Results 241 to 250 of about 217,475 (280)

Classical Motion of an Extended Charged Particle

Physical Review, 1966
Classical equation of motion of extended monopole charged particle without preacceleration or runaway ...
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Motion of Charged Particles in Electromagnetic Fields

1968
In this chapter we shall consider the motion of a charged particle in various types of electromagnetic field. We shall assume that the force which acts on the particle is the Lorentz force $$F = q[E + (v \times B)]$$ (7.1) in our usual notation. We shall also assume that the fields E and B are given, and thus we ignore for the moment the very
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On the motion of a charged particle

Journal of Nuclear Energy. Part C, Plasma Physics, Accelerators, Thermonuclear Research, 1961
The motion of a charged particle, including the effect of its self field is treated in the frame of classical mechanics by the Liouville method, developed recently by the author and his co-workers mainly for statistical mechanical problems. The author summarizes the results which he and Leaf has obtained in this way for the following cases: free ...
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Motion of Charged Particles in an Inhomogeneous Magnetic Field

The Physics of Fluids, 1962
By means of a crossed electric field, charged particles can be forced to move from a region where the magnetic field is comparatively weak into a region where the magnetic field is much stronger, which leads to an increase in the density and the temperature of the plasma.
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Stochastic motion of charged particles in a magnetic field

Physical Review E, 1993
The collisional diffusion process is discussed in a model in which the motion of charged particles in a magnetic field is treated as a stochastic process similar to that of Brownian particles. Collisional diffusion coefficients are obtained, which are similar to those calculated through classical collisional theory.
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Motion of Charged Particles in a Line

2015
Let us consider a fixed electrical charge \(Q_1\) placed at the origin of the real line and a point particle with charge \(Q_2\) moving on \({\mathbb R}^+\) and subjected to an external \(T\)-periodic excitation \(h(t)\). The main objective of this chapter is to unveil the main dynamical aspects of this model.
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Review of Charged Particle Motion

2021
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THE MOTION OF CHARGED PARTICLES

1973
B.H. CHIRGWIN, C. PLUMPTON, C.W. KILMISTER   +2 more
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Effective decarbonization of coal-series kaolin by triboelectric separation based on different motion behaviors of charged particles in electrostatic field

Chemical Engineering and Processing: Process Intensification, 2023
Bin Yang
exaly  

Charged particle motion and radiation in strong electromagnetic fields

Reviews of Modern Physics, 2022
Tom Blackburn
exaly