Finding the Planck length multiplied by the speed of light without any knowledge ofG,c, or ℏ, using a Newton force spring

@article{Haug2020FindingTP,
  title={Finding the Planck length multiplied by the speed of light without any knowledge ofG,c, or ℏ, using a Newton force spring},
  author={Espen Gaarder Haug},
  journal={viXra},
  year={2020}
}
  • E. Haug
  • Published 1 April 2020
  • Physics
  • viXra
In this paper, we show how one can find the Planck length multiplied by the speed of light from a Newton force spring with no knowledge of the Newton gravitational constant G, the speed of light c, or the Planck constant h. This is remarkable, as for more than a hundred years, modern physics has assumed that one needs to know G, c, and the Planck constant in order to find any of the Planck units. We also show how to find other Planck units using the same method. To find the Planck time and the… Expand

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References

SHOWING 1-10 OF 41 REFERENCES
The Gravitational Constant and the Planck's Units: A Simplification of the Quantum Realm
In this paper, I suggest a new way to write the gravitational constant that makes all of the Planck units: Planck length, Planck time, Planck mass, and Planck energy more intuitive and simpler toExpand
Can the Planck Length Be Found Independent of Big G
In this paper we show how it is possible to measure the Planck length through a series of different methods. One of these measurements is totally independent of big G, but moving from the theoreticalExpand
Gauge invariance and the quantization of mass (of gravitational charge)
SummaryIn a previous paper (referred to as I in the text) it was shown that the Weyl principle of gauge invariance leads to the relationshipGm2 =ħc for a particle of inertial massm obeying the DiracExpand
Collision-space-time: Unified quantum gravity
We have recently presented a unified quantum gravity theory [1]. Here we extend on that work and present an even simpler version of that theory. For about hundred years, modern physics has not beenExpand
Planck length as the lower bound to all physical length scales
The effect of quantum fluctuations of gravity on the measurement of proper distances is considered. It is shown that, when the length scales are of the order of Planck length, the concept of a uniqueExpand
Is super-Planckian physics visible? Scattering of black holes in 5 dimensions
It may be widely believed that probing short distance physics is limited by the presence of the Planck energy scale above which scale any information is cloaked behind a horizon. If this hypothesisExpand
The Newtonian Constant of Gravitation
I SHOULD be obliged if you would allow me to make a correction in my lecture at the Royal Institution, published in NATURE, Aug. 2, 9, and 23, on page 331. I have stated that in pieces of apparatusExpand
Gauge invariance and the structure of charged particles
SummaryThe Weyl principle of gauge invariance is used to obtain an enlarged gauge invariant curvature tensor consisting of the usual Einstein-Ricci tensor plus terms involving the electromagneticExpand
Tests of Lorentz Symmetry in the Gravitational Sector
Lorentz symmetry is one of the pillars of both General Relativity and the Standard Model of particle physics. Motivated by ideas about quantum gravity, unification theories and violations of CPTExpand
Six easy roads to the Planck scale
We give six arguments that the Planck scale should be viewed as a fundamental minimum or boundary for the classical concept of spacetime, beyond which quantum effects cannot be neglected and theExpand
...
1
2
3
4
5
...