Superphysics
The Medium of Radiance (Photons, Heat, Magnetism)
2 minutes • 224 words
Table of contents
The Medium of Radiance facilitates the dynamics of the radiant layer. It manifests as:
| Physics Name | Superphysics Name | Force | Requirements | Examples |
|---|---|---|---|---|
| Photon | mor1 | Light | 2D wide continuous channels | Glass, Still Water |
| Heat | mor2 | Heat | Large channels for agitation | Hot plasma, Cold Ice |
| Virtual Photons | mor3 | Magnetism | Tiny straight channels | Magnets, Superconductors |
To understand magnetism, which is facilitated by virtual photons as force carrier, we must understand photons first.
In Cartesian-Spinoza Physics, photons differ from electrons since they are shaped by Nature as lines, whereas electrons are shaped as spheres.
This is why the wavelength of light is obvious, whereas those of electrons are not.
This feature of light gives its abilities in reflection and refraction, making it unique among the 5 Elements.
Photons and Prisms: Refraction
In our Law of Conservation of Aether, electromagnetic (Radiant) particles are made up of 3 aether particles.
There are arranged in a photon in a line. Short Wavelengths have their aether spaced closer.
White light is made up of various wavelengths.
When light hits a glass straight, its particles pass through together.
But when it hits at an angle, the long wavelengths get separated from the short ones.
The long wavelengths can squeeze through irregular gaps more easily to continue their path.
But the short ones need to follow the material more.
The same principle applies to rainbows.
