eThermodynamics is a set of simulated experiments on the computer to bring about a variety of collective properties of a very large number of interacting particles. The solution of the dynamical equations governing the system of particles is determined at different instances of time. The time averages of the desired properties are accordingly determined. The effective statistical size of the system is then equals to the number of interacting particles times the number of sampling occasions. one finds after long enough time that the overall sampling procedure reproduces very well the properties of a macroscopic thermodynamical system.
eThermodynamics brings about in particular that the energy distribution among the interacting species is governed by a parameter that has the full characteristics of the ideal gas temperature. This enables us to find a variety of thermodynamical properties by solving the dynamical equations for reasonably large number of interacting particles. Typical examples are given here.
eThermodynamics enables as well the study of a number of kinetic theory problems very effectively. It also gives models and explanations to some exotic effects that cannot be achieved otherwise. The applicability of the approach is indeed very far-reaching and wide.