Rutherford’s gold foil experiment provided evidence for a compact positively charged nucleus of the atom. It becomes clear that a strong force is needed to hold these many protons together. This is identified a fundamental energy interaction because it is basic and distinctive. As the internal processes of protons and neutrons are elucidated through experiments the dynamics of the strong interaction emerge. Here fundamental quantum energies combining elementary particles are functioning as mass through the strong interaction function of the universe.
Experimental Research into Fundamental Physics of the Strong Interaction of the Atomic Nucleus
All this involves mass. This mainly comes from the energy binding particles of the nucleus together. Strong interaction quantum energies of function as mass in elementary nuclear particles. Continuously coming together these effects are some of the primary dynamics we sense. We know from real life experience how energies of the atmosphere can come together to make the conditions that prevail at different places on earth. From this it is possible to comprehend how quantum energies of the universe come together to function through the dynamics of mass in the atomic nucleus.
How Experimental Research into the Fundamental Physics of the Strong Interaction of the Atomic Nucleus may Provide Comprehension of the Nature of Mass
How Quantum Effects of Strong Interaction Energies Function in the Atomic Nucleus
Mass in the Atomic Nucleus comes from Quantum Energies of the Strong Interaction
