Matter

Beeng 03:01

«My Burden is the seed of all that is,
Allbeeng is My Name.»

Matter is derivative of space.

Mass is a property of Matter that expresses the amount of charge; it is the form in which space charge exists in the state of substance. In other words, mass is the same physical entity as cell charge, but realized in the emitted form of Matter.

Charge is one, with two manifestations: spatial (metric) charge remains in the cells and drives the unfolding of Space; mass charge is emitted into substance and follows its own dynamics. In essence, it is the same property, separated by its carriers.

Mass is a measure of Matter interaction. Matter interaction is proportional to mass.

Mass quantum (MQ)

Charge of a zero-dimensional SQ space cell. Equivalent to the charge quantum ChQ.

Emission (window)

Emission is the release of part of the charge from cells into the form of substance. Conditions for the emission window:

the space scale matches the scales of Matter elements in the required quantity (there is enough space to “fit”);
the state of the substance already present in space (density, pressure, temperature) and the state of the emitted charge are equivalent (compatible) for integration.

At early steps, charge exits the cells in an elementary form (size and state), while the already emitted substance exists in a primary hot and dense state. As space expands, Matter undergoes a cascade of phase transitions: elements grow larger, and temperature and density decrease. From some stage onward, such substance ceases to be scale-compatible with the elementary nature of the emitted charge—the emission window closes.

Absorption (window)

The reverse process (absorption) is associated with a drop of cell dimension below three. At D < 3, the familiar conditions for Matter existence break down: chemistry disappears, interactions collapse, and Matter cascades into ever smaller elements. When dispersion reaches an elementary scale compatible with the cells, the absorption window opens: charge integrates back into the cells.

Between these two stages, substance emission and absorption are quantum in nature, enter the cell wave function as an “emission” component, and account for vacuum “fluctuations” that do not lead to the birth of stable objects.

Density

Density is the distribution of mass in space; a property of how substance occupies volume. Density determines the phase state of Matter and the degree of time slowdown.

Motion

Only at the moment of primary release (emission) can substance be in a quasi-stationary state conventionally called rest. As space expands, there is more “room” for substance; from some stage onward, substance transitions to motion, which does not cease until substance decays at the end of evolution.

Motion is the displacement of substance in a conditional “forward” direction in space, where “forward” is set by the combined action of two factors of the gravitational component:

the slope created by mass distribution, and
dimension gradients within the gravitationally connected region of space.

See Appendix 3. Gravity in Discrete SQ Space for details.

Matter motion manifests a standard set of properties.

Inertia is the preservation of direction and pace of motion under an unchanged environment.

Momentum is a measure of the amount of motion, defined by mass and velocity.

Angular momentum is a measure of a system’s rotational motion about a chosen center.

Acceleration is the change of a body’s velocity over time. It arises under the action of force and is linked to external factors—changes in mass distribution and the emergence/change of space dimension gradients.

Causality: motion is impossible at a speed exceeding the maximum permitted for a given amount of mass (see the Limit speed).

Mass motion in space—any change of its position—causes a local restructuring of the metric: a redistribution of dimension gradients (see the Dynamic homeostasis).

Interaction

Matