Since QM applies to all physical systems, the question arises: does your simple approach apply to systems that do not have an atomic nucleus, such as positronium, an electron and a positron in orbit around their common center of mass?
with appreciation, Rich Murray On Fri, Feb 6, 2015 at 1:25 PM, Frank Znidarsic <[email protected]> wrote: > Thanks Rich. > > I have read of Jones Bennie's comment where he speculates that > transformer action lies at the heart of the cold fusion phenomena. This is > very close to my logic, however, I have come up with a velocity associated > with the transformer action. The product of the nm dimension and the > terahertz stimulation is 1 million meters per second. This is Jones' > transformer described in more detail. So what is the 1 million meters per > second? Its the velocity of sound in the nucleus. Once we know this we > can derive the entirety of the quantum condition without and cold fusion. > My paper has no cold fusion in it. > > Jones has also commented about a strong paramagnetic effect. This idea > is on track but too limited. We must understand that magnetic fields are > not a conserved property of the universe. They come and go as needed. > It's the magnetic component of the strong nuclear force (the spin orbit > force) that's at work in cold fusion. I believe that Jones has the right > idea but the wrong force. > > We have also discussed interpretations of quantum physics. These are > the Copenhagen and the pilot wave. A new one emerges as a result of the > transform action. Transformers match the impedance of a system. The > interpretation to arrive out of Jones' transformer the impedance matching > interpenetration of quantum physics. One one photon emerges from a quantum > transition. That implies that the quantum transition occurs in a single > step without bounce. How do you match impedance of a line? With a > transformer, of course. > > > > Frank Znidarsic > > > > -----Original Message----- > From: Rich Murray <[email protected]> > To: vortex-L <[email protected]>; Frank Znidarsic <[email protected]>; > Rich Murray <[email protected]> > Sent: Thu, Feb 5, 2015 10:51 pm > Subject: the entirety of the quantum condition exists within a subset of > Newtonian mechanics... The Quantum Condition and an Elastic Limit, free > full text, 2014 Frank Znidarsic PE: Rich Murray 2015.02.05 > > the entirety of the quantum condition exists within a subset of > Newtonian mechanics... The Quantum Condition and an Elastic Limit, free > full text, 2014 Frank Znidarsic PE: Rich Murray 2015.02.05 > http://rmforall.blogspot.com/2015/02/the-entirety-of-quantum-condition.html > > > "This author suggests that this extension analysis may demonstrate that > the entirety of the quantum condition exists within a subset of Newtonian > mechanics." > > http://benthamopen.com/CHEM/VOLUME/1/ > > http://benthamopen.com/FULLTEXT/CHEM-1-21 > > Open Chemistry Journal > ISSN: 1874-8422 ― Volume 1, 2014 > > The Quantum Condition and an Elastic Limit > > Frank Znidarsic P.E. > Registered Professional Engineer, State of Pennsylvania > > Abstract > > Charles-Augustin de Coulomb introduced his equations over two centuries > ago. > > These equations quantified the force and the energy of interacting > electrical charges. > > The electrical permittivity of free space was factored into Coulomb’s > equations. > > A century later James Clear Maxwell showed that the velocity of light > emerged as a consequence this permittivity. > > These constructs were a crowning achievement of classical physics. > > In spite of these accomplishments, the philosophy of classical Newtonian > physics offered no causative explanation for the quantum condition. > > Planck’s empirical constant was interjected, ad-hoc, into a description > of atomic scale phenomena. > > Coulomb’s equation was re-factored into the terms of an elastic constant > and a wave number. > > Like Coulomb’s formulation, the new formulation quantified the force and > the energy produced by the interaction of electrical charges. > > The Compton frequency of the electron, the energy levels of the atoms, > the energy of the photon, the speed of the atomic electrons, and Planck’s > constant, spontaneously emerged from the reformulation. > > The emergence of these quantities, from a classical analysis, extended > the realm of classical physics into a domain that was considered to be > exclusively that of the quantum. > > Keywords: Atomic radii, photoelectric effect, Planck’s constant, the > quantum condition. > > Article Information > Identifiers and Pagination: > > Year: 2014 > Volume: 1 > First Page: 21 > Last Page: 26 > Publisher Id: CHEM-1-21 > DOI: 10.2174/1874842201401010021 > Article History: > > Received Date: 26/06/2014 > Revision Received Date: 28/07/2014 > Acceptance Date: 02/09/2014 > Electronic publication date: 28/11/2014 > Collection year: 2014 > > © Frank Znidarsic P.E.; Licensee Bentham Open. > > Open-Access License: This is an open access article licensed under the > terms of the Creative Commons Attribution Non-Commercial License ( > http://creativecommons.org/licenses/by-nc/3.0/) which permits > unrestricted, non-commercial use, distribution and reproduction in any > medium, provided the work is properly cited. > > > * Address correspondence to this author at > 481 Boyer St, Johnstown Pa 15906, USA; > Tel: 814 505 4638; > E-mail: [email protected] > > 1. INTRODUCTION > > One school of