I have had a different experience than a nuclear engineer.
When I was just out of high school I was building unlicensed radio transmitters. I had an old radio with a tuning eye. I had one transmitter that when I turned it all the radio's eye wrapped twice around. I got scared and gave it up. Who knows how much power I was putting out from that large tube. My did would be mad if I got arrested! Skip ahead a few years and there I was in college sitting in Richard Bender's electronics class. He was going over the air core transformer. I was interested. I had made these things for my radio transmitter. Richard said, The inductance = the inductance of the primary + the inductance of the secondary + a third mutual inductance. What where did this emergent inductance come from? More magnetism that came from nothing. I was upset, this would make the test harder. Magnetism is not a conserved force. Somethings it springs out of nowhere. This is a general property of all of the magnetic forces. Much later in life I realized that it was also a property of the nuclear magnetic spin orbit force. The mutual nuclear magnetic force can be, under the right conditions be 10 exp 39 power greater than the normal spin orbit force. The same property applies to the gravitomangetic force. I started picking up on this after speaking with David Noever. Nuclear physicists would say that the range of the spin orbit force is only that of the strong force. In an electrical conductor the static electrical forces balance. There is no static electrical force emerging from the conductor. Yet there it is, on its own, a strong magnetic field. The same applies to the spin orbit force. It range is an affect of the construction of the conductor. It this case its a proton conductor not an electron conductor. Frank
