Physical Significance of Measure - Journal of High Energy Physics, Gravitation and Cosmology

JHEPGC > Vol.6 No.1, January 2020

Journal of High Energy Physics, Gravitation and Cosmology

Volume 6, Issue 1 (January 2020)

ISSN Print: 2380-4327 ISSN Online: 2380-4335

Google-based Impact Factor: 1.51 Citations

Physical Significance of Measure ()

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Download as PDF (Size: 714KB) PP. 62-89

DOI: 10.4236/jhepgc.2020.61008 881 Downloads 3,237 Views Citations

Author(s)

Jody A. Geiger

Affiliation(s)

Informativity Institute, Chicago, IL, USA.

ABSTRACT

Providing for a comprehensive model of physics that describes both the discrete and non-discrete behavior of matter has proved difficult and elusive. Using a new approach, we express Heisenberg’s uncertainty principle in terms of measure and counts of those measures to resolve an expression consisting entirely of counts. Three arguments are presented each identifying one property of measure. Firstly, the three measures—length, mass and time—are each shown to have a physically significant lower bound. Secondly, each measure is shown to be discrete throughout the entire measurement domain. And thirdly, measure is shown to be the result of three frames of reference: the observer, the observed and the universe. Using these observations alone, the model resolves values for Planck’s constant, the gravitational constant and gravitational curvature.

KEYWORDS

Measure, Measurement Quantization, Gravity, Planck Units, Discrete, Discrete Measure

Share and Cite:

Geiger, J. (2020) Physical Significance of Measure. Journal of High Energy Physics, Gravitation and Cosmology, 6, 62-89. doi: 10.4236/jhepgc.2020.61008.

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