thought holds that the universe is constructed of > continuous stuff. > > Newton’s laws of motion and Einstein’s theory of Special and General > Relativity operate upon this continuum. > > Coulomb’s equation describes the continuous nature of the electrical > field. > > Maxwell employed Coulomb’s equation and described the wavelike > properties of light. > > Another school of thought holds that the universe is constructed of > particle like things. > > These things were quantified with Planck’s empirical constant. > > Einstein used Planck’s constant and introduced the particle of light. > > Niels Bohr showed that an atom’s electrons reside in discrete particle > like energy levels [1] > > The philosophy of quantum mechanics precisely describes the lumpiness of > the quantum realm. > > This philosophy could not explain why the quantum realm was lumpy. > > Max Planck searched for a classical principle that would establish the > state of the quantum. > > It has been over a century since Planck’s quest and no classical > principle was discovered. > > The Copenhagen Interpretation of quantum physics was introduced in order > to offer some explanation [2-4]. > > This interpretation describes a probability based reality. > > The everyday classical realm, of our experience, is only a subset of > this mysterious reality. > > The classically wired human mind cannot intuitively grasp the condition > of the quantum reality. > > This quandary has become the accepted norm. > > > Znidarsic refactored Coulomb’s equation into the terms of an elastic > constant Ke and a displacement Rc. > > The elasticity of the electron, like that of a rubber band, is greatest > as it just begins to expand. > > It diminishes, from that maximum, with displacement. > > The Compton frequency, of the electron, emerges as this elasticity acts > upon the mass of the electron. > > In general, the wave like properties of stuff emerge as a condition of > this elastic constant. > > It was assumed that the electron has a classical limit to its > elasticity. > > An electron expels the field of another through a process of elastic > failure. > > The displacement, of the elastic discontinuity, equals classical radius > of the electron Rc. > > The wave number of the electromagnetic field was produced as an effect > of this elastic discontinuity. > > In general, the particle like properties of things emerge as a condition > of this wave number. > > The duality of matter and waves emerges as an effect of the interaction > of the elastic constant and the wave number. > > The elastic constant was used to determine the speed of a longitudinal > mechanical wave in the nucleus. > > The quantum condition emerged when the speed of this longitudinal > nuclear wave was set equal to the speed of transverse electronic wave. > > In more general terms, the quantum condition was described as a point > where the speed of sound equals the speed of light. > > The speed match is conceptually equivalent that of one billiard ball > directly impacting another. > > The second ball promptly adsorbs all of the kinetic energy and flies > away at the speed of the impacting ball. > > One snap of sound is emitted. > > Likewise, a single photon is emitted, during the quantum transition. > > A prompt, single step, transfer of energy is a characteristic of a > system of matched impedances. > > The particle like properties of things emerged, within stuff, at points > of matching impedance. > > The analysis introduced an “impedance matching” interpretation of > quantum physics. > > The quantification of this impedance match produced elements of the > quantum condition within a subset of Newtonian mechanics. > > [ free full text -- commonsense notions lucidly expressed via simple > calculus ] > > CONCLUSION > > Coulomb’s equation has been used to quantify the force and the energy of > the electric interaction. > > Maxwell extended Coulomb’s formations and produced the speed of light. > > These accomplishments were a crowning achievement of classical physics. > > The philosophy of classical physics could not explain the discrete > quantum properties of matter and energy. > > Planck’s constant was injected, into a set of classical constructs, in > an effort to qualify the lumpiness of the quantum realm. > > This author refactored Coulomb’s equation into terms of an elastic > constant and a wave number. > > The elastic constant quantified the wave like properties of stuff and > the wave number quantified the particle like properties of things. > > > The analysis, in this paper, was used to describe a small, but > important, portion of the quantum condition. > > This author suggests that this extension analysis may demonstrate that > the entirety of the quantum condition exists within a subset of Newtonian > mechanics. > > [ 17 references ] > > > "As a matter of course, every soul citizen of Earth has a priority to > quickly find and positively share evidence for healthy and safe food, > drink, environment, and society." > > within the fellowship of service, > > Rich Murray, > MA Boston University Graduate School 1967 psychology, > BS MIT 1964 history and physics, > 1039 Emory Street, Imperial Beach, CA 91932 > [email protected] > 505-819-7388 cell > 619-623-3468 home > http://rmforall.blogspot.com > https://www.facebook.com/rmforall > rich.murray11 free Skype audio, video chat > > > >
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