Proposed link between the periodic table and the standard model.

Abstract

John O Roberts

The patterns of stable quantum states in the periodic table are inverted and extended to infinity in both directions to accommodate spatial variation relative to the nucleus. The upper end leads to a cut off point for white matter. The lower end represents quantum states in plasma. At 10-15 m to 10-20 m the interaction between weak, strong and gravity forces result in suitable boundary conditions for the production of elementary particles. Chemical classification of the elements requires convergence of chemical properties and quantum states. By defining group number as the maximum number of electrons in any one shell, hydrogen and helium are moved to the first set of 2(1)2 states first proposed by Janet. The atomic numbers are adjusted, and mass number removed as it is an average of isotopes of each element produced in every supernova. This produces the process of Roberts Janet nuclear periodic table which suggest two zero states, a cut off and start point, of the electric field in attractive then repulsive modes. By balance of these fields vitality states develop in plasma with the irrational property that the closer the core the more noteworthy the quantity of vitality states. Combination results and the noteworthy reusing suggests a quicker breakdown than supernovae given adequate vitality thickness that could make an up 'til now surreptitiously cooperation at 10-50 m to 10-65 m between the solid and gravity powers. String theory and extra dimensions may be required to explain such mechanisms and multiverses. Introduction Currently it appears there is no holistic overview for the production of atoms in the Periodic Table from the three generations of quarks and the Higgs field of the Standard Model on a scale in nature. Method The link between the Periodic Table and the Standard Model has developed as of late as the Roberts-Janet Nuclear Periodic Table