reference: viXra:1305.0148v1
title: Speed of Light Dependency on Fabric Density
authors: Dirk Pons, Arion D. Pons, Aiden J. Pons
category: Relativity and Cosmology
type: submission
date: 2013-05-24 05:13:50
abstract:
The invariance of the in-vacuo speed of light is a premise of general relativity and all the cosmological models built thereon. There is also good empirical reason to believe it constant in the situations that we can measure. Nonetheless it is still possible that the empirical evidence could be explained by a variable speed of light (VSL) theory. In this paper we develop such a theory from the basis of the Cordus conjecture, which is a non-local hidden-variable (NLHV) solution. The theory proposes that all particules of matter emit discrete fields, which aggregate to create an electro-magneto-gravitational (EMG) fabric. Consequently, the fabric density at a location is variable, being determined by the proximity and local spatial distribution of matter. It is proposed that the discrete fields of the photon interact dynamically with each discrete field of the fabric. Thus frequency cycles of the photon are consumed with fabric interactions, and hence time also is consumed. Therefore we propose a time dilation effect whereby the photon takes longer time (shorter time) to cross a unit distance when in a fabric that is denser (sparser) than the Observer's frame of reference. The outcome is that the Cordus theory predicts that the speed of light depends on the fabric density, which in turn depends on the proximity and spatial distribution of matter. Consequently the Cordus theory denies the universal applicability of the cosmological principle of homogeneity and isotropy of the universe, and instead proposes that these principles are only approximately true.