Ramifications
Importance of the Process and Its Sub-Processes A process has been provided whereby useful electromagnetic energy may be extracted from the dipole of a permanent magnet, via the giant negentropy process 26, 43 associated with the magnetic dipole. In that process, an outflow of EM energy is continuously furnished by the magnet dipole in all directions in 3-space, and the energy to the dipole is freely furnished from the time-domain of the active vacuum 1, 26, 43 . Whittaker 1 unwittingly showed...
Figure The scalar potential is a harmonic set of phase conjugate longitudinal
Note Decompose the potential between the end charges of the dipole Figure 2. The dipole is a true negative resistor. Receives enormous EM energy in complex plane similar to reactive power Transduces it into real EM energy and emits it in all directions at the speed of light The emitted EM energy forms the fields and potentials and their energy, across space, from this source dipole Basis established by E.T. Whittaker, On the Partial Differential Equations of Mathematical Physics, Math. Ann. 57,...
Figure The dipoles broken symmetry initiates a spreading giant negentropic
NONLOCAL Nondivergent This huge Heaviside component misses the circuit and is not intercepted. It is wasted. Tiny sheath Poynting component strikes surface charges and is diverged into conductors to power the circuit. Contours are in watts sq meter If interacted with a unit point static charge and the energy collected . More charge at each point will collect more watts sq meter at each point.
Nanocrystalline Flux Path And Core Material 1
Figure 17. Diagram of laboratory test prototype. Figure 20. MEG prototype potentialization sensitivity. Figure 21. COP power out versus power in , as a function of sensitivity open loop prototype . Figure 21. COP power out versus power in , as a function of sensitivity open loop prototype .