Add to ORKGWe considered the electromagnetic field of a charge moving with a constant acceleration along an axis. We found that this field obtained from the Liénard-Wiechert potentials does not satisfy Maxwell equations if one considers exclusively a retarded interaction (i.e. pure implicit dependence this field on time). We show that if and only if one takes into account both retarded interaction and direct interaction (so called "action-at-a-distance") the field produced by an accelerated charge satisfies Maxwell equations
The theory of electrodynamics of radiating charges is reviewed with special emphasis on the role of ...
Maxwell-like field relations which describe spatially-averaged kinematic behaviour of electrons and ...
There are known problems of Lorentz-Dirac equation for moving with acceleration charged particle in ...
In this paper it is proved that, contrary to the results found by A.E. Chubykalo and S.J. Vlaev (Int...
We consider the electromagnetic field of a charge moving with a constant acceleration along an axis...
The Maxwell field equations relative to a uniformly accelerated frame, and the variational principle...
An accelerated classical point charge radiates at the Larmor power rate $2e^2a^2/3$, leading to the ...
Calculating the electromagnetic fields of a uniformly accelerated charged particle is a surprisingly...
The appearance of the time derivative of the acceleration in the equation of motion (EOM) of an elec...
The non-linear relation between electric polarization and electric field strength is achieved throug...
The time evolution of a charged point particle is governed by a second-order integro-differential eq...
Abstract In the article is proven that the Lorentz force is the consequence of the dependence of the...
In this brief note we discuss some ambiguities in the description of the process of radiation of an ...
The expressions for the electromagnetic potentials (ϕ,A) of a uniformly accelerated charge have been...
In this paper we express the retarded fields of Maxwell's theory in terms of the instantaneous field...
The theory of electrodynamics of radiating charges is reviewed with special emphasis on the role of ...
Maxwell-like field relations which describe spatially-averaged kinematic behaviour of electrons and ...
There are known problems of Lorentz-Dirac equation for moving with acceleration charged particle in ...
In this paper it is proved that, contrary to the results found by A.E. Chubykalo and S.J. Vlaev (Int...
We consider the electromagnetic field of a charge moving with a constant acceleration along an axis...
The Maxwell field equations relative to a uniformly accelerated frame, and the variational principle...
An accelerated classical point charge radiates at the Larmor power rate $2e^2a^2/3$, leading to the ...
Calculating the electromagnetic fields of a uniformly accelerated charged particle is a surprisingly...
The appearance of the time derivative of the acceleration in the equation of motion (EOM) of an elec...
The non-linear relation between electric polarization and electric field strength is achieved throug...
The time evolution of a charged point particle is governed by a second-order integro-differential eq...
Abstract In the article is proven that the Lorentz force is the consequence of the dependence of the...
In this brief note we discuss some ambiguities in the description of the process of radiation of an ...
The expressions for the electromagnetic potentials (ϕ,A) of a uniformly accelerated charge have been...
In this paper we express the retarded fields of Maxwell's theory in terms of the instantaneous field...
The theory of electrodynamics of radiating charges is reviewed with special emphasis on the role of ...
Maxwell-like field relations which describe spatially-averaged kinematic behaviour of electrons and ...
There are known problems of Lorentz-Dirac equation for moving with acceleration charged particle in ...