Corpus ID: 125739708

A New Mass Measure and a Simplification and Extension of Modern Physics

@article{Haug2018ANM,
  title={A New Mass Measure and a Simplification and Extension of Modern Physics},
  author={E. Haug},
  journal={viXra},
  year={2018}
}
Recent experimental research has shown that mass is linked to Compton periodicity. We suggest a new way to look at mass: Namely that mass at its most fundamental level can simply be seen as reduced Compton frequency over the Planck time. In this way, surprisingly, neither the Planck constant nor Newton’s gravitational constant are needed to observe the Planck length, nor in any type of calculation, except when we want to convert back to old and less informative mass measures such as kg. The… Expand

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References

SHOWING 1-10 OF 11 REFERENCES
Planck Quantization of Newton and Einstein Gravitation
In this paper we rewrite the gravitational constant based on its relationship with the Planck length and based on this, we rewrite the Planck mass in a slightly different form (that gives exactly theExpand
The ultimate limits of the relativistic rocket equation. The Planck photon rocket
Abstract In this paper we look at the ultimate limits of a photon propulsion rocket. The maximum velocity for a photon propulsion rocket is just below the speed of light and is a function of theExpand
The Mystery of Mass as Understood from Atomism
Over the past few years I have presented a theory of modern atomism supported by mathematics [1, 2]. In each area of analysis undertaken in this work, the theory leads to the same mathematical endExpand
A Clock Directly Linking Time to a Particle's Mass
TLDR
A clock is demonstrated wherein the ticks are related to the mass of a cesium atom, demonstrating the connection between time and mass. Expand
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
Revisiting the Derivation of Heisenberg's Uncertainty Principle: The Collapse of Uncertainty at the Planck Scale
In this paper, we will revisit the derivation of Heisenberg’s uncertainty principle. We will see how the Heisenberg principle collapses at the Planck scale by introducing a minor modification. TheExpand
On the Compton clock and the undulatory nature of particle mass in graphene systems
In undulatory mechanics the rest mass of a particle is associated to a rest periodicity known as Compton periodicity. In carbon nanotubes the Compton periodicity is determined geometrically, throughExpand
Determination of Rest Mass Energy of the Electron by a Compton Scattering Experiment.
We report here a simple Compton scattering experiment which may be carried out in graduate and undergraduate laboratories to determine the rest mass energy of the electron. In the present experiment,Expand
On the Electrodynamics of Moving Bodies
It is known that Maxwell's electrodynamics—as usually understood at the present time—when applied to moving bodies, leads to asymmetries which do not appear to be inherent in the phenomena. Take, forExpand
New measurement of the proton-electron mass ratio
Abstract Using a compensated quadring Penning trap operated in a high magnetic field (5.05 T) at cryogenic temperatures (4.2 K), an r.f. resonance ion storage technique allows cyclotron resonancesExpand
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