Relation between Planck’s Constant and Speed of Light, Predicting Proton Radius More Accurately

Twin physics is a new physical model in which the basic features of quantum mechanics and relativity
theory are combined to a manageable description, which can be represented geometrically. In this
model, descriptions of phenomena on a quantum-mechanical scale can be combined with those at an
astronomical scale by considering them in a complementary way. This is in agreement with the view
of Heisenberg and carried out by using the definition of complementarity as given by Max Jammer.
The obtained theoretical results can be identified with basic physical phenomena like the forces of
nature, a series of elementary particles and gravitational waves. If the proton, as described by twin
physics, is combined with the early ideas of Einstein about the energetic equivalence of mass and
radiation, a relation between the Planck’s constant and the speed of light is found, in which the mass
and the radius of the proton occur. In this relation also a factor four appears, being an integer, which
is acting as a conversion factor from mass to radiation. Besides of that, the relation leads to a more
accurate prediction of the radius of the proton.