 |
KINESIS |
|
| |
The Kinesis primus dia state: |
|
| |
Kinesis |
• |
All objects in motion may be expressed in Kinesis- higher axiomatics |
• |
Simple axiom resolve themselves to describe both simple and complex systems. |
|
|
|
| |
Simple kinetic axioms |
• |
All objects in motion may be expressed in Kinesis- higher axiomatics |
• |
Simple axiom resolve themselves to describe both simple and complex systems. |
|
|
|
| |
Motion |
• |
Existence is awareness (UCA) in motion |
• |
Existence is awareness in motion (as form) in motion. |
• |
Existence is specialized motion (structural as form), (harmonic as vibration in form) and velocity (movement in form). |
• |
All motion is relative. The total motion of an object is relative to its type and structural relationships. |
• |
All motion of an object is conserved. An object may not travel faster than its fastest rate. |
• |
All motion is relative. |
• |
All motion is unique. |
• |
All motion is similar in terms of common types of objects and patterns of motion. |
|
|
|
| |
Paradox of motion |
• |
The sum of the whole motion of a form is greater than the parts that make it. |
|
|
|
| |
Property of motion |
• |
All objects share the property of motion and share common characteristics inherited from the smallest particles that create the form. |
|
|
|
| |
Kinesis |
• |
Kinesis is the description and understanding of motion.
|
• |
There are only three types of kinesis (motion) kinetic, structural and harmonic.
-Kinetic is motion in form expressed as the free velocity of an object;
-Structural.kinesis is motion in form expressed as the structural association
with other like and larger objects;
- Harmonic.kinesis is motion within form expressed as vibration and spin. |
|
|
|
| |
Energis |
• |
Energis is the measure of aggregated motion of all particles in motion to create mass (accumulative kinesis).
|
• |
There are only three types of energis (motion) kinetic, structural and harmonic.
-Kinetic is motion in form expressed as the free velocity of an object;
-Structural.energis is motion in form expressed as the structural association
with other like and larger objects;
- Harmonic.energis is motion within form expressed as vibration and spin.
|
|
|
|
| |
Mass |
• |
Mass is equal to the number of benchmark objects by their like accumulative Kinesis (kinetic, structural and harmonic). |
• |
The greater the geometric structural integrity (harmony) of benchmark objects, the greater structural kinesis, the greater the mass, the greater its energis. |
• |
Mass is a measure of the tendency of a body (of objects) to resist changes (dissonance) in its state of kinetic and harmonic motion. |
• |
All individual objects smaller than or equal to up-quarks that are not up-quarks have no measurable mass. |
• |
This boundary exists and is the kinetic-mass boundary. |
|
|
|
| |
Force |
• |
No independent non-object exists within the universe capable of physically influencing matter. Only matter can influence matter. No forces exist. |
• |
All phenomena observed as the apparent interaction of forces is the exclusive interaction of only matter, its attributes and motion. |
• |
A fortis is an aggregate feature of all structures of matter that has the capacity to produce a change in another structure behaviour, in terms of make-up and rate of motion. A unit of measured fortis is called an ergo. |
• |
All objects of matter possess three fortis in varying degrees of strength derived from each and every Unita possessing self-awareness of form:
Creation- all matter wishes to create greater (and therefore more complex) form;
Attraction- all matter has relative attractiveness to other forms of matter by virtue of the spin configuration of its smallest pieces of matter, built up to an aggregate spin;
Repulsion- all matter has relative repulsiveness to other forms of matter by virtue of the spin configuration of its smallest pieces of matter, built up to an aggregate spin;
|
|
|
|
| |
Fortis of harmonic attraction |
• |
Matter vibrating in unison, or harmonic ratio, is mutually attracted to forming closer bonds. |
|
|
|
| |
Fortis of dissonant repulsion |
• |
Matter vibrating in discord is mutually repelled
|
|
|
|
| |
Volume |
• |
Volume is the measure of the perceived amount of space a particular structure takes up. |
• |
Volume is relative as an object may be said to have perceived volume without actually constituting stationary matter in each compartment of its space. |
• |
The measure of volume is always changing as the real and perceived volume of matter and space changes. |
• |
Size is equal to the volume of space taken up by a certain number of benchmark objects, according to their configuration. |
|
|
|
| |
Aggregate motion |
• |
Matter of like spin create greater forms of matter. |
• |
Groups of like particles in closer form modify their motion to be in relative harmony with other particles. This may be defined as aggregate motion. |
• |
The harmonic pitch of vibration of the form is a multiple of the pitch of vibration of smaller objects within its form. |
• |
