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Hadronic Mechanics
As all the
possibilities of new energies and fuels based on the quantum mechanics
and relative mathematics already had been studied from hundred
thousands of technicians, like part of contracts of the American Energy
Department, the Prof. Santilli proposed in 1980, like fundamental step,
the construction of one generalization of quantum mechanic under the
name of Hadronic mechanic, that is one mechanical conceived for the
study of the structure of interactions particles, called "hadrons".
In fact, the base reactor of this technology is called Hadronic
Reactor. Understanding how was not possible to develop a truly new
mechanical without a new mathematic, and it was not possible to develop
a truly new mathematic without new numbers, as member of the Department
of Mathematics at Harvard University, Prof. Santilli, despite being a
theoretical physicist and not a mathematician, made preliminarily
mathematic studies, discovering completely new numbers, today called
"Santilli-isonumbers".
These new numbers are characterized by an unit that is not the number 1
anymore, but an arbitrary amount E = 1/T and their product is not that
conventional one nxm, but the product n*m = nxTxm for which E is in
fact the new unit, E*n = (1/T)xTxn = n = n*E = nxTx(1/T).
Relying on the discoveries of these new numbers, the Prof. Santilli
constructed an entire new mathematic based on new spaces, new algebras,
new geometries, etc. well-know today all over the scientific world.
Several exquisitely technical monographs, written by scientists of
several countries, subsequently appeared, bringing back the name
"Santilli" in their title.
As an example, Chinese mathematician Prof. C.-X. Jiang has written a
monography on the new Santillian numbers; Santillian algebras have been
studied in monography written by Greek mathematicians G. Tsagas and D.
Sourlas, spanish ones A. Nunze and American ones T. Gill and W. Wess.
Due to the new mathematic, Hadronic Mechanics construction was a mere
consequence.
In fact, the new mechanical allowed the Prof. Santilli and its
associates to generalize Newton's equations, Hamilton's mechanics and
quantum mechanics.
At a second stage, these generalizations were extended to
Superconductivity and more recently to Hadrons Chemistry.
The primary function of Hadronic mechanics is the following.
Quantum mechanics can only represent particles as punctiform entities
only subordinates to at a distance interactions.
In physical reality, particles as protons and neutrons are instead
extended objects that have not only interactions at a distance, but
also contact interaction (because extended in the space, otherwise pure
punctiform objects without dimensions cannot have a contact) which last
interactions are at 0 radius, not derivable from potential so
absolutely not rappresentable by quantum mechanics.
The primary function of the Hadronic mechanics is thus to represent
through the new unit E not only the true shape of particles (generally
ellipsoid), but also contact interactions.
The same Quantum mechanics is not exact for all the structures whose
distances are small in relation to dimensions of particles, as hadrons
structure, nuclei and molecules structures.
After one century, the quantum mechanics has not been able yet to
represent in an exact way nuclear magnetic moments (with an
embarrassing 1% shunting line for deuterium and even more for heavy
nuclei).
Similarly, after a century of faulty trials, quantum chemistry has NOT
been able to catch "an exact" representation of molecular bond
energies, lacking an historical 2% value (without, of course, base
axioms alteration or academics- based arbitrary parameters, etc.).
The most important Hadronic Mechanics achievement is that has been the
one to allow completely new hadrons structure models, nuclei and
molecules, whose models for the first time in the history of science
are an INVARIANT and EXACT representation of ALL physical
characteristics of hadrons, nuclei and molecules.
These studies are the result of hundred of scientists all over the
world under guide and coordination of Prof. Santilli.
Such studies have produced beyond 30,000 pages of technical article and
roughly twenty monographs.
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