Add to ORKGThe interpretation of the velocity parameter in Maxwell's equations and the Lorentz Force law is examined. It is shown that the predicted trajectories of electrons in an electromagnetic field depend on the state of motion of the observer. This ambiguity can be removed by assuming that the origin of the field is the unique reference system for determining the electron velocity in these equations. The same convention is recommended for the definition of the momentum of particles in general. Accordingly, it is assumed that observers will only disagree on the results of measurements because they employ different systems of physical units in their respective rest frames. This situation needs to be recognized in applying Galileo's Relativity ...
The theory of special relativity can be generalized by means of a new principle called Conservation ...
Arguments of astronomers against equation of motion for arbitrarily shaped particle under action of ...
This paper is part II of a trilogy on the transition from classical particle mechanics to relativist...
The Special Theory of Relativity had been established nearly one century ago to conciliate some seem...
Newton and Maxwell We have seen that simple magnetic forces are incompatible with Newtonian mechanic...
AbstractRelativistic transformations and their application to electrodynamics of a weakly accelerate...
Our goal is to present a derivation of Lorentz’s transformations from gedanken experiments with elec...
Maxwell’s Field Equations (MFE’s) for the propagation of electromagnetic waves were found to be inva...
ABSTRACT. The Theory of General Relativity correctly describes physical phenomena, when observed/mea...
In this paper, we will explain and prove in detail Einstein's postulate with respect to the invarian...
We use the method of field decomposition, a technique widely used in relativistic magnetohydrodynami...
In classical mechanics, the Galilean covariance and the principle of relativity are completely equiv...
The foundation of this research is a set of fundamental postulates from which electromagnetic theori...
It is well recognized that two of the foundational theories of modern physics, relativity and quantu...
In his book, Physical Relativity, Harvey Brown challenges the orthodox view that special relativity ...
The theory of special relativity can be generalized by means of a new principle called Conservation ...
Arguments of astronomers against equation of motion for arbitrarily shaped particle under action of ...
This paper is part II of a trilogy on the transition from classical particle mechanics to relativist...
The Special Theory of Relativity had been established nearly one century ago to conciliate some seem...
Newton and Maxwell We have seen that simple magnetic forces are incompatible with Newtonian mechanic...
AbstractRelativistic transformations and their application to electrodynamics of a weakly accelerate...
Our goal is to present a derivation of Lorentz’s transformations from gedanken experiments with elec...
Maxwell’s Field Equations (MFE’s) for the propagation of electromagnetic waves were found to be inva...
ABSTRACT. The Theory of General Relativity correctly describes physical phenomena, when observed/mea...
In this paper, we will explain and prove in detail Einstein's postulate with respect to the invarian...
We use the method of field decomposition, a technique widely used in relativistic magnetohydrodynami...
In classical mechanics, the Galilean covariance and the principle of relativity are completely equiv...
The foundation of this research is a set of fundamental postulates from which electromagnetic theori...
It is well recognized that two of the foundational theories of modern physics, relativity and quantu...
In his book, Physical Relativity, Harvey Brown challenges the orthodox view that special relativity ...
The theory of special relativity can be generalized by means of a new principle called Conservation ...
Arguments of astronomers against equation of motion for arbitrarily shaped particle under action of ...
This paper is part II of a trilogy on the transition from classical particle mechanics to relativist...