So long as the bonds retaining form are greater than the fortis of separation, aggregate motion will adjust and retain unison within the form |
|
|
|
| |
Multi-model motion system |
• |
No perfect vacuum exists whereby less than three objects are interacting. |
• |
All particles at all levels of matter are influenced in their motion by the unique proximity of similar and different matter. |
• |
All complex models of the effects of particle motion can be defined by three or more object models. |
|
|
|
| |
Density |
• |
Density is the number of particles (Mass) in a given volume. |
• |
Densis is the number of particles (Mass), their structure and state in a given volume. |
• |
Densis is a superior concept to density as densis enables a greater scope of description of the core attributes of matter than density. |
• |
Particles with the same Mass, but with superior structure tend towards a smaller given volume and therefore densis. |
• |
Particles with the same Mass, but with inferior structure tend towards a greater given volume and therefore lower densis. |
• |
Densis is a measure of kinesis in that the greater the density, the lower the kinetic.energis and the higher the harmonic.energis and structural.energis. |
|
|
|
| |
Kinetic transfer |
• |
All kinesis (motion) is transferable from one type to another. |
• |
All kinetic transfer is relative to the states of kinesis (harmonic, structural and velocity) of the objects at the time and position. |
• |
All kinetic transfer is resistive to change is dissonant, balanced to change is harmonic and dynamic to change is dynamic. |
• |
The conversion of motion from kinetic.energis to harmonic.energis (frequency/spin) in an isolated system never increases unless external intervention occurs. |
• |
The rate of transfer of kinetic.energis from one object to another is directly proportional to the size of the applying mass and inversely proportional to the reacting mass of the other object. |
• |
In a simple two object model, the relative kinetic result is always balanced as equal and opposite action and reaction. |
|
|
|
| |
Kinetic-Mass Paradox |
• |
The smaller an object is to a benchmark object (e.g. proton), the greater its overall accumulative kinesis. The smallest of objects (unita) have a accumulative kinesis approaching infinity. |
• |
The larger an object is to a benchmark object (e.g. proton), the greater its overall accumulative kinesis. The largest of objects (sub universes) have an accumulative kinesis approaching infinity. |
• |
This is called the kinetic-mass paradox. |
|
|
|
| |
Kinetic-Energis Mass Limit |
• |
The maximum potential rate of kinetic.energis of an object (e.g. proton) is limited to the maximum rate of kinetic.energis (velocity) of its relative benchmark object (e.g. photon). |
|
|
|
| |
Kinetic result |
• |
A relative kinetic.result will always be a relative balance of all energis (motion). |
• |
The degree to which one or more objects affect the kinetic energis of other objects is always relative and is determined by the degree of common characteristics, the structure of each object set and their initial harmonic state. |
• |
Relativity of kinetic.result is such that an input of less kinetic.energis of a particular type of particle will produce a different result to a different type or mix of particles. |
• |
A resistant relative kinetic.result is where the total output of kinetic.energis is less than total input. |
• |
A balanced relative kinetic.result is where the total output of kinetic.energis balances the total input of kinetic.energis |
• |
A dynamic relative kinetic.result is where the total output of kinetic.energis is greater than the total input of kinetic.energis |
|
|
|
| |
Kinetic harmonic ratio |
• |
The closer objects come in terms of distance, the greater their harmonic kinesis and the slower their velocity. |
• |
The more distant objects separate, the lower their harmonic kinesis and the greater their individual velocity. |
• |
All objects in the universe behave in this same way when interacting with other objects. This is called the Kinetic-Harmonic Ratio. |
|
|
|
| |
Unique harmonic ratio |
• |
The harmonic motion of an object may be defined as its unique harmonic ratio constructed from the harmonic motion of all its components. This may be expressed as a wave model. |
• |
The harmonic motion (spin/vibration) of all objects of similar structure are the same. |
• |
The harmonic ratio between different types of matter sharing similar characteristics may be defined in ratios, or harmonics.
|
|
|
|
| |
Harmonic-volume boundary |
• |
The smaller the volume of an object to its benchmark object (eg proton), the greater its harmonic kinesis. The smallest of objects (unita) have a harmonic kinesis approaching infinity and infinitely small volume. |
• |
The larger the volume of an object to its benchmark object (eg proton), the greater its overall harmonic kinesis. The largest of objects (sub universes) have a harmonic kinesis approaching infinity and infinitely large volume. |
• |
This is called the harmonic-volume paradox |
|
|
|
| |
|
|
| |
|
| |
Copyright © 2010 UCADIA. All rights reserved.
|
