Roychoudhuri, Chandrasekhar (2023) Ether of the Maxwell's Wave Equation is the Unified Field for Physics. In: Fundamental Research and Application of Physical Science Vol. 3. B P International, pp. 55-85. ISBN 978-81-19217-05-2
Full text not available from this repository.Abstract
The key purpose of this chapter is to provide extensive examples and rationale to overcome the currently prevailing resistance to accept the physical reality of Cosmic Ether. We identify this integrative power of Ether, first, by re-defining nature’s action generating parameters of this energetic tension field as the electric-tension, electric-tension, , and the magnetic-resistance, , while re-deriving the Maxwell's wave equation in analogy with the mechanically stretched string, where is the perpetually moving velocity of light in the free space. Then, the replacement of by and the rest mass by using Einstein's , one can find that almost all working physics theories are being energized by and . To complete the unification, we must assume that the elementary particles are also perpetually moving electromagnetic waves (EM waves) of the same Ether. However, they remain spatially localised and stationary as close-looped, in-phase (CLIP) EM wave modes, obeying the laws of Newton. Only the presence of spatial potential gradients (forces) of the surrounding Ether can move them out of their inertia. CLIP particles’ harmonic phase driven interactions between quantum particles strengthens the successes of the Schrödinger's equation. The distracting postulates of “plane waves”, and the “Pilot Waves” becomes unnecessary to assist their movements. The cosmic universality of Maxwellian wave velocity, and particles as CLIP modes, jointly accommodate the two key postulates of special relativity without the need for unphysical four-dimensionality. The observable universe is manifest only as diverse oscillatory excited states of the Ether. The stable and stationary Cosmic Ether holds 100% of the cosmic energy all the time.
Item Type: | Book Section |
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Subjects: | Universal Eprints > Physics and Astronomy |
Depositing User: | Managing Editor |
Date Deposited: | 29 Sep 2023 12:26 |
Last Modified: | 29 Sep 2023 12:26 |
URI: | http://journal.article2publish.com/id/eprint/2553 |