Add to ORKGMaxwell and constitutive equations are covariant under 4-dimensional Lorentz transformation and non-objective under 3-dimensional Galilei transforma-tion, but observer-invariant in both cases. The electromagnetic fields are observer-dependent, except for the charge density which is an observer-inde-pendent scalar in the non-relativistic case. Galilei transformation properties in electrodynamics verify, that there exist theories of observer-invariant basic equations including observer-dependent, non-objective quantities
4 pagesWe demonstrate for the first time and unexpectedly that the Principle of Relativity dictates ...
The four fundamental laws of classical electrodynamics are given in generally covariant form using t...
The aim of this paper is to illustrate four properties of the non-relativistic limits of relativisti...
In this paper we are interested in 3- and 4-formulations of MAxwell equations, and we give some defi...
The Faraday-Ampère laws of electro-magnetic induction are formu-lated in terms of even and odd diff...
It is universally accepted that Maxwell equations do not remain invariant under the Galilean transfo...
It is common in the literature on classical electrodynamics and relativity theory that the transform...
The purpose of the paper is to explore different aspects of the covariance of (mostly) non-relativis...
The purpose of the paper is to explore different aspects of the covariance of (mostly) non-relativis...
In a unied eld theory classical and quantum electrodynamics must be gen-erally covariant, and not Lo...
The purpose of the paper is to explore different aspects of the covariance of (mostly) non-relativis...
It is common in the literature on classical electrodynamics and relativity theory that the transform...
The aim of this paper is to illustrate four properties of the non-relativistic limits of relativisti...
High-level monograph focuses on an explicit treatment of the principle of general covariance as appl...
Abstract Special relativity is based on the apparent contradiction between two pos-tulates, namely, ...
4 pagesWe demonstrate for the first time and unexpectedly that the Principle of Relativity dictates ...
The four fundamental laws of classical electrodynamics are given in generally covariant form using t...
The aim of this paper is to illustrate four properties of the non-relativistic limits of relativisti...
In this paper we are interested in 3- and 4-formulations of MAxwell equations, and we give some defi...
The Faraday-Ampère laws of electro-magnetic induction are formu-lated in terms of even and odd diff...
It is universally accepted that Maxwell equations do not remain invariant under the Galilean transfo...
It is common in the literature on classical electrodynamics and relativity theory that the transform...
The purpose of the paper is to explore different aspects of the covariance of (mostly) non-relativis...
The purpose of the paper is to explore different aspects of the covariance of (mostly) non-relativis...
In a unied eld theory classical and quantum electrodynamics must be gen-erally covariant, and not Lo...
The purpose of the paper is to explore different aspects of the covariance of (mostly) non-relativis...
It is common in the literature on classical electrodynamics and relativity theory that the transform...
The aim of this paper is to illustrate four properties of the non-relativistic limits of relativisti...
High-level monograph focuses on an explicit treatment of the principle of general covariance as appl...
Abstract Special relativity is based on the apparent contradiction between two pos-tulates, namely, ...
4 pagesWe demonstrate for the first time and unexpectedly that the Principle of Relativity dictates ...
The four fundamental laws of classical electrodynamics are given in generally covariant form using t...
The aim of this paper is to illustrate four properties of the non-relativistic limits of relativisti...