Mesotrons, 180 times heavier than electrons, reciprocate to hold together the charged protons and uncharged neutrons of the atom's nucleus, preventing disruption from the protons' electric charge. [1]
Mesotrons reciprocate to cohere atomic nuclei, preventing the disruptive electric charge of protons and maintaining nuclear stability by rapidly exchanging energy status. [2] Mesotronic disintegration explains excess radiation in radioactive atoms by transforming into electrons and emitting small uncharged particles. [3] Abundant mesotrons are constantly present in space rays affecting Earth. [4]