A Concise Course On The Theory Of Classical Liquids
by AndrA©s Santos /
2013 / English / PDF
14.3 MB Download
Authors: Santos, Andrs
Concise and self-contained introduction to the subject matter
Emphasis on applications to hard-sphere fluids and related models
Careful discussion of pro and cons of various approximate theories
This short primer offers non-specialist readers a concise, yet comprehensive introduction to the field of classical fluids providing both fundamental information and a number of selected topics to bridge the gap between the basics and ongoing research.
In particular, hard-sphere systems represent a favorite playground in statistical mechanics, both in and out of equilibrium, as they represent the simplest models of many-body systems of interacting particles, and at higher temperature and densities they have proven to be very useful as reference systems for real fluids. Moreover, their usefulness in the realm of soft condensed matter has become increasingly recognized for instance, the effective interaction among (sterically stabilized) colloidal particles can be tuned to almost perfectly match the hard-sphere model.
These lecture notes present a brief, self-contained overview of equilibrium statistical mechanics of classical fluids, with special applications to both the structural and thermodynamic properties of systems made of particles interacting via the hard-sphere potential or closely related model potentials. In particular it addresses the exact statistical-mechanical properties of one-dimensional systems, the issue of thermodynamic (in)consistency among different routes in the context of several approximate theories, and the construction of analytical or semi-analytical approximations for the structural properties.
Written pedagogically at the graduate level, with many figures, tables, photographs, and guided end-of-chapter exercises, this introductory text benefits students and newcomers to the field alike.
Number of Illustrations and Tables
30 b/w illustrations, 94 illustrations in colour
Topics
Soft and Granular Matter, Complex Fluids and Microfluidics
Statistical Physics, Dynamical Systems and Complexity
Physical Chemistry
Thermodynamics
Fluid- and Aerodynamics