La Posta, Corrado
August 15, 2017
Relativity, Galileian transformations, MMX, Electrodynamics, ether, TEST
The Theory of Relativity, conceived in 1905 by A. Einstein and now universally applied, involves some theoretical problems as well as some difficulties in the interpretation of experimental facts. Theoretical issues have long been debated but have not found a sufficiently good explanation, indeed many interpretations appear forceful and prejudicial. The many paradoxes expressed and debated and never clarified are still unresolved. The consequences of adopting a radical point of view, such as the relativistic one, also appear in the Quantum Field Theory, where the Lorentz-covariance formulation of the theory results, with careful analysis, the cause of many of the problems.
The experimental point of view, contrary to what is commonly stated, does not undoubtedly support the theory; actually several results appear of difficult interpretation and others even in sharp contrast to the theory itself.
The analysis of these inconsistencies leads to the assumption that the theory is spoiled by its foundations, that is the postulates, from defective origins that can not be eliminated.
An alternative hypothesis, based on different premises, is therefore elaborated in this paper to reach a number of conclusions. The theory thus developed is devoid of paradoxical aspects, adhering to experimental facts and free of divergence problems; superluminary motions are especially possible. Electrodynamic equations are extended into a new invariant form, compatible with Newtonian mechanics.