Shelley Thomas
The Diamond unification hypothesis has had some achievement in bringing together the two long-go powers of nature, EM and gravity, and has accomplished this dependent on straightforward models, yet can anticipate the proton mass and Newton Gravitation steady to high exactness without free boundaries. Hence, this GEMinspired investigation of the short-run powers of nature: the Powerless and Strong associations, is completed in the equivalent soul of material science, that of utilizing basic physical models to accomplish a basic count of observables. Such a soul existed in the beginning of the quantum period. In that period of Planck, Bohr and Einstein, established researchers en-countered an abnormal new universe of nuclear scale phenom-enon and reacted with straightforward, butradically new, physical ideas and perspectives. Fruitful early models of that type are the Bohr Model of the Hydrogen molecule and Uhlenbeck and Goudsmitís model of the turning elecThe issue of feeble and solid atomic powers and expectation of the Higgs-Boson mass from the GEMS (Gravity electro-attraction solid) unification hypothesis John Brandenburg Morningstar Applied Physics, LLC, Vienna, Virginia 22182, (USA) Email: jebrandenburg@madisoncollege.edu The GEMS (Gravity Electro-Magnetism Strong) hypothesis is stretched out to the issue of Weak also, Strong Nuclear Forces and the issue of the Higgs Boson mass, as the start of an exertion to incorporate short range Nuclear Forces in the fruitful GEM unification hypothesis. The presence of a minimized 5 th measurement is found to make subatomic structures whereupon surface resonances and Mie scatterings happen, and these resonances can give rise quanta, called, here, mieons, that intervene atomic powers.. In the Kaluza-Klein hypothesis of EM and gravity, a 5 th power field called the ìRadionî emerges as a scalar, with a mark number of the Radion connection in the GEM hypothesis: =42.8503. Higher request resonances off the electro-static radii of the electron, proton and 5 th measurement size type of the GEM hypothesis, create the quanta with masses of the pion m? = 2 me/?
Published Date: 2020-09-23; Received Date: 2020-09-01