Measurement of the Magnetic Monopole Charge of the Neutrinos: Symmetric Maxwell’s Equation, Aether, Dark Energy and Quantum Mechanical Uncertainty

Experimental measurements of the monopole magnetic charge from the collection of the neutrons on Earth are performed. Due to the interference from the earth’s dipole magnetic field, it was necessary to choose a geographical location close to the equator for the experiment. Charge conservation principle in the beta decay of a neutron into a proton, an electron and a neutrino dictates that the magnetic monopole charge of a neutron must be the same as that of a neutrino. The experimental results show the magnetic monopole charge of a single neutron 1.47x10^ (-35) Weber which turned out to be the same as vacuum permittivity divided by Avogadro’s number. This result made it possible to formulate the fully symmetric version of Maxwell’s equation. The medium (Aether) for the electromagnetic wave propagation is identified as due to the randomly oriented electric fields produced by the massive number of traveling neutrinos. The random stochastic background electric field is also identified as the cause of quantum mechanical uncertainty and dark energy.