Add to ORKGWe complete a metric-free axiomatic framework for electrodynamics by introducing the appropriate energy-momentum current Sigma of the electromagnetic field. We start from the Lorentz force density and motivate the form of Sigma. Then we postulate it (fourth axiom) and discuss its properties. In particular, it is found that Sigma is traceless and invariant under an electric-magnetic reciprocity transformation. By using the Maxwell-Lorentz spacetime relation (fifth axiom), Sigma is also shown to be symmetric, that is, it has 9 independent component
Maxwell’s Classical Electrodynamics (MCED) suffers several inconsistencies: (1) the Lorentz force la...
Maxwell’s Classical Electrodynamics (MCED) suffers several inconsistencies: (1) the Lorentz force la...
In the framework of metric-free electrodynamics, we start with a {\em linear} spacetime relation bet...
We complete a metric-free axiomatic framework for electrodynamics by introducing the appropriate ene...
The Maxwell equations are formulated on an arbitrary (1+3)-dimensional manifold. Then, imposing a (c...
The classical theory of electrodynamics is built upon Maxwell's equations and the concepts of electr...
The force law of Maxwell’s classical electrodynamics does not agree with Newton’s third la...
The force law of Maxwell’s classical electrodynamics does not agree with Newton’s third la...
http://www3.interscience.wiley.com/cgi-bin/fulltext/121382704/PDFSTARTIn December 1907, Minkowski ex...
The force law of Maxwell’s classical electrodynamics does not agree with Newton’s third la...
The force law of Maxwell’s classical electrodynamics does not agree with Newton’s third la...
The force law of Maxwell’s classical electrodynamics does not agree with Newton’s third la...
We extend an axiomatic approach to classical electrodynamics, which we developed recently, to the ca...
On the basis of a non-local Lagrangian for Maxwell equations in a dispersive medium, the energy-mome...
Maxwell’s Classical Electrodynamics (MCED) suffers several inconsistencies: (1) the Lorentz force la...
Maxwell’s Classical Electrodynamics (MCED) suffers several inconsistencies: (1) the Lorentz force la...
Maxwell’s Classical Electrodynamics (MCED) suffers several inconsistencies: (1) the Lorentz force la...
In the framework of metric-free electrodynamics, we start with a {\em linear} spacetime relation bet...
We complete a metric-free axiomatic framework for electrodynamics by introducing the appropriate ene...
The Maxwell equations are formulated on an arbitrary (1+3)-dimensional manifold. Then, imposing a (c...
The classical theory of electrodynamics is built upon Maxwell's equations and the concepts of electr...
The force law of Maxwell’s classical electrodynamics does not agree with Newton’s third la...
The force law of Maxwell’s classical electrodynamics does not agree with Newton’s third la...
http://www3.interscience.wiley.com/cgi-bin/fulltext/121382704/PDFSTARTIn December 1907, Minkowski ex...
The force law of Maxwell’s classical electrodynamics does not agree with Newton’s third la...
The force law of Maxwell’s classical electrodynamics does not agree with Newton’s third la...
The force law of Maxwell’s classical electrodynamics does not agree with Newton’s third la...
We extend an axiomatic approach to classical electrodynamics, which we developed recently, to the ca...
On the basis of a non-local Lagrangian for Maxwell equations in a dispersive medium, the energy-mome...
Maxwell’s Classical Electrodynamics (MCED) suffers several inconsistencies: (1) the Lorentz force la...
Maxwell’s Classical Electrodynamics (MCED) suffers several inconsistencies: (1) the Lorentz force la...
Maxwell’s Classical Electrodynamics (MCED) suffers several inconsistencies: (1) the Lorentz force la...
In the framework of metric-free electrodynamics, we start with a {\em linear} spacetime relation bet...