This book tells about thermal processes in nanolarge scale systems. The author analyses classical and modern ideas of nano objects thermophysics. He describes mechanisms of heat transfer in various nanostructures, heat conductivity calculation methods, including nanowires, nanotubes, nanocomposites and nanoliquids.
The textbook is one of the most unabridged modern educational titles on materials science. It presents fundamental data on the structure, physical and chemical properties, phase transformations and physical processes of a wide range of materials, including nanostructured, as well as their structure and properties research methods.
The manual is devoted to the methods of solving problems on general physics section “Electromagnetism”. Most of the considered problems has been taken from the book “Problems in General Physics” by I. E. Irodov.
The book contains an expanded presentation of the course "Fundamentals of Plasma Physics". Special attention is given to the motion of particles in an electromagnetic field and the plasma kinetics, including the theory of Coulomb collisions, braking and recombination radiation, as well as a number of other elementary processes.
The manual is intended for the training specialists in the area of nanomaterials and nanotechnology. The book describes the main trends of quantum mechanics formalism, including operator algebra, matrix mechanics, and Dirac parenthesis unit.
The training manual, written by scientists of Southern Federal University staff, provides a brief history of nanotechnology and 14 original design works, illustrating the major concepts of nanotechnology.
The research of nonlinear phenomena in multicomponent heterogeneous systems, which exist in amorphous, nano- and microcrystalline states, helps to ascertain the physical nature of many phenomena occurring in them and improve existing theoretical propositions.