On the Non-constancy of Speed of Light in Vacuum for Different Galilean Reference Systems

“…The most radical possibility would be of course that, in the general case, there is no equilibrium and also that Minkowski's electrodynamics is inadequate for description in the lab frame of the electrodynamics of accelerated systems, such as our simple uniformly rotating sphere. (This radical alternative would perhaps require a revision of fundamental concepts (cf, e.g., [37,38]). ) It should be noted, however, that outside the 'problematic' range of values of the sphere's net charge Q our solution to the problem appears plausible.…”

Electromagnetostatic Charges and Fields in a Rotating Conducting Sphere

“…The most radical possibility would be of course that, in the general case, there is no equilibrium and also that Minkowski's electrodynamics is inadequate for description in the lab frame of the electrodynamics of accelerated systems, such as our simple uniformly rotating sphere. (This radical alternative would perhaps require a revision of fundamental concepts (cf, e.g., [37,38]). ) It should be noted, however, that outside the 'problematic' range of values of the sphere's net charge Q our solution to the problem appears plausible.…”

Electromagnetostatic Charges and Fields in a Rotating Conducting Sphere

Correction for the non-constancy of the speed of light in vacuum for different Galilean reference systems

Homogeneous Bianisotropic Medium, Dissipation and the Non-constancy of Speed of Light in Vacuum for Different Galilean Reference Systems