Circuit Components - Structure and Function
posted by NinpoWarriorG @ 6/24/2014 12:33:00 PM
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Tuesday, June 24, 2014
Previous Posts
- Cone Radius Progression
- The Principles of Circuit Component Design
- Magnetic Circuits
- Current Circuits and Wave Circuits
- Spin Force Equations - Cones of Force
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As has been noted previously there are only two types of circuits (wave and current) and three kinds of circuit components (force elements, control mechanisms and conductors).
Circuits and circuit components only deal with two varieties of function: 1. Wave Functions, and, 2. Current Functions.
Wave functions are elliptical in flow, resulting in information/communications applications.
Current functions are circular in flow, resulting in energy/powering applications.
ALL circuit components are based on similar principles of design, with two aspects: 1. Structure, and, 2. Function.
Structure
There are three factors in circuit component structure: 1. Conical Form, 2. Cone Circumference Progression, and, 3. Cone Layers.
All circuit components are conical in form possessing a structured cone circumference progression with cone layers that guide forces/materials along desired pathways for intended functions.
There are three wave and three current cone layers that define all circuit component functions:
Wave
1. Oscillator (Force Element)
2. Aperture (Control Mechanism)
3. Grooves (Conductor)
Current
1. Spin (Force Element)
2. Valve (Control Mechanism)
3. Contours (Conductor)
Function
There are three factors in circuit component function: 1. Spiral Flow, 2. Concentrative vs. Dissapative, and, 3. Spin Force Equations.
ALL force flows are spiral possessing either elliptical spin (waves) or circular spin (currents), that are concentrative (towards the center of a cone) or dissapative (to the periphery of a cone).
ALL force flows can be described as spinning forces/substances relative to counter-spinning forces/substances.
There are two Spin Force Equations that can describe ALL force interactions: 1. F = S / CS - Force equals Spin divided by Counter-Spin, where CS > S, and, 2. F = CS / S - Force equals Counter-Spin divided by Spin, where S > CS.
All wave or current circuits are based on these circuit component design principles regardless of force, substance or material.
All technological applications are based on circuits, whether magnetic, electronic, photonic, plasma, gaseous, liquid or solid.
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