Titlebook: Computational Multiscale Modeling of Fluids and Solids; Theory and Applicati Martin Oliver Steinhauser Book 20081st edition Springer-Verlag

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Fundamentals of Numerical Simulationntly in terms of differential equations. Deriving and solving differential equations are thus common tasks when modeling material systems. Hence, this chapter first provides an overview of differential equations and then several numerical solution techniques — frequently used in materials science —

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Computational Methods on Atomistic/Microscopic Scale atoms or molecules without taking into account the electronic structure of the constituents. For many materials, fluids and gases this is an excellent approximation.. When studying the properties of many particle systems, one has to be aware that most properties that are measured in real experiment

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Computational Methods on Mesoscopic/Macroscopic Scaleale and to provide some applications from recent research projects. We first introduce statistical methods used on this length scale and then discuss in various sections different particle methods commonly used on the mesoscopic/macroscopic scale. Finally, in Sect. 7.7, the fundamentals of continuum

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Perspectives in Multiscale Materials Modelinge theory, requires the bridging of models and simulation techniques across the huge range of length and associated time scales separating the atomic from the macroscopic world. One of the first breakthrough examples of multiscale modeling of materials was the linking of quantum and classical MD meth

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Cryogenic Current Comparator Metrologyand time scales and the implementation of efficient algorithms on computers to solve the various differential equations arising from these physical theories. In doing so we focus on the fluid and solid states of matter, albeit the numerical methods are usually neither restricted to any particular ph

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Superconducting Quantum Electronicsordinates in classical mechanics, Hilbert space for problems in quantum theory, Sobolev space (a special class of Hilbert spaces) when solving partial differential equations in fluid or solid mechanics, Γ-space in thermodynamics, non-Euclidean curved space-time in the theory of general relativity, M

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