Massless Displacement Current Is Freely Available From Any Source

Massless Displacement Current Is Freely Available From Any Source
The principle embodied in the invention is that one can extract all the free EM energy one
wishes, from any electrical power source, as long as it is extracted via massless
displacement current and not by electron mass flow current. [Ref 8] And one can freely
collect this extracted energy from a source into an ordinary capacitor if one does it
correctly, because one can charge the capacitor via massless displacement current without
expending any appreciable work inside the source to dissipate its dipolar separation of
charges.
Every Electrical Source of Potential Is Already a Free Energy Source
We thus advance a revolutionary concept: all present power systems already utilize free
energy source-antennas. However, the standard two-wire closed circuitry diabolically
utilizes one-half the total free energy extracted by the source-antenna from the vacuum, to
perform work inside the source-antenna to dissipate its dipolarity and hence to dissipate
the source-antenna (i.e. the receiver) itself.
The source already acts as a "dipolar antenna" to continually receive "scalar potential"
current d /dl (massless displacement current) from the vacuum. [Ref 9] Previously
scientists and engineers have simply ignored this special massless EM energy influx. For
load-free (i.e., mass-current-free) conditions, (d /dl) is continually received from the
vacuum by any dipole (i.e., by any dipolar sou ce-as-an-antenna), and the flowing energy
is continually exchanged back and forth between the vacuum and the dipole.
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This free energy exchange with the vacuum is also true of any two points in our circuit that
possess an open-circuit voltage or potential difference between them. Two such points act
as a dipole. Free energy dipolar antenna sources are everywhere; we just have to learn how
to break the symmetry in their energy flux exchange with the vacuum, collect some of the
freely flowing influx, and distribute that collected excess energy to an isolated load to
separately power it.
In other words, we simply have to implement circuitry that operates analogous to the
standard heat pump cycle.