8-1 - Propagating "Resonant Action" By Voltage Tickling of State Space

Voltage Wave-Guides

Propagating

"Resonant Action"

By Voltage Tickling of State Space

 

     The "mode-of-operability" of determining the "operational parameters" of releasing thermal explosive
 energy (gtnt) (flame force-yield) in direct relationship to thermal heat-yield (flame temperature) beyond
 applied voltage pulse-frequency of opposite polarity intensity (farthest from state of equilibrium) is
 effectuated by simply changing or altering the physical configuration of the "Voltage Wave-guides"
 (Resonant Cavity structure of design) in direct reference to applied ever changing Unipolar Voltage
 Amplitude Pulse-Wave (see Figure 6-3 of WFC memo 425) to bring-on and propagate a predetermine flame-
density of projection by preselectingpre-selecting the "State Space" in which the injected and incoming water bath is
 subjected to ... performing work of instantly converting water into thermal explosive energy (gtnt) on demand
.demand... using water as fuel. The established "State Space" is governed by either one of two variables being of
 either "Static"Static" or "Dynamic"Dynamic" state of condition.

Dynamic State condition is a variable of condition that is
 changing all the time;time; whereas, Static variable of condition is set at some point but then never changes.changes.

     A
 point in "State Space" represents the state of the flame-system at a given time and is either in an synchronized
 and synchrony movement. Interaction of either " Static State Space"Space" or "Dynamic State Space"Space" in similar
 state of conditions or opposite conditions of "states" allows "Energy-Vectoring"Vectoring" of the hydrogen flame-front
 or flame projection of trajectory ... establishing an interrelationship on how to design retrofit the water fuel
injector ®injector® to any existing type of energy consuming device.

     Static variables condition is established when the resultant gas pressure is held constant with the never
never-changing static electrical stress of opposite polarity of Voltage Pulse-Wave (64) of Figure (3-20) of WFC
 memo 422DA.

Dynamic variable conditions existsexist when both the applied electrical stress of opposite
 polarity and dynamic gas pressure are continually changing in a preset time frame.frame. Where, Combinatorial
variables variable conditions is a "State Space" function of subjecting constant static gas pressure to an ever
ever-changing electrical stress of opposite polarity (RR'-SS').

And, Differential dynamic variables condition of
"of"State Space"Space" is accomplished whenever changing dynamic electrical stress of opposite polarity (RR'-SS')
 encounters a negative (decrease/drop-in) dynamic gas pressure.pressure. In each and all "Space State" of changes,
 the combustible gas atoms of water is/are "Electrically Stress"Stressed" under "different"different" pressure levels to bring-on
 the triggering point of thermally igniting the combustible gases of water beyond or away from "Stable State"
 of Equilibrium.Equilibrium.

Voltage Tickling of State Space under "Resonant Electrical Stress"Stress" without amp influxing
 while "Tuning-ln" to the dielectric properties of water is herein referred to in this WFC Tech-manual as
 "Resonant Action.Action."

Traveling Voltage Wave-Guides

     The formation of tubular Traveling Voltage Wave-guide (570a) of Figure (7-12) (WFC memo
426) as to (770) of Figure (8-1) is physically formed when positive electrical voltage surface (661E9)
and negative electrical voltage surface (671E 10) are placed in parallel space relationship to form
voltage surfaces (E91E1O) about an cylindrical axis of rotation having space-gap (35) there