Chapt15.44 Deriving Radioactivity or Weak Nuclear force purely from Maxwell Equations
Until now I never had the need to derive Radioactivity from the Maxwell Equations. But recently I learned that free neutron decay is a subset of Beta decay. So when I asked for Bubble Chamber photos to prove that the electron initiates the free neutron into decay, and not the Standard Model prediction that the neutron of its quarks udd leads the decay by the proton as initiator into uud.
So, there I was harming my eyes in trying to look for a Bubble Chamber photo that shows the electron taking the lead in the free neutron decay, when all I really needed to do is show that Beta decay is in fact proof that the electron leads and initiates the decay process.
So I need a chapter on how the Maxwell Equations derives the force of radioactivity or the Weak Nuclear force.
I need to do this because I need to show that the Maxwell Equations delivers the neutrino as a longitudinal wave composed of magnetic monopoles.
Now imagine a neutron in an unstable nucleus just about to undergo Beta decay. Which of the Maxwell Equations is involved? Well, my first choice would be the Faraday law, that the imbalanced neutrino as a bar magnet of magnetic monopoles inside the neutron is causing the electron and proton to move inside that neutron. And if those magnetic monopoles of the neutrino (probably antineutrino) is strong enough, it will have the electron come ripping out of the neutron, leaving behind a proton.
Google's archives are top-heavy in hate-spew from search-engine- bombing. Only Drexel's Math Forum has done a excellent, simple and fair archiving of AP posts for the past 15 years as seen here: