Superphysics
The Quantum of Spacetime
4 minutes • 693 words
Table of contents
Chapter 4 explained that the main substance of the Spatial layer is the rotating vortex commonly known as black holes or quasars. Other substances are time and space.
These black holes are made up of quanta called quanta of spacetime (qost). These are the 2nd Element in Cartesian Physics.
The quanta of the spatial layer are called:
- Quantum of Spacetime or Qosts
Qosts manifest invisibly as spacetime particles, the smallest of which are of the Planck length.
- Quantum of Timespace or Qots'
Qosts manifest invisibly as timespan perceptions, the smallest of which are Planck time.
Both qosts and qots’ have the following properties:
- Vortex energy quantity
- Vortex energy quality
- Vortex rotation direction
Qosts are speed changers while Qots are shape changers:
There might be 2 kinds of particles:
- Shape-changers bend themselves in various ways and change their shapes.
- Speed-changers change their speed to occupy space accurately. These 2 jointly fit together and occupy all the space.
The quanta or smallest essence for the Spatial Layer are:
| Sublayer | Quanta | Examples |
|---|---|---|
| Upper | Galactic Quantum of Spacetime Qost (also Quantum of Timespace Qots) | Galactic Vortices |
| Middle | Non-galactic Qost | Stellar and Planetary Vortices |
| Lower | Material Qosts | Subatomic Vortices |
Since there is nothing static in the spatial layer, then a most3 (gravity) can convert to qosts and vice versa. This leads to:
- Galactic gravity from a rotating qost1
- Stellar or Planetary gravity from a rotating qost2
- Centrifugal and centripetal forces from a rotating material object qost3
Why are Galaxies both Qost and Qots?
We refer to galaxies as qosts when their nature is confined to a single universe or reality.
We refer to them as qots when their nature is compared to those of other universes or realities.
Since the current sciences have no knowledge of the properties of other universes or realities, then we will refer to them as qosts. But after humans learn how to teleport to other galaxies then they will be referred to as qots.
Like qoas (monads), qosts are above the Radiant Layer (Electromagnetism). This makes them likewise invisible and not tangible. For example, you see that there is a space between you and your desk, but you cannot see the properties of that space.
In ancient natural philosophy, this was called the metaphysical ‘Air’ Element that filled all of physical existence, preventing any Void in Nature.
Properties of Qosts
Both qosts and mosts are made up of 4 aether particles that are flat, except for aetherspace particles which are linear and not flat.
Like the aethereal layer, it is above the radiant layer which facilitates sight and touch, and so it is not visible nor tangible.
Unlike the Material Layer, it is easily divisible, giving it fluid and wave-properties.
In terms of the 3 influences or gunas, qosts can be classified into:
| Sublayer | Qost Type |
|---|---|
| Upper | The center of galaxies or quasars |
| Middle | The center of stars or planets |
| Lower | The center of rotating material objects |
Detection of Qosts
The properties of qosts are detected through the reaction of the lower layers to it. This can be done through passive observation.
For example, we know that there is a black hole in the center of our galaxy because of how the visible radiant stars go around it.
- Here, the Radiant Layer exposes a stellar qost of the Spatial Layer
Likewise, you see the space between you and the desk because of the existence of your material body and the material desk.
- Here, the Material Layer exposes the qosts around you.
Another example is the rotation of material objects around their axis, like a top or gyroscope. This makes it seem to defy gravity by standing upright.
Detection of Qots’
The properties of qots’ are detected through the reaction of the body itself (the one with the qots). This can also be done by passive observation.
However, the best method is to do active observation through probing.
