By J. R. Solana
"This ebook, Perturbation Theories for the Thermodynamic houses of Fluids and Solids, presents a complete evaluate of present perturbation theorie--as good as critical equation theories and density practical theorie--for the equilibrium thermodynamic and structural homes of classical platforms. Emphasizing functional functions, the textual content avoids complicated theoretical derivations up to attainable. It starts with discussions of the character of intermolecular forces and straightforward capability types. The ebook additionally offers a precis of statistical mechanics options and formulae. furthermore, it studies simulation ideas, delivering historical past for the functionality analyses of theories finished through the textual content utilizing simulation data.Chapters describe indispensable equation theories, theoretical techniques for hard-sphere fluid or good structures, and perturbation theories for easy fluids and solids for monocomponent and multicomponent platforms. in addition they conceal density useful theories for inhomogeneous structures and perturbative and nonperturbative methods to explain the constitution and thermodynamics of hard-body molecular fluids. the ultimate bankruptcy examines numerous more difficult platforms, equivalent to fluids close to the severe aspect, liquid metals, molten salts, colloids, and aqueous protein solutions.This booklet bargains an intensive account of the on hand equilibrium theories for the thermodynamic and structural houses of fluids and solids, with detailed concentrate on perturbation theories, emphasizing their functions, strengths, and weaknesses. applicable for skilled researchers in addition to postgraduate scholars, the textual content offers a wide-ranging but targeted view and offers an invaluable consultant to the applying of the theories described"-- Read more...
content material: creation Aggregation States of subject Nature of the Intermolecular Forces basic power versions a few fundamentals on Statistical Mechanics Virial Theorem and the Equation of country Distribution capabilities Thermodynamic houses when it comes to the Radial Distribution functionality Static constitution issue evaluation of desktop Simulation tools laptop Simulations Monte Carlo strategy Molecular Dynamics process a few Technical information Thermodynamic and Structural homes from laptop Simulation computing device Simulation of section Equilibria essential Equation Theories Ornstein-Zernike Equation Closure stipulations Universality of the Bridge functionality essential Equation Perturbation Theories a few effects from imperative Equation Theories for chosen power types The Radial Distribution functionality and Equation of nation of the Hard-Sphere Fluid and reliable Fluid and sturdy stages within the Hard-Sphere approach Scaled Particle concept answer of the Percus-Yevick Equation Rational functionality Approximation First-Order suggest round Approximation Equation of country and Radial Distribution functionality of the Hard-Sphere good unfastened strength Perturbation Theories for easy Fluids and Solids sequence growth of the unfastened power Calculation of the Perturbation phrases by means of laptop Simulation Perturbation Theories for Hard-Core Potentials Perturbation Theories for Soft-Core Potentials Mode enlargement Hierarchical Reference idea utilizing Non-Hard-Sphere Reference procedure effects for a few capability versions Perturbation Theories for easy Fluid combinations actual and excellent combos Conformal combos n-Fluid versions for Conformal combos Extension to combinations of Perturbation Theories for Monocomponent platforms combinations of Additive tough Spheres combos of nonadditive difficult Spheres different uncomplicated combos Perturbation Theories for Molecular Fluids Extension of the unfastened power Perturbation idea to Fluids with Anisotropic Interactions Scaled-Particle-Like techniques for Hard-Body Molecular Fluids Percus-Yevick concept for Hard-Sphere Chain Fluids Generalized Flory Theories for Hard-Sphere Chain Fluids Wertheim's Perturbation concept for Hard-Sphere Chain Fluids Extensions to Linear Fused Hard-Sphere Chains Perturbation Theories for Molecular Fluids with Dispersive Forces Non-Isotropic stages Inhomogeneous structures basics of the Density useful Formalism a few Density useful Approximations basic degree idea uncomplicated Fluids and Solids Surfaces and Interfaces Inhomogeneous structures with Anisotropic Interactions review to Perturbation Theories for extra complicated structures Fluids close to the serious aspect Liquid Metals, Molten Salts, and Electrolyte options Colloids and Colloid-Polymer combos Aqueous Protein suggestions Index
summary: "This e-book, Perturbation Theories for the Thermodynamic homes of Fluids and Solids, offers a finished assessment of present perturbation theorie--as good as vital equation theories and density useful theorie--for the equilibrium thermodynamic and structural homes of classical structures. Emphasizing sensible purposes, the textual content avoids complicated theoretical derivations up to attainable. It starts with discussions of the character of intermolecular forces and straightforward power versions. The booklet additionally provides a precis of statistical mechanics strategies and formulae. additionally, it experiences simulation ideas, delivering heritage for the functionality analyses of theories achieved through the textual content utilizing simulation data.Chapters describe necessary equation theories, theoretical ways for hard-sphere fluid or stable structures, and perturbation theories for easy fluids and solids for monocomponent and multicomponent platforms. in addition they hide density sensible theories for inhomogeneous structures and perturbative and nonperturbative ways to explain the constitution and thermodynamics of hard-body molecular fluids. the ultimate bankruptcy examines numerous tougher platforms, reminiscent of fluids close to the severe element, liquid metals, molten salts, colloids, and aqueous protein solutions.This ebook bargains an intensive account of the on hand equilibrium theories for the thermodynamic and structural homes of fluids and solids, with exact concentrate on perturbation theories, emphasizing their purposes, strengths, and weaknesses. applicable for knowledgeable researchers in addition to postgraduate scholars, the textual content offers a wide-ranging but specified view and offers an invaluable consultant to the applying of the theories defined"