New PDF release: Analytic functions and distributions in physics and

By Bernard W. Roos

ISBN-10: 0471733342

ISBN-13: 9780471733348

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In 1820 Oersted demonstrated the deflection of a compass needle near a current carrying wire. Ampere found a mathematical function for the induced force between two current-carrying wires of similar form to Coulomb’s electrostatic law. In 1831 Faraday discovered EM rotations and EM induction indicating an intimate connection between E and H fields. He saw that charge measurement depended on the electrical state of the observer. To Faraday the electrical state, the charge of a particle, was not a fluid, as then thought, but depended on magnetic forces.

This leads to the possibility of time travel via “wormholes” through the fabric of space-time joining two remote locations of gravitational intensity black holes existing near the centres of galaxies. With regard to relativity, the bi-spinors of SFT apply equally to the photon as to the EM field. Thus SFT sees relativity with its time and distance dilations as a physically straightforward outcome resulting from the internal motions of the photon. In SFT there is no twin paradox per se. The dilation is an effect that causes light to change spin and radial mode and is internal to the photon due to the energy density in a region impinging on the photon.

With regard to relativity, the bi-spinors of SFT apply equally to the photon as to the EM field. Thus SFT sees relativity with its time and distance dilations as a physically straightforward outcome resulting from the internal motions of the photon. In SFT there is no twin paradox per se. The dilation is an effect that causes light to change spin and radial mode and is internal to the photon due to the energy density in a region impinging on the photon. In terms of time, absolute time does not change from point to point in the universe, but relative time due to the rotation of the photon does vary.

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Analytic functions and distributions in physics and engineering by Bernard W. Roos


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