hadronic mathematics, mechanics and chemistry - Institute for Basic ...

HADRONIC MATHEMATICS, MECHANICS AND CHEMISTRYxiwith the sole use of a Hamiltonian, and consequential; need for a nonunitarycovering theory.In view of its ”direct universality” (studied in detail in Volume I), hadronicmechanics emerges as applicable to all conditions considered, without exclusionknown to the author. Thanks to the necessary discovery and use of new appropriatemathematics, the invariance of the theory for non-Hamiltonian conditionsrenders hadronic mechanics uniquely applicable. Any other invariant theory witha nonunitary structure can be easily proved to be a particular case of hadronicmechanics due to the extremely brad foundations. Researchers claiming novelalternative coverings of quantum mechanics should be warned to avoid claims ofplagiarism and paternity fraud identified in the subsequent Legal Notice.The application of hadronic mechanics, considered most significant by the author,is the achievement of the first known axiomatically consistent and invariantgrand unification of electroweak and gravitational interactions presented in Chapter14, that was achieved thanks to:1) A structural reformulation of gravitation without curvature as a prerequisiteto achieve the universal Poincaré-Santilli isosymmetry for gravitation and relatedcompatibility with the symmetries of electroweak interactions, as well as the firstknown axiomatically consistent operator form of gravity;3) The first known inclusion of antimatter in grand unifications for both electroweakand gravitational interactions; and other advances.The above grand unification is so diversified that numerous additional advancespermitted by hadronic mechanics are simple particular cases, such as thereconstruction at the level of the Lie-Santilli isotheory of spacetime and internalsymmetries erroneously considered as broken due to the use of an excessivelyelementary mathematics, including:α) The reconstruction of the exact parity for weak interactions;β) The reconstruction of the exact SU(2)-isospin symmetry in nuclear physics;γ) The reconstruction of the exact rotational, Lorentz, and Poincaré symmetriesfor mutated spacetimes;δ) The reconstruction of the exact SU(3) symmetry when believed to be brokenfor strong interactions; and others.The proposed experiments, considered most important by the author, are: theverification whether or not light emitted by antimatter has the novel featurespredicated by the isodual theory, which verification would allow the first quantitativestudy whether far away galaxies and quasars are made up of matter or ofantimatter; the verification whether or not sunlight at sunset has a partial iso-Doppler shift, that would confirm dramatically different cosmological redshiftsfor physically connected galaxies and quasars; the verification whether or notthere are deviation from the Lorentz symmetry and special relativity within thehyperdense medium inside hadrons, in which case the covering Lorentz-Santilli