Although a great deal more detail can be explained, the Affectance Ontology for fundamental physics properties translated into contemporary physics terms are as follows;
1.) By declared definition,
Existence is that which has affect.
- a) Detectable Empiricism - We decide that something exists only when we detect that something is having affect. All of our senses function based on the affect that something else has upon them. We use equipment to increase our sensory ability, but still if nothing affects the equipment in any way, we declare that nothing was there.
b) Common Usage - In reality, people are already using the word "exist" to mean this definition. They often never think about it, but in every case, the person really means that something having existence means that it has the potential to affect something; be seen, touched, smelled, or detected in some way even if not already detected.
c) Support from Science - Science concluded long ago that in reality all existing things have at least some minuscule affect on all other things through chains of events.
d) Rational Relevance - If something has truly no affect on anything whatsoever, we really don't care if it exists in any other sense. We can propose trillions of things that might exist but don't have affect. What would be the point? It would be a waste of mind time.
2.) An affect can only stem from the potential-to-affect, PtA (to alter or to change), from another separate or distinguished affect or affects (affects upon affects).
3.) Infinite homogeneity in a field of qualia cannot exist.
- a) Absolute infinity cannot exist simply because by definition more can always be added.
b) Absolute zero is merely one divided by absolute infinity and thus cannot exist either.
4.) Due to the above, in all adjacent locations, the potential for affect cannot be infinitely identical.
5.) Because the potential to affect is not identical anywhere, actualization of affect takes place everywhere.
6.) As affect occurs between adjacent potentials, waves of affect propagate spuriously in both direction and magnitude creating an ocean of affectance noise.
7.) When multiple propagating waves of affect act upon the same point, their affects add.
8.) The rate of adding affects cannot be absolutely instantaneous.
9.) Due to that limit to the rate of adding affects, when affects merge in such a way as to require more than an infinite change rate, a maximum change rate point, MCR point, forms and as the participating affects continue to attempt adding at the same location, any additional followup propagating affects must wait for time to pass. - "
Inertia".
10.) A clump of affectance noise forms around an MCR point of inertia due to delays being extended into the immediate surrounding area and is supported only by affectance entering the volume at an equal rate as leaving it, forming a stable "
Particle" – a “standing wave of noise".
11.) When the ambient affectance density surrounding a particle increases, the particle cannot disseminate at the same rate as it is accumulating, so the particle grows to a maximum anentropic size.
12.) If the ambient affectance noise is denser on one side of a particle than the opposite, the center of the clump of noise shifts toward the more dense affectance field. The "particle" moves or migrates – "
Particle Migration or Motion".
13.) When the center of the noise shifts, the affects that were headed in the direction of motion remain within the particle longer than others.
14.) Because the affectance within the clump of noise has more affectance heading in the direction of the particle, the particle continues heading in that direction even if the surrounding affectance is returned to an even ambiance – “
Momentum”.
15.) Because each particle is building affectance and thus creating a higher density field of noise surrounding it, particles migrate toward each other while gaining momentum – “
Gravity”.
16.) When particles approach each other, they share their noise causing the smaller to become slightly larger.
17.) When the clumps of noise get too close, they unite such as to form a volume that will sustain the maximum amount of noise containing more than one center of congested noise – the "
Strong Force".
18.) When the affectance noise that forms a particle happen to be more substantially of increasing potential rather than decreasing, a "
Positive Particle" is formed, a "particle with positive
Electric Potential".
19.) Positive noise delays additional positive noise, adding to the positive noise in the area while local negative noise cancels the positive delays resulting in negative noise speeding through the area rather than being delayed – "
Particle Charge Stability".
20.) When a charged particle is in the field of noise that is associated with a close opposite charged particle, the noise within the particle that happens to be headed toward the opposing particle is partially relieved of its inertial constraint and thus moves more freely toward the opposing particle, as though slipping down hill.
21.) As the inner noise of a charged particle moves more freely in one direction, it inherently shifts the center of the noise toward the opposing particle while also establishing momentum in that same direction – "
Charged Particle Attraction".
22.) When a strongly negative wave of affectance noise encounters a strongly positive wave of affect, their merging requires that each wave change at a greater than infinite rate creating a point of inertia, MCR, and a delay in propagation for both.
23.) During the delay caused by the merging of strong opposite polarity, the particles associated with the waves continue to absorb noise of their own polarity and thus remain stable charged particles that continue to deliver strong waves.
24.) When a small negative particle approaches a larger positive particle, the smaller particle grows asymmetrically with its greater increasing noise closer to the larger positive particle.
25.) The stronger negative waves encountering the larger particle's large positive waves create many incidences of points of inertia that delay the entire smaller negative particle to the point of not allowing it to get closer to the positive before veering off to a side, orbiting the larger positive particle - "
Electron Orbitals".
26.) As a wave of affect enters a region of greater noise, getting delayed more, the trailing edge of the wave begins to catch up to the leading edge compressing the entire wave -"
Magnetic Wave".
27.) A compressed wave stores its energy potential within a smaller volume yielding a greater affect within the same propagating time frame as a non-compressed wave.
28.) Compressed waves passing into a charged particle have greater affect upon a particle causing the particle to shift more greatly into the oncoming wave – "
Magnetic Induction".
29.) A circling charged particle creates a spiraling compressed ("magnetic") wave extending outward from the center of the circle - "
Magnetic Field".
30.) The spiraling compression wave has a clockwise spiral above the flat plane of circulation and a counterclockwise spiral below.
31.) If two circling charged particles are close by, parallel, and circling in the same direction, the spirals from each causes the other to veer its orbit closer to the other – "
Magnetic Attraction".
32.) If two circling charged particles are close by, parallel, and circling in opposite directions, they each cause the other to veer its orbit away from the other – "
Magnetic Repulsion".
33.) Because the spirals extending from the circling charges have the opposite direction of spiral above from below, another circling charged particle will experience magnetic attraction on one side or magnetic repulsion on the other side – "
North and South Magnetic Polarity".