#6
ONE OF ELEMENTS FOR UNDERSTANDING ENERGY EXTRACTION from Schumann waveguide AS WELL AS ENERGY TRANSMISSION IS
POLYPHASE book about Tesla.
http://www.gutenberg.org/ebooks/39272.epub.images?session_id=634b29fc2d9110f7c01fa58c1797857b4b3f2327click on CHAPTER IV.
Modifications and Expansions of the Tesla Polyphase Systems.
Although it talks about generators it gives you understanding what is polyphase.
part of this book that interests us is
The Inventions, Researches and Writings of Nikola Tesla: With Special Reference to His Work in Polyphase Currents and High Potential Lighting
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see drawing (below)
http://www.nzdl.org/gsdlmod?e=d-00000-00---off-0envl--00-0----0-10-0---0---0direct-10---4-------0-1l--11-en-50---20-about---00-0-1-00-0--4----0-0-11-10-0utfZz-8-00&cl=CL1.4&d=HASHa4422b7fbbfa2350e1c317.3>=2The distribution of electrical power by means of terrestrial cavity resonator modes
James F. Corum, Ph.D *
Associate Professor
Department of Electrical Engineering
West Virginia University
MORGANTOWN West Virginia 26506-6101
United States of America * now: Senior Research Scientist
Battelle Memorial Institute
505 King Avenue
COLUMBUS, Ohio 43201-2693
United States of America
The reason that I brought this article to your attention is that in 80ties he took work listed at article right below
of:
High altitude Project Tesla transmitter, Leadville, Colorado
A quarter-wave coaxial cavity as a power processing plant
Mark Nash, James Smith, Robert Craven 339 Engineering Sciences Building
West Virginia University
MORGANTOWN, West Virginia 26506
United States of America
and implemented to his patent applications. By means of patent laws known knowledge can not be patented.
So as much as we may respect Mr.Corum he may lose his patent rights because of that the very fundamental part of his intellectual property.
Please read it and try to understand itPicture #7
Resonance The phenomenon of the resonant rise on a transmission line, and in any cavity resonator, is physically due to coherent reflection of forward and backward
traveling waves occurring at critically spaced terminating surfaces.
The occurrence of standing waves, or stationary field distributions, is common to all
resonators and is indeed the mechanism by which energy storage and voltage, current and impedance transformation are realized in distributed circuits. The simple field distributions of most cavity resonators share great qualitative, and indeed some analytic similarities with the standing waves present on
transmission line resonators.
A thorough conceptual appreciation of the phenomenon of resonant rise may be obtained from consideration of a vector
diagram representation of the incident (E1) and reflected (E2) waves on a resonant length of line. Figure 2 shows the familiar sinusoidal voltage
distribution associated with the open circuited lossless resonant line and the resulting phases of the two waves at different points in the distribution (2).
Under lossless conditions the load reflection coefficient is unity with zero phase angle and the load impedance is infinite. As a result, the incident and
reflected waves have equal magnitudes at the load, and the reflection occurs such that the resulting phases of the two waves are also the same.
As the figure demonstrates, this phenomenon yields a terminal point voltage that is the arithmetic sum of the incident and reflected components.
Wesley
Legal note: this is expression of may personal opinion only according to constitution of
USA