Add to ORKGIn this paper we express the retarded fields of Maxwell's theory in terms of the instantaneous fields of a Galilei-invariant electromagnetic and we find the vector function whose spatial and temporal derivatives transform the instantaneous fields into the retarded ones. We conclude that the instantaneous fields can formally be introduced as unphysical objects into classical electrodynamics which can be used to find the physical retarded fields
The non-linear relation between electric polarization and electric field strength is achieved throug...
We discuss the seminal article in which Le Bellac and L\'{e}vy-Leblond have identified two Galilean ...
We considered the electromagnetic field of a charge moving with a constant acceleration along an axi...
In this paper we express the retarded fields of Maxwell's theory in terms of the instantaneous field...
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...
We show that in the Maxwell–Lorentz theory of classical electrodynamics most initial values for fiel...
In an exact quantum-mechanical framework we show that space-time expectation values of the second-qu...
An axiomatic approach to electrodynamics reveals that Maxwell electrodynamics is just one instance o...
The force law of Maxwell’s classical electrodynamics does not agree with Newton’s third la...
In classical electrodynamics, electromagnetic effects are calculated from solution of wave equation ...
The integral representation of the electromagnetic two-form, defined on Minkowski space-time, is stu...
We investigate the coupling of the electromagnetic sources (charge and current densities) to the sca...
Lo scopo di questa tesi è quello di analizzare e calcolare il campo elettromagnetico prodotto da una...
Maxwell’s Classical Electrodynamics (MCED) suffers several inconsistencies: (1) the Lorentz force la...
The non-linear relation between electric polarization and electric field strength is achieved throug...
We discuss the seminal article in which Le Bellac and L\'{e}vy-Leblond have identified two Galilean ...
We considered the electromagnetic field of a charge moving with a constant acceleration along an axi...
In this paper we express the retarded fields of Maxwell's theory in terms of the instantaneous field...
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...
We show that in the Maxwell–Lorentz theory of classical electrodynamics most initial values for fiel...
In an exact quantum-mechanical framework we show that space-time expectation values of the second-qu...
An axiomatic approach to electrodynamics reveals that Maxwell electrodynamics is just one instance o...
The force law of Maxwell’s classical electrodynamics does not agree with Newton’s third la...
In classical electrodynamics, electromagnetic effects are calculated from solution of wave equation ...
The integral representation of the electromagnetic two-form, defined on Minkowski space-time, is stu...
We investigate the coupling of the electromagnetic sources (charge and current densities) to the sca...
Lo scopo di questa tesi è quello di analizzare e calcolare il campo elettromagnetico prodotto da una...
Maxwell’s Classical Electrodynamics (MCED) suffers several inconsistencies: (1) the Lorentz force la...
The non-linear relation between electric polarization and electric field strength is achieved throug...
We discuss the seminal article in which Le Bellac and L\'{e}vy-Leblond have identified two Galilean ...
We considered the electromagnetic field of a charge moving with a constant acceleration along an axi...