Einstein’s Objections to Quantum Mechanics Get Industrial Confirmation in New Energies

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Einstein’s Objections to Quantum Mechanics Get Industrial Confirmation in New Energies, Chemistry,

News provided by Santilli Foundation

Three Tributes to Albert Einstein 

DENTON, Texas, May 28, 2019 /PRNewswire/ — In the preceding releases, dated May 20 and May 24, 2019, we outlined studies by the Italian American scientist Sir Ruggero Maria Santilli (http://www.i-b-r.org/Dr-R-M-Santilli-Bio-1-10-18.pdf) and other scientists on the apparent confirmation in physics and chemistry of Einstein’s argument  that quantum mechanics is an ‘incomplete theory.’ In this news release, we outline studies on the need for a ‘completion’ of quantum mechanics for consistent treatments of new clean energies and basically novel technologies.   

Santilli states: “I never accepted quantum mechanics as a ‘complete’ theory because quantum mechanics has ‘no time arrow’ and, therefore, cannot consistently represent irreversible energy releasing processes. After learning during my graduate studies that quantum mechanics is characterized by time reversal invariant Lie algebras, I did my Ph. D. thesis in 1965 on their ‘completion’ into irreversible Lie-admissible algebras (http://www.santilli-foundation.org/docs/Santilli-54.pdf) with related irreversible dynamical equations.” 

Following various academic positions, in September 1978, Santilli joined the Department of Mathematics of Harvard University under DOE support to conduct innovative research in new clean energies. In that context, Santilli introduced the most general known realization of irreversible Lie-admissible algebras characterized by generalizing and differentiating the conventional product “ab” between number, functions, into the product of a and b to the right, a>b = arb, from the product of b and a to the left, a<b = asb, where r and s are arbitrary, positive, numbers, functions or matrices. The new multiplications, permitted the construction of new mathematics known as ‘hadronic mathematics to the right and to the left’,’ with corresponding ‘completion’ of quantum mechanics and chemistry into irreversible coverings known as hadronic mechanics and chemistry, where energy releasing processes forward in time are represented with ordered products to the right, while processes backward in time are represented with ordered products to the left. Different values of r and s assure irreversibility. Scientific and industrial applications to new clean energies were initiated only thereafter. The reversible isomathematics, isomechanics and isochemistry used in the preceding two releases are recovered for r = s= T > 0. Quantum mechanics and chemistry are recovered identically for r = s = 1 (http://www.santilli-foundation.org/elements-hadronic-mechanics.htm). 

Santilli states: “I believe that our inability to achieve controlled nuclear fusions despite the investment of billions of public funds is due to inconsistencies in their treatment with time reversal invariant 20th century sciences. By contrast, at the U. S. publicly traded company Thunder Energies Corporation (http://thunder-energies.com/), we are attempting nuclear fusions that, when represented with the new irreversible sciences, appear to have no harmful radiation or waste (http://www.santilli-foundation.org/docs/hypercombustion-2019.pdf).”

When asked how irreversible processes may verify Einstein’s argument, Santilli states: “It appears that Einstein’s objections to quantum mechanics are verified in the scattering region of ongoing high energy particle collisions. Quantum mechanics is valid during the acceleration of protons in hadron colliders. However, quantum mechanics cannot be valid at the impact of protons against a target due to the irreversibility of the scattering. Einstein’s argument appears to be verified in the interior of high energy scattering regions due to their extreme densities approaching that of black holes under which quantum uncertainties and other laws are clearly inapplicable. The importance of Einstein’s argument, as well as its lack of general acceptance by the academic community for about one century, are illustrated by the need for a revision of ‘experimental results’ in high energy scattering experiments due to currently missing irreversible contributions.”

Contact: Paul Knopick
E & E Communications

Einstein’s Objections to Quantum Mechanics Get Industrial Confirmation in Chemistry English

DENTON, Texas, May 24, 2019 /PRNewswire/ — In the preceding release, dated May 20, 2019, we outlined studies by the Italian American scientist Sir Ruggero Maria Santilli (http://www.i-b-r.org/Dr-R-M-Santilli-Bio-1-10-18.pdf) and other scientists  on the confirmation in physics of Einstein’s view  that quantum mechanics is an ‘incomplete theory.’ The confirmation  was based on the need to ‘complete’ quantum mechanics to achieve  a representation of  the neutron synthesis from the hydrogen in the core of stars since such a representation is not possible with quantum mechanics. 

While accepting the historical value of the discoveries permitted by quantum chemistry, Santilli  never accepted  the notion of molecules based on the 20th century  valence electron bonds because it is essentially a ‘nomenclature’ due to the lack of representation via equations. In fact, according to quantum mechanics and chemistry, valence electrons should repeal each other due to their equal charges and cannot possibly attract each other to form molecules. 

According to Santilli, this insufficiency is evidence on the need for a ‘completion’ of quantum chemistry along Einstein’s argument. Jointly with his studies on the completion of quantum mechanics, while being at Harvard University under DOE support, Santilli initiated in the late 1970s long term research on the ‘completion’ of quantum chemistry into a form admitting an attractive force between identical valence electrons.        

The biggest difficulty was the need of  ‘completing’  20th century mathematical methods  for point particles in vacuum, into a form representing extended electron  wavepackets  in deep mutual penetration, also called entanglement. These efforts produced the ‘completion’ of 20th century mathematics into the novel isomathematics and the consequential  ‘completion’ of quantum chemistry into isochemistry. The new methods did achieve in the late 1990s a strongly attractive force between identical valence electrons,  (see the  2001 monograph http://www.santilli-foundation.org/docs/Santilli-113.pdf).

The lack of completeness of quantum mechanics and, therefore chemistry,  is Einstein’s most important prediction because of far reaching implications in all sciences.  In this second and in the third release we shall indicate the importance of Einstein’s prediction for the solution of our  alarming environmental problem. In fact, the achievement of an attractive force between valence electrons, and the ensuing more accurate representation of  molecules, are permitting the development by the U. S. publicly traded company Thunder Energies Corporation of the novel HyperCombustion (patent pending) for the combustion of fossil fuels without appreciable carbon monoxide, hydrocarbons and other combustible contaminants in the exhaust. In Santilli’s view, these  environmental advances could not be possible  via quantum chemistry due to the the ‘nomenclature’ character of its valence bond, with ensuing  lack of treatments via equations verifiable with experiments (http://www.thunder-energies.com).

When asked to indicate how his novel valence bond verifies  Einstein’s vision of classical determinism, Santilli states: “When electrons are members of atomic clouds, their point-like approximation is correct, quantum mechanics is valid and classical determinism is impossible. By contrast, when entangled wavepackets of valence electron pairs bond themselves to form molecules, their extremely small mutual distance is fixed and can only be terminated via ionization processes. Hence, the strong valence bond between  extended electrons appears to approach Einstein’s classical determinism. When in the core of stars, the same  extended electron pair comes closer to classical determinism due to surrounding large pressures. Finally, when inside a black hole, the same extended electron pair reaches full classical determinism, in my view, for the evident reason that the local pressures and density are so big to prevent any motion.” For details, visit the PubRelCo interview http://www.galileoprincipia.org/santilli-confirmation-of-the-epr-argument-chemistry.php. Santilli is available to discuss additional developments toward the solution of our environmental problems.

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