At this moment I need longitudinal waves in the Maxwell Equations. They have transverse waves for they have photons, and electrons and protons which follow the Double Slit Experiment outcomes. But does a longitudinal wave follow the Double Slit? I think not, for longitudinal waves travel better in denser mediums than in nondense.
So I need the Maxwell Equations to have longitudinal waves because without them, physics would not have longitudinal waves and we know already that sound is a longitudinal wave.
So I need in the Maxwell Equations, longitudinal waves and neutrinos.
Well, in science the overview is often as important as the details. In my situation at the moment, to fathom the neutrino and its meaning in physics, I must take the large view. There are few facts about the neutrino for it is elusive and mysterious.
So what I am going to do is to define the neutrino as the most primitive particle of physics and to define it as magnetic monopoles.
So I am going to define neutrino as a primitive axiom term (or concept) as magnetic monopoles with a longitudinal wave.
In my prior post I said the Voltage of V = i*R is a longitudinal wave as a compression and rarefaction of a wave front.
So that in Faradays law with either magnetic induction or a battery in use, the voltage is a longitudinal wave of magnetic monopoles, or neutrinos. Here, magnetic monopoles in motion are neutrinos.
So in the larger view of physics and the Maxwell Equations, those equations require longitudinal waves since they derive all of physics. So we have two types of waves in physics, the double transverse wave of the photon and the longitudinal wave of the neutrino (magnetic monopoles).
Now that solution provides meaning to the extra term in the Faraday law of the magnetic current density. That term is neutrinos or magnetic monopoles in motion.
Now we need it because in the Voltage of the Faraday law in emf of a closed loop wire, the communication that a current is flowing needs to be at the speed of light. That communication is the longitudinal wave of the magnetic monopoles and it travels at the speed of light so it must be a neutrino.
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: