Daniel, Isaac Mumo
September 11, 2012
Magnetic Charge, Characteristic Resistance, Permeability and Permittivity Speeds, Teleportation, Temperature
The EPR problem of correlated behavior between two perpendicularly polarized photons of same genesis has led many authors to predict hidden variable theories which have not sufficiently solved the whole problem. Here, we develop a model that addresses the EPR problem classically using deterministic mechanics. The five basic quantities, length, mass, time, electric current and temperature are determined. Magnetic charge value as a new elementary particle is determined, together with its quantization condition with the electric charge. Characteristic resistances of the photon and electron are calculated and are seen to be quantized. Inductance, capacitance, impedance and time constants in a photon are calculated and the issue of communication between two perpendicularly polarized photons in a transmitter-receiver fashion addressed. Magnetic current, magnetic voltage and magnetic power are derived. Magnetic and electrical currents are seen to be perpendicularly oriented. Magnetic resistance to magnetic current and electrical resistance to electrical current are seen to be equal and in the same direction. Magnetic charge permeability speed and electrical charge permittivity speed are found to be equal in photons. Solving Maxwell’s equations for polarized photons shows that the magnetic charge is the source of magnetic field.