Cone Radius Progression
posted by NinpoWarriorG @ 5/11/2014 04:36:00 PM
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Sunday, May 11, 2014
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Cone Radius Progression
Technologies consist of circuits, which are composed of components.
The limits of circuit components are defined by the following two cone radius progressions: 1. F = CS / S » F = S / CS - Implosive to Explosive, and, 2. F = S / CS » F = CS / S - Explosive to Implosive.
These two equations describe all force interactions as being due to spin forces relative to counter-spin forces. The two possible force interactions are one in which spin is greater than counter-spin - F = CS / S - and the other where counter-spin is greater than spin - F = S / CS.
The two cone force progressions provide two options for circuit component design: 1. Force Concentration, and, 2. Force Dissipation.
All circuit components, whether they are generators, regulators or carriers of wave or of current functions are defined by the limits of the two cone radius progressions. Any circuit component must be designed with a conical form and with a spiral function.
Three examples:
1. Nail - Conical form lacking spiral function.
2. Spring - Spiral function lacking conical form.
3. Screw - Conical form possessing spiral function.
Not only must a circuit component possess BOTH characteristics - 1. Conical Form, and 2. Spiral Function - but it must also be designed according to the cone radius progressions to effectively conduct forces-materials regardless of function.
The same principles hold whether the function is in the flow of waves or in the circulation of currents. It does not matter if the circuit component is a Force Element, a Conductor or a Control Mechanism.
These principles govern the design of all circuit components for all technologies, at all scales.
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