Title
Stochastic Ordinary And Stochastic Partial Differential Equations: Transition From Microscopic To Macroscopic Equations (Stochas,New
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The present volume analyzes mathematical models of timedependent physical p nomena on three levels: microscopic, mesoscopic, and macroscopic. We provide a rigorous derivation of each level from the preceding level and the resulting me scopic equations are analyzed in detail. Following Haken (1983, Sect. 1. 11. 6) we deal, at the microscopic level, with individual atoms or molecules, described by their positions, velocities, and mutual interactions. At the mesoscopic level, we describe the liquid by means of ensembles of many atoms or molecules. The tension of such an ensemble is assumed large compared to interatomic distances but small compared to the evolving macroscopic pattern. . . . At the macroscopic level we wish to study the corresponding spatial patterns. Typically, at the mac scopic level, the systems under consideration are treated as spatially continuous systems such as ?uids or a continuous distribution of some chemical reactants, etc. Incontrast,onthemicroscopiclevel,Newtonianmechanicsgovernstheequationsof 1 motion of the individual atoms or molecules. These equations are cast in the form 2 of systems of deterministic coupled nonlinear oscillators. The mesoscopic level is probabilistic in nature and many models may be faithfully described by stochastic 3 ordinary and stochastic partial differential equations (SODEs and SPDEs), where the latter are de?ned on a continuum. The macroscopic level is described by ti dependent partial differential equations (PDEs) and its generalization and simpl cations. In our mathematical framework we talk of particles instead of atoms and mo cules. The transition from the microscopic description to a mesoscopic (i. e.
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