I was unable to post through Blogger so am posting as a Comment.
All technologies are based on two types of circuits: 1. Current Circuits, and, 2. Wave Circuits.
All circuits consist of three components: 1. Force Element(s), 2. Control Mechanism(s), and, 3. Conductor(s).
A Current Circuit can be broken down into three parts:
1. A Spin-Based Force Element which is a Current Generator.
2. A Flow-Based Control Mechanism which is a Current Regulator.
3. A Material-Based Conductor which is a Current Carrier.
A Wave Circuit can be broken down into three parts:
1. An Oscillation-Based Force Element which is a Wave Generator.
2. A Modulation-Based Control Mechanism which is a Wave Regulator.
3. A Frequency-Based Conductor which is a Wave Carrier.
All technological applications and specific functionalities are based on these two types of circuits: Current Circuits and Wave Circuits. A Current Circuit is an Energy or Power Circuit and a Wave Circuit is an Information or Communications Circuit.
Many of the inefficiencies in machines, engines and devices lies in using the wrong type of circuit for intended specific function.
The primary factor in differentiating current circuits from wave circuits is through the type of spin, whether circular or elliptical.
All forces are based on spin with only two types of spin and two types of forces: 1. Circular (current), and, 2. Elliptical (wave).
Current circuits encompass an entire class of technologies that could be called Flowtronics because they entail dealing with magnetic, electric, photonic, plasmic, gaseous, liquid and solid circular spin current phenomena.
Wave circuits encompass an entire class of technologies that could be called Wavetronics because they entail dealing with magnetic, electric, photonic, plasmic, gaseous, liquid and solid elliptical spin wave phenomena.
The form of spin defines the function, whether circular spin which produces current for energy applications or elliptical spin which produces waves for information applications.
The simplest description of what a wave circuit is and what a current circuit is consists of the following two definitions:
1. An information or wave circuit transmits an elliptical wave function between two or more points,
and,
2. An energy or current circuit conducts a circular current function between two or more points.
In order to understand wave and current functions it is necessary to know three basic principles:
1. Spin Defines Force - Spin can be clockwise (CW) or counter-clockwise (CCW), as well as elliptical or circular,
2. Form Defines Function - Elliptical spin produces wave functions and circular spin generates current functions. Likewise, clockwise (CW) and counter-clockwise (CCW) spins generate distinct force flows, one concentrative (syntropy) and the other radiative (entropy),
and,
3. Dimensions Determine Frequency - Each frequency has distinct properties relative to all other frequencies and it is the differential between two separate frequencies that generates function (Between-ness, Richard Rose).
Not only are these principles relevant to all types of technology - whether information applications or energy applications - but they also describe all organic processes.
The key to mapping organic systems lies in understanding the fundamental magnetic structures and the physics operating within these magnetic structures. What I have called "The Magnetome Project" describes human magnetism or the magnetic equivalent of the genome. What I have called the "Physics of Psychology" describes the basic psychological processes of human beings that are governed by magnetic spin structures.
In order to most accurately map out these forces, structures and functions of the human psyche, better - meaning faster - imaging technologies are required. However, there is a simple way to conceptualize these structures and it entails three ideas:
1. Wave Circuits vs. Current Circuits - Every structure in the human system can be defined as either a wave circuit or as a current circuit.
2. Circuit Components - Each circuit whether wave circuit or current circuit is composed of three components: a.) Spin Generator (elliptical or circular), b.) Conductor (wave or current), and, c.) Control Mechanism (aperture or valve).
3. Wave Function vs. Current Function - Wave functions transmit information through elliptical spin and current functions conduct energy through circular spin.
The entire human system can be defined by its magnetic, electronic, photonic, plasma, gaseous, liquid and solid wave circuits and current circuits.
The key to understanding all technologies and organic processes lies in recognizing that Spin Structures govern all functions. A Spin Structure is composed of combinations of two or more circuits, whether Wave Circuit(s) or Current Circuit(s).
Each type of circuit has its own form and function, thus Wave Circuits propagate wave functions through elliptical rotation and Current Circuits conduct current functions through circular rotation.
There are eight basic Spin Structures with clearly defined and distinct properties, particularities and relationships:
1. Wave Circuit Inside Current Circuit - UFO's.
2. Wave Circuit Outside Current Circuit - Piston.
3. Current Circuit Inside Wave Circuit - Rocket, Jet, Laser.
In technology design the most important elements are the conductors. It is the conductors - whether wave or current - that faithfully transmit or broadcast energy or information over distances.
In the case of wave conduction R > P (Range > Power), just as with current conduction P > R (Power > Range). This is an important distinction to recognize but it is also true that both wave and current functions may be conducted over distances in relatively similar fashions.
It may be assumed that a radio wave is different than a laser but they in fact share a commonality: neither possesses a conductor! This explains why each of these particular functions collapses so readily.
What is the correct way to build a conductor? First, there are two kinds of conductors: 1. Wave Conductors, and, 2. Current Conductors.
Each type of conductor has distinct properties, with elliptical spin that is centrifugal being characteristic of wave conductors and circular spin that is centripetal being characteristic of current conductors.
This means that the design of fiber optics cables is correct for light current conduction because it is centripetal in design but that copper electrical wires are inappropriate for electrical conduction given that they are centrifugal in function. In other words, copper electrical wires should be redesigned to be more like fiber optic cables to most efficiently conduct and/or store electricity!
As far as transmitting waves along a conductor there seems to be two things to consider: 1. Wave Conduction Medium, and, 2. Wave Grooves. A wave is generally transmitted most efficiently in the proper medium along with the waveguides at the right frequency!
Can currents be transmitted wirelessly? Yes, but only over short distances. Can waves be broadcast faithfully over distances? Yes, but only with the right frequency of waveguides at the correct intervals of distance.
6 Comments:
I was unable to post through Blogger so am posting as a Comment.
All technologies are based on two types of circuits: 1. Current Circuits, and, 2. Wave Circuits.
All circuits consist of three components: 1. Force Element(s), 2. Control Mechanism(s), and, 3. Conductor(s).
A Current Circuit can be broken down into three parts:
1. A Spin-Based Force Element which is a Current Generator.
2. A Flow-Based Control Mechanism which is a Current Regulator.
3. A Material-Based Conductor which is a Current Carrier.
A Wave Circuit can be broken down into three parts:
1. An Oscillation-Based Force Element which is a Wave Generator.
2. A Modulation-Based Control Mechanism which is a Wave Regulator.
3. A Frequency-Based Conductor which is a Wave Carrier.
All technological applications and specific functionalities are based on these two types of circuits: Current Circuits and Wave Circuits. A Current Circuit is an Energy or Power Circuit and a Wave Circuit is an Information or Communications Circuit.
Many of the inefficiencies in machines, engines and devices lies in using the wrong type of circuit for intended specific function.
NinpoWarriorG
The primary factor in differentiating current circuits from wave circuits is through the type of spin, whether circular or elliptical.
All forces are based on spin with only two types of spin and two types of forces: 1. Circular (current), and, 2. Elliptical (wave).
Current circuits encompass an entire class of technologies that could be called Flowtronics because they entail dealing with magnetic, electric, photonic, plasmic, gaseous, liquid and solid circular spin current phenomena.
Wave circuits encompass an entire class of technologies that could be called Wavetronics because they entail dealing with magnetic, electric, photonic, plasmic, gaseous, liquid and solid elliptical spin wave phenomena.
The form of spin defines the function, whether circular spin which produces current for energy applications or elliptical spin which produces waves for information applications.
The simplest description of what a wave circuit is and what a current circuit is consists of the following two definitions:
1. An information or wave circuit transmits an elliptical wave function between two or more points,
and,
2. An energy or current circuit conducts a circular current function between two or more points.
In order to understand wave and current functions it is necessary to know three basic principles:
1. Spin Defines Force - Spin can be clockwise (CW) or counter-clockwise (CCW), as well as elliptical or circular,
2. Form Defines Function - Elliptical spin produces wave functions and circular spin generates current functions. Likewise, clockwise (CW) and counter-clockwise (CCW) spins generate distinct force flows, one concentrative (syntropy) and the other radiative (entropy),
and,
3. Dimensions Determine Frequency - Each frequency has distinct properties relative to all other frequencies and it is the differential between two separate frequencies that generates function (Between-ness, Richard Rose).
Not only are these principles relevant to all types of technology - whether information applications or energy applications - but they also describe all organic processes.
The key to mapping organic systems lies in understanding the fundamental magnetic structures and the physics operating within these magnetic structures. What I have called "The Magnetome Project" describes human magnetism or the magnetic equivalent of the genome. What I have called the "Physics of Psychology" describes the basic psychological processes of human beings that are governed by magnetic spin structures.
In order to most accurately map out these forces, structures and functions of the human psyche, better - meaning faster - imaging technologies are required. However, there is a simple way to conceptualize these structures and it entails three ideas:
1. Wave Circuits vs. Current Circuits - Every structure in the human system can be defined as either a wave circuit or as a current circuit.
2. Circuit Components - Each circuit whether wave circuit or current circuit is composed of three components: a.) Spin Generator (elliptical or circular), b.) Conductor (wave or current), and, c.) Control Mechanism (aperture or valve).
3. Wave Function vs. Current Function - Wave functions transmit information through elliptical spin and current functions conduct energy through circular spin.
The entire human system can be defined by its magnetic, electronic, photonic, plasma, gaseous, liquid and solid wave circuits and current circuits.
Thanks,
G.
Spin Structures
The key to understanding all technologies and organic processes lies in recognizing that Spin Structures govern all functions. A Spin Structure is composed of combinations of two or more circuits, whether Wave Circuit(s) or Current Circuit(s).
Each type of circuit has its own form and function, thus Wave Circuits propagate wave functions through elliptical rotation and Current Circuits conduct current functions through circular rotation.
There are eight basic Spin Structures with clearly defined and distinct properties, particularities and relationships:
1. Wave Circuit Inside Current Circuit - UFO's.
2. Wave Circuit Outside Current Circuit - Piston.
3. Current Circuit Inside Wave Circuit - Rocket, Jet, Laser.
4. Current Circuit Outside Wave Circuit - Airplane, Helicopter, Motorboat, Automobile.
5. Wave Circuit Outside Wave Circuit - Maglev.
6. Wave Circuit Inside Wave Circuit - Beam.
7. Current Circuit Outside Current Circuit - Gears.
8. Current Circuit Inside Current Circuit - Wheels.
Thanks,
G.
Wave Conductors and Current Conductors
In technology design the most important elements are the conductors. It is the conductors - whether wave or current - that faithfully transmit or broadcast energy or information over distances.
In the case of wave conduction R > P (Range > Power), just as with current conduction P > R (Power > Range). This is an important distinction to recognize but it is also true that both wave and current functions may be conducted over distances in relatively similar fashions.
It may be assumed that a radio wave is different than a laser but they in fact share a commonality: neither possesses a conductor! This explains why each of these particular functions collapses so readily.
What is the correct way to build a conductor? First, there are two kinds of conductors: 1. Wave Conductors, and, 2. Current Conductors.
Each type of conductor has distinct properties, with elliptical spin that is centrifugal being characteristic of wave conductors and circular spin that is centripetal being characteristic of current conductors.
This means that the design of fiber optics cables is correct for light current conduction because it is centripetal in design but that copper electrical wires are inappropriate for electrical conduction given that they are centrifugal in function. In other words, copper electrical wires should be redesigned to be more like fiber optic cables to most efficiently conduct and/or store electricity!
As far as transmitting waves along a conductor there seems to be two things to consider: 1. Wave Conduction Medium, and, 2. Wave Grooves. A wave is generally transmitted most efficiently in the proper medium along with the waveguides at the right frequency!
Can currents be transmitted wirelessly? Yes, but only over short distances. Can waves be broadcast faithfully over distances? Yes, but only with the right frequency of waveguides at the correct intervals of distance.
Thanks,
G.
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