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Natural Nonlinear Quantum Units and Human Artificial Linear System of Units

Binder, Bernd (2003) Natural Nonlinear Quantum Units and Human Artificial Linear System of Units. [Preprint]

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      Abstract

      Diving into the nonlinear massive range of nuclear physics, the quark model already indicates that the linearized massless length scales break down. Although we are often confronted with nonlinear and relativistic dynamics, we obtain our fundamental values with the classical linear system of units SI by linear extrapolation. Ignoring the correspondent nonlinear relations while extrapolating to the Planck scale h=c=µ=1 based on linear massless relations leads to pseudo-scales equivalent to geometrized mass units. This paper shows that one of the fundamental dimensions length, time, mass becomes redundant approaching the Planck scale. The hidden information can be assigned to a geometrized natural quantum mass unit µ part of the Planck constant h. In other words: c, h, and µ are interrelated.


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      Item Type: Preprint
      Keywords: SI, Planck, Compton, topological, fundamental, particle, proton, electron, neutron, modes, nonlinear, phase, fine structure, iteration, iterative
      Subjects: Specific Sciences > Physics > Fields and Particles
      General Issues > Laws of Nature
      Specific Sciences > Physics > Quantum Mechanics
      Specific Sciences > Physics > Relativity Theory
      General Issues > Theory/Observation
      Depositing User: Bernd Binder
      Date Deposited: 16 Jan 2003
      Last Modified: 07 Oct 2010 11:11
      Item ID: 969
      URI: http://philsci-archive.pitt.edu/id/eprint/969

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