| The article has a lot of errors. For example: > Surface-to-surface transmission of e-shell rotation between aligned shells of atoms constitutes electricity. That is definitively not how electricity work in a wire. The electrons are moving inside the conductors. (There are some technical details, for example an electron in a crystal has a different effective mass than an isolated electron, but they are moving anyway, not rotating.) > The reason that magnetic action extends beyond the current-carrying wire’s apparent surface is that while 99.999% of the electron exists within 430 pm of the nucleus, there is a small chance of finding that surface extended to incredible distances. In fact, under Quantum Mechanics, the radial distribution function for the electron has no limit on reach. > We imagine the physical extensions of the atomic surface are responsible for the action-at-a-distance. Lateral magnetic motion of conductive rotating e-shells thus synergizes between current-aligned wires, pulling them together as shown in Figure 2 below (panels A and B). This effect decays exponentially. A few nanometers away the wave function and probability density is completely negligible, and so is the effect of the orbital shape. On the other hand, the effect of magnetism of a wire decays like 1/r and can easily be measure a few cm away (or more if the magnet is strong enough). So this part of the explanation is wrong. |