Through full real life actions we sense energy changes around us. Coming together through quanta coherence to make matter and mass energies flow through the atomic nucleus as interchanges of the universe. Concurrence and correlation of quanta as immediate functions are demonstrated in the experimental research of Chien Shiung Wu, John Clauser, Alain Aspect and Anton Zeilinger. With mass as a fundamental physical energies interchange of the universe it is possible to comprehend how the functions of quanta in the atomic nucleus contribute to the large scale dynamics of galaxies.
Energies interchanges of the whole universe as a deep, fundamental and physically real way to access the motions of masses we call gravity
Demonstration of the photoelectric effect by Heinrich Hertz in 1887 opens the way to the discovery of quanta in the early twentieth century. Concurrence of quanta is experimentally verified with evidence of immediate correlation across the universe to provide deeper energies functions comprehension of physical events. Coherence to mass comes from all interchanges providing access to the atomic nucleus through energies of the universe. Coming together as interchanges of the whole universe energies of the atomic nucleus are accessible to full physically active human endeavour.
Energies come together through mass in the atomic nucleus as interchanges of the whole universe
Experimental verification of quanta concurrence and correlation (“quantum entanglement”) in the 1970s, 1980s and 1990s provides comprehension for the deeper realities of energies functioning of the universe. As well as coming together through quanta to make mass energies flow in the atomic nucleus with concurrence as a likely source of binding strength. Access to mass as an energies interchanges function of the whole universe opens up the intense powers of sub atomic particles to fundamental physical science research. Mass as a function verifiable as interactions of atomic nuclei unifies experimental approach to quanta as energies interchanges of the universe (which we call “gravity”).
Access to energies of the atomic nucleus through quanta
Super Kamiokande detection of neutrinos oscillations in the early 21st century identifies an additional way energies function. If energy can come together as a neutrino with one mass and then change into another with a different mass it means that the universe is actively varying how energies come together as mass. So as well as energy coming together to make all ordinary matter of the universe it also comes as oscillations and variations to make neutrinos masses. This changing between different masses is an energies functioning of the universe and may provide comprehension for how the atomic nucleus holds energy together as mass so coherently.
Any way that energy flows becomes a source of mass