Phenomenological scaling laws relating the observed galactic dimensions   to Planck action constant

Salvatore Capozziello; Salvatore De Martino; Silvio De Siena and; Fabrizio Illuminati

arXiv:gr-qc/9903106·gr-qc·October 31, 2009

Phenomenological scaling laws relating the observed galactic dimensions to Planck action constant

Salvatore Capozziello, Salvatore De Martino, Silvio De Siena and, Fabrizio Illuminati

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TL;DR

This paper proposes that the observed sizes, velocities, and temperatures of galaxies can be derived from the Planck action constant using phenomenological scaling laws across cosmological scales.

Contribution

It introduces a novel phenomenological framework linking galactic properties to fundamental constants, specifically the Planck action constant.

Findings

01

Galactic radius, velocity, and temperature can be inferred from Planck constant.

02

Scaling laws apply uniformly across cosmological scales.

03

Provides a new perspective on galaxy properties from fundamental physics.

Abstract

It is shown that the characteristic observed radius, velocity, and temperature of a typical galaxy can be inferred from Planck action constant through a phenomenological scaling law on all cosmological scales.

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