Wave particle-interactions
... The determination of transport coefficients is one of the most important aspects of microscopic plasma theory. The moments like density, flow speed, temperature are of macroscopic nature, and their gradients induce corresponding flows in the plasma related with diffusion, viscosity, or heat conducti ...
... The determination of transport coefficients is one of the most important aspects of microscopic plasma theory. The moments like density, flow speed, temperature are of macroscopic nature, and their gradients induce corresponding flows in the plasma related with diffusion, viscosity, or heat conducti ...
Field Solvers
... Commercial Simulator for Detailed Device Modeling • A lot of very powerful device level tools. • Commercial tools that handle meshing, solution and analysis ...
... Commercial Simulator for Detailed Device Modeling • A lot of very powerful device level tools. • Commercial tools that handle meshing, solution and analysis ...
optical processes in solids - Assets
... confirmation of the interference effect. However, they were not yet aware of an entity that could oscillate and propagate in a vacuum, unlike the case of a sound wave which they knew to be a compressional wave of air. The answer came from an apparently different area: later in that century, Maxwell ...
... confirmation of the interference effect. However, they were not yet aware of an entity that could oscillate and propagate in a vacuum, unlike the case of a sound wave which they knew to be a compressional wave of air. The answer came from an apparently different area: later in that century, Maxwell ...
this PDF file - Canadian Center of Science and Education
... a priori only to gravitation. This is the reason why, in my opinion, the title of his famous paper: ”The foundation of the general theory of relativity”, do not comport the word ‘gravitation’. Therefore, one can suppose that these equations are more general than defining only the gravitational field ...
... a priori only to gravitation. This is the reason why, in my opinion, the title of his famous paper: ”The foundation of the general theory of relativity”, do not comport the word ‘gravitation’. Therefore, one can suppose that these equations are more general than defining only the gravitational field ...
Atomic physics researchers need to return Bohr`s orbit
... However, since (1) in accordance with the traditional understanding of the necessary and sufficient conditions for the electromagnetic radiation, do uniform circular motion of the charge is bound to radiate electromagnetic waves, Bohr's hydrogen atom is still unstable; (2) According to Bohr's theory ...
... However, since (1) in accordance with the traditional understanding of the necessary and sufficient conditions for the electromagnetic radiation, do uniform circular motion of the charge is bound to radiate electromagnetic waves, Bohr's hydrogen atom is still unstable; (2) According to Bohr's theory ...
Additional Problems for the Final Exam with Partial Solutions
... 5. (a) Write equation for the secondary ion signal intensity from element m in a SIMS experiment. (b) Identify and explain the importance of each parameter. (c) Describe and explain the variation of the Al+ signal as a function of depth, as a depth profile analysis is performed through an aluminum o ...
... 5. (a) Write equation for the secondary ion signal intensity from element m in a SIMS experiment. (b) Identify and explain the importance of each parameter. (c) Describe and explain the variation of the Al+ signal as a function of depth, as a depth profile analysis is performed through an aluminum o ...
History of physics
Physics (from the Ancient Greek φύσις physis meaning ""nature"") is the fundamental branch of science that developed out of the study of nature and philosophy known, until around the end of the 19th century, as ""natural philosophy"". Today, physics is ultimately defined as the study of matter, energy and the relationships between them. Physics is, in some senses, the oldest and most basic pure science; its discoveries find applications throughout the natural sciences, since matter and energy are the basic constituents of the natural world. The other sciences are generally more limited in their scope and may be considered branches that have split off from physics to become sciences in their own right. Physics today may be divided loosely into classical physics and modern physics.