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Assessment of the relativistic rotational transformations

Edward T. Kipreos, Riju S. Balachandran

2021Modern Physics Letters A25 citationsDOIOpen Access PDF

Abstract

Rotational transformations describe relativistic effects in rotating frames. There are four major kinematic rotational transformations: the Langevin metric; Post transformation; Franklin transformation; and the rotational form of the absolute Lorentz transformation. The four transformations exhibit different combinations of relativistic effects and simultaneity frameworks, and generate different predictions for relativistic phenomena. Here, the predictions of the four rotational transformations are compared with recent optical data that has sufficient resolution to distinguish the transformations. We show that the rotational absolute Lorentz transformation matches diverse relativistic optical and non-optical rotational data. These include experimental observations of length contraction, directional time dilation, anisotropic one-way speed of light, isotropic two-way speed of light, and the conventional Sagnac effect. In contrast, the other three transformations do not match the full range of rotating-frame relativistic observations.

Topics & Concepts

PhysicsLorentz transformationTime dilationLength contractionRelativistic speedSagnac effectRelativistic quantum chemistryClassical mechanicsSpecial relativityOne-way speed of lightRotation (mathematics)Rotation around a fixed axisLorentz factorTransformation (genetics)IsotropyRelativistic beamingReference frameRelativistic particleTheory of relativityOpticsQuantum mechanicsGeometryFrame (networking)InterferometryElectronActive galactic nucleusChemistryFour-forceBiochemistryGeneTest theories of special relativityGalaxyTelecommunicationsComputer scienceMathematicsGeophysics and Sensor TechnologyRelativity and Gravitational TheoryHistory and Developments in Astronomy
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