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Volumen 11, Ausgabe 1 (2020)

Forschungsartikel

Are We Wrong about the Michelson Morley Experiment?

Hans Deyssenroth

The answer could be yes, because of a small detail that has been overlooked for decades and that was not known in 1905. Applying the Quantum Theory to the Michelson Morley experiment (MME), one can recognize that there are no skewed light paths in the y-arm, perpendicular to the moving x-direction. The MME must be interpreted differently. Therefore, the calculation of the time durations that photons take from the laser to the detector must be changed with the outcome that the null result can only be achieved if there is no length contraction. The time dilation, measured in many experiments, must have another cause. This could be regarded as just another incompatibility between the Special Theory of Relativity and the Quantum Theory, but in this case it goes deeper. A time dilation without a length contraction would have great impacts to the Theories of Relativity, though there are overwhelming confirmations by complex experiments, because the physical basis to the mathematical space-time modelling by the Lorentz transformation would be wrong. Several experiments with the newest technology are proposed to test this alternative view on this fundamental experiment.

Rezension

Number Functions Arising out of Number Linear Symmetry or Number Circular Asymmetry on a Number Line that Proves the Existence of the Exact Nature of Non-Trivial Zeros in A Riemann Zeta Function

Siddaiah Ramananda

Different types of Numbers which might be Odd, Even, Prime and Zero which includes all Types of Numbers in the Elementary Number Theory have a Different Geometrical Representation on the Number Line which makes them belong to Symmetric or Asymmetric Groups which might be Divisible or Indivisible to give the Final Derivation that gives the Solution and Proof for the Basic Riemann Zeta Equation where the Value of Non Trivial Zeros is determined by ½ + xi where x is the Real Number and i is the Imaginary Number Component.

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