Electromagnetic radiation (EMR) has both ionizable and non-ionizable chemical impact that causes protons and electrons to interact as  fields in any surrounding as it travels. This can have negative health effects, such as warming up the body because of polarization and  dipolar moment itchy skin eruption. This paper adopted Feynman diagram from quantum electrodynamics as a theoretical model to  explain the quantum properties related to the interactions of EMR, in specific the exchanges involving photons and electrons in the 5G  electromagnetic carrier signals. The Feynman model depicts electron-positron collisions as mutually annihilating antiparticles that ultimately produce photons. The mutual annihilation resulted in the disappearance of an electron and its antiparticle, producing gamma  rays with highest ionizable penetrating power. The process of chemical polarization, also known as ionizing radiation, causes molecules  within cells to split apart and create free reactive radicals, which in turn affects the immune system of the body. As a result of the  existence of unpaired electrons that occurred from the breaking up of water molecules within the cells, it destabilizes the equilibrium of  the charged particles that make up the human deoxyribonucleic acid (DNA). The free radicals will produce hydrogen peroxide compounds, which will start toxic chemical processes inside the cells that can lead to things like fluid accumulation in the lungs  (pulmonary edema). Hydrogen peroxide produced from the disintegration of water molecules as a result of EMR is found to facilitate the  multistage carcinogenic process, which involves carcinogen activation, oxidative DNA damage, and tumor formation.