Rajan Iyer
Keywords: Quantifying gravity, fiber transforms’ bundle strings, strong and weak gravity, gage velocity, equivalence principle, equidensity matrix, force, stress tensor, string-gravity-fields, discontinuum physics, computing simulations, observable measurement parameters.
Abstract: We currently will concentrate on quantifying gravity in terms of fiber transforms bundle strings. Strong gravity will all be like rope braided closed bundle strings system acting like rope pulling large weight as one unit, hence having the stress tensor to pull object towards the center of gravity. Weak gravity maybe like stranded open fiber transforms strings system observed as a horizontal force on tangential plane of a stratified geodesic like earth having spherical concentric equidensity-matrix that is stratified towards the center of the mass like a sphere approximately. Spatial geometrically it will have increasing pressure (hence density matrix) towards gravity center. Strong gravity is like acceleration due to gravity, whereas weak gravity is like normal acceleration. Gage_velocity links weak gravity to strong gravity through equivalence principle.
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