The following paper shows how a possible resonance of Cherenkov Radiation with the ratio of Bremsstrahlung-Parallel Bremsstrahlung under special circumstances could give the mass ratio of the proton to the neutron. It would suggest that all of the activity within the nucleons are powered by a main power driver and that quarks are far from fundamental. When a charged particle travels faster than light it emits Cherenkov radiation. When a charged particle is accelerated it emits radiation called Bremsstrahlung radiation. Inside a proton are the many configurations of the nucleons. It is proposed here, and likely proposed by others that there may be some equivalent process that there is a constant acceleration of charged particles or superluminal movement of charged particles that causes the mass of the proton or other particles. In the case of the mass ratio of the proton to the neutron, the possible form of the equation was found first. This paper is an attempt of an explanation and derivation for the equation that very closely, within the known Codata 2014 mass ratio of the proton to the neutron, gives the mass ratio of the proton to the neutron. An equation is developed below that uses the coupling dependence and Cherenkov radiation angles summing the radiation angles from -pi/2 to pi/2 angles and integrating through what may appear to be multiple levels of dimensions. This equation then uses a component of Bremsstrahlung radiation and proposes that there may be some relationship to both Bremsstrahlung radiation and Cherenkov type radiation deeper than the nucleons that causes some type of resonance that stabilizes the masses of the fundamental particles. This resonance is demonstrated for a proton.