How to Deduce Masses and Further Parameters of Particles and Nuclei
Published: 2013
Author(s) Name: Ulrich E. Bruchholz |
Author(s) Affiliation: Independent Author, Schillerstrasse 36, D-04808 Wurzen, Germany
Locked
Subscribed
Available for All
Abstract
Quantities of free particles and masses of nuclei
are deduced from a geometry of gravitation and
electromagnetism as found for the first time by Rainich.
The theory is nothing else than General Relativity
completed with a “simple idea” as foreseen by Wheeler.
This “simple idea” leads to far reaching consequences
and solves problems of General Relativity. In addition,
the omnipresent quantization is revealed to be a
necessary consequence of the geometric theory. At this
place, quantities of particles and masses of nuclei are
depicted by means of numerical simulations according
to geometric equations. The algorithm is explained. The
computations are repeatable by everyone. The results
correlate significantly with the values from experiment.
Keywords: Numerical Simulations, Algorithm, Theory of Relativity, Rainich Theory, Quantization
View PDF