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Negative Mass and Negative Refractive Index in Atom Nuclei - Nuclear Wave Equation - Gravitational and Inertial Control: Part 2: Gravitational and Inertial Control, #2
By Raul Fattore
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Some efforts have been made to prove negative mass behavior through some experiments performed in mechanics, and other disciplines as well as some theories in electrostatics, but I haven't found research about similar effects at the atomic level, where the most elementary mass given by the atomic nucleus is to be found.
- Is the second Newton's law still valid with negative mass?
- What could happen if we make the atom behave in a negative mass regime?
- Is the negative refractive index related to negative mass?
- Are we able to control the magnitude of mass?
- Are we able to control the sign of mass?
The answers to these questions are given through this book series, with results that are coincident with experimental data, except for the negative mass regime. Experiments must be done to confirm or invalidate the theory developed in these books. Needless to say, if experiments validate this theory, then a significant change in mankind is going to happen. In that case, I strongly ask scientists to cooperate by making use of the derived technologies for good and refrain from doing it for evil.
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Titles in the series (6)
Negative Mass and Negative Refractive Index in Atom Nuclei - Nuclear Wave Equation - Gravitational and Inertial Control: Part 2: Gravitational and Inertial Control, #2
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Negative Mass and Negative Refractive Index in Atom Nuclei - Nuclear Wave Equation - Gravitational and Inertial Control - Raul Fattore
Negative Mass and Negative Refractive Index in Atom Nuclei
Nuclear Wave Equation
Gravitational and Inertial Control
Part-2
––––––––
Raul Fattore
https://physics-answers.com/
infobb20@gmail.com
April 7, 2023
The present study is divided into six parts – Index of Part-2
In This Paper
In this paper, two nuclear wave equations are derived for the nucleus of the Aluminum atom:
A nuclear wave equation from the shells’ self-oscillations
A nuclear interference wave equation by applying an external wave
Having better knowledge about atomic nucleus dynamics may give us additional information which could be useful for experimental purposes.
Abstract
Some efforts have been made to prove negative mass behavior through some experiments performed in mechanics [1], and other disciplines [9], as well as some theories in electrostatics [2,3,4,5,6,7,8], but I haven’t found research about similar effects in atomic level, where the most elementary mass given by the atomic nucleus is to be found.
Is the second Newton’s law still valid with negative mass?
What could happen if we make the atom behave in a negative mass regime?
Is the negative refractive index related to negative mass?
Are we able to control the magnitude of mass?
Are we able to control the sign of mass?
The answers to these questions are given through this series of papers, with results that are coincident with experimental data, except for the negative mass regime. Experiments must be done to confirm or invalidate the theory developed in these articles. Needless to say, if experiments
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