisch evenwicht --- Chemisch evenwicht. --- Thermodynamica. --- Thermodynamisch evenwicht. --- 536.7 Thermodynamics. Energetics --- Equilibrium, Thermal --- Equilibrium, Thermodynamic --- Equilibrium thermodynamics --- Thermal equilibrium --- Chemical equilibrium --- Thermodynamics
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Petrology --- Thermodynamics --- Pétrographie --- Thermodynamique --- Thermodynamic equilibrium --- 550.4 --- Chemistry, Physical and theoretical --- Dynamics --- Mechanics --- Physics --- Heat --- Heat-engines --- Quantum theory --- Lithology --- Petrography --- Physical geology --- Rocks --- Geochemistry --- Petrology. --- Thermodynamic equilibrium. --- 550.4 Geochemistry --- Pétrographie --- Equilibrium, Thermal --- Equilibrium, Thermodynamic --- Equilibrium thermodynamics --- Thermal equilibrium --- Chemical equilibrium
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Epitaxy is a very active area of theoretical research since several years. It is experimentally well-explored and technologically relevant for thin film growth. Recently powerful numerical techniques in combination with a deep understanding of the physical and chemical phenomena during the growth process offer the possibility to link atomistic effects at the surface to the macroscopic morphology of the film. The goal of this book is to summarize recent developments in this field, with emphasis on multiscale approaches and numerical methods. It covers atomistic, step-flow, and continuum models and provides a compact overview of these approaches. It also serves as an introduction into this highly active interdisciplinary field of research for applied mathematicians, theoretical physicists and computational materials scientists.
Boundary value problems. --- Epitaxy --- Heat --- Thermodynamic equilibrium --- Mathematical models. --- Transmission. --- Mathematics. --- Statistical methods. --- Equilibrium, Thermal --- Equilibrium, Thermodynamic --- Equilibrium thermodynamics --- Thermal equilibrium --- Chemical equilibrium --- Thermodynamics --- Heat transfer --- Thermal transfer --- Transmission of heat --- Energy transfer --- Epitaxial growth --- Crystal growth --- Boundary conditions (Differential equations) --- Differential equations --- Functions of complex variables --- Mathematical physics --- Initial value problems --- Numerical analysis. --- Differential equations, partial. --- Numerical Analysis. --- Partial Differential Equations. --- Applications of Mathematics. --- Math --- Science --- Partial differential equations --- Mathematical analysis --- Partial differential equations. --- Applied mathematics. --- Engineering mathematics. --- Engineering --- Engineering analysis --- Mathematics
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Discusses mathematical models that are based on the concepts of classical equilibrium thermodynamics. These are intended for the analysis of possible results of diverse natural and production processes. These allow readers to view the achievable set of partial equilibria with regards to constraints on kinetics, energy and mass exchange.
Thermodynamic equilibrium. --- Statistical thermodynamics. --- Quantum theory --- Statistical mechanics --- Statistical physics --- Thermodynamics --- Equilibrium, Thermal --- Equilibrium, Thermodynamic --- Equilibrium thermodynamics --- Thermal equilibrium --- Chemical equilibrium --- Mathematical physics. --- Statistical physics. --- Classical and Continuum Physics. --- Complex Systems. --- Mathematical Methods in Physics. --- Statistical Physics and Dynamical Systems. --- Physics --- Mathematical statistics --- Physical mathematics --- Statistical methods --- Mathematics --- Continuum physics. --- Dynamical systems. --- Physics. --- Natural philosophy --- Philosophy, Natural --- Physical sciences --- Dynamics --- Dynamical systems --- Kinetics --- Mechanics, Analytic --- Force and energy --- Mechanics --- Statics --- Classical field theory --- Continuum physics --- Continuum mechanics
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Mathematical physics --- Thermodynamic equilibrium. --- Phase rule and equilibrium. --- Mathematical physics. --- Nuclear spin --- Long range order (Solid state physics) --- Equilibre thermodynamique --- Loi des phases et équilibre --- Physique mathématique --- Spin --- Ordre à grande distance (Physique) --- Mathematical models --- Modèles mathématiques --- Mathematical models. --- 51 <082.1> --- Mathematics--Series --- Nuclear spin. --- Loi des phases et équilibre --- Physique mathématique --- Ordre à grande distance (Physique) --- Modèles mathématiques --- Phase rule and equilibrium --- Thermodynamic equilibrium --- Equilibrium, Thermal --- Equilibrium, Thermodynamic --- Equilibrium thermodynamics --- Thermal equilibrium --- Chemical equilibrium --- Thermodynamics --- Chemistry, Physical and theoretical --- Critical phenomena (Physics) --- Equilibrium --- Chemical systems --- Critical point --- Spin, Nuclear --- Angular momentum (Nuclear physics) --- Nuclear physics --- Physical mathematics --- Physics --- Lattice dynamics --- Order-disorder models --- Solid state physics --- Mathematics
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This book is a wide-ranging survey of the physics of out-of-equilibrium systems of correlated electrons, ranging from the theoretical, to the numerical, computational and experimental aspects. It starts from basic approaches to non-equilibrium physics, such as the mean-field approach, then proceeds to more advanced methods, such as dynamical mean-field theory and master equation approaches. Lastly, it offers a comprehensive overview of the latest advances in experimental investigations of complex quantum materials by means of ultrafast spectroscopy. .
Physics. --- Quantum physics. --- Phase transformations (Statistical physics). --- Condensed materials. --- Condensed matter. --- Superconductivity. --- Superconductors. --- Optical materials. --- Electronic materials. --- Strongly Correlated Systems, Superconductivity. --- Quantum Physics. --- Quantum Gases and Condensates. --- Optical and Electronic Materials. --- Electronic materials --- Optics --- Materials --- Superconducting materials --- Superconductive devices --- Cryoelectronics --- Electronics --- Solid state electronics --- Electric conductivity --- Critical currents --- Superfluidity --- Condensed materials --- Condensed media --- Condensed phase --- Materials, Condensed --- Media, Condensed --- Phase, Condensed --- Liquids --- Matter --- Solids --- Phase changes (Statistical physics) --- Phase transitions (Statistical physics) --- Phase rule and equilibrium --- Statistical physics --- Quantum dynamics --- Quantum mechanics --- Quantum physics --- Physics --- Mechanics --- Thermodynamics --- Natural philosophy --- Philosophy, Natural --- Physical sciences --- Dynamics --- Thermodynamic equilibrium. --- Equilibrium, Thermal --- Equilibrium, Thermodynamic --- Equilibrium thermodynamics --- Thermal equilibrium --- Chemical equilibrium --- Quantum theory.
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This textbook provides an exposition of equilibrium thermodynamics and its applications to several areas of physics with particular attention to phase transitions and critical phenomena. The applications include several areas of condensed matter physics and include also a chapter on thermochemistry. Phase transitions and critical phenomena are treated according to the modern development of the field, based on the ideas of universality and on the Widom scaling theory. For each topic, a mean-field or Landau theory is presented to describe qualitatively the phase transitions. These theories include the van der Waals theory of the liquid-vapor transition, the Hildebrand-Heitler theory of regular mixtures, the Griffiths-Landau theory for multicritical points in multicomponent systems, the Bragg-Williams theory of order-disorder in alloys, the Weiss theory of ferromagnetism, the Néel theory of antiferromagnetism, the Devonshire theory for ferroelectrics and Landau-de Gennes theory of liquid crystals. This textbook is intended for students in physics and chemistry and provides a unique combination of thorough theoretical explanation and presentation of applications in both areas. Chapter summaries, highlighted essentials and problems with solutions enable a self sustained approach and deepen the knowledge.
Physics --- Physical Sciences & Mathematics --- Thermodynamics --- Physics. --- Physical chemistry. --- Thermodynamics. --- Amorphous substances. --- Complex fluids. --- Phase transitions (Statistical physics). --- Statistical physics. --- Dynamical systems. --- Phase Transitions and Multiphase Systems. --- Physical Chemistry. --- Statistical Physics, Dynamical Systems and Complexity. --- Soft and Granular Matter, Complex Fluids and Microfluidics. --- Thermodynamic equilibrium. --- Equilibrium, Thermal --- Equilibrium, Thermodynamic --- Equilibrium thermodynamics --- Thermal equilibrium --- Chemical equilibrium --- Chemistry, Physical organic. --- Complex Systems. --- Statistical Physics and Dynamical Systems. --- Mathematical statistics --- Chemistry, Physical organic --- Chemistry, Organic --- Chemistry, Physical and theoretical --- Dynamics --- Mechanics --- Heat --- Heat-engines --- Quantum theory --- Statistical methods --- Complex liquids --- Fluids, Complex --- Amorphous substances --- Liquids --- Soft condensed matter --- Dynamical systems --- Kinetics --- Mathematics --- Mechanics, Analytic --- Force and energy --- Statics --- Chemistry, Theoretical --- Physical chemistry --- Theoretical chemistry --- Chemistry --- Phase changes (Statistical physics) --- Phase transitions (Statistical physics) --- Phase rule and equilibrium --- Statistical physics
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This course-derived undergraduate textbook provides a concise explanation of the key concepts and calculations of chemical thermodynamics. Instead of the usual ‘classical’ introduction, this text adopts a straightforward postulatory approach that introduces thermodynamic potentials such as entropy and energy more directly and transparently. Structured around several features to assist students’ understanding, Chemical Thermodynamics : - Develops applications and methods for the ready treatment of equilibria on a sound quantitative basis. - Requires minimal background in calculus to understand the text and presents formal derivations to the student in a detailed but understandable way. - Offers end-of-chapter problems (and answers) for self-testing and review and reinforcement, of use for self- or group study. This book is suitable as essential reading for courses in a bachelor and master chemistry program and is also valuable as a reference or textbook for students of physics, biochemistry and materials science.
Chemistry, Physical and theoretical. --- Thermodynamic equilibrium. --- Thermodynamics. --- Thermodynamics --- Thermodynamic equilibrium --- Chemistry --- Physical Sciences & Mathematics --- Physical & Theoretical Chemistry --- Equilibrium, Thermal --- Equilibrium, Thermodynamic --- Equilibrium thermodynamics --- Thermal equilibrium --- Chemistry. --- Physical chemistry. --- Chemical engineering. --- Biochemistry. --- Heat engineering. --- Heat transfer. --- Mass transfer. --- Materials science. --- Physical Chemistry. --- Engineering Thermodynamics, Heat and Mass Transfer. --- Industrial Chemistry/Chemical Engineering. --- Materials Science, general. --- Biochemistry, general. --- Chemistry, Physical organic. --- Engineering. --- Materials. --- Engineering --- Engineering materials --- Industrial materials --- Engineering design --- Manufacturing processes --- Construction --- Industrial arts --- Technology --- Chemistry, Physical organic --- Chemistry, Organic --- Chemistry, Physical and theoretical --- Chemistry, Industrial --- Engineering, Chemical --- Industrial chemistry --- Chemistry, Technical --- Metallurgy --- Dynamics --- Mechanics --- Physics --- Heat --- Heat-engines --- Quantum theory --- Biological chemistry --- Chemical composition of organisms --- Organisms --- Physiological chemistry --- Biology --- Medical sciences --- Materials --- Composition --- Material science --- Physical sciences --- Mass transport (Physics) --- Transport theory --- Heat transfer --- Thermal transfer --- Transmission of heat --- Energy transfer --- Mechanical engineering --- Chemistry, Theoretical --- Physical chemistry --- Theoretical chemistry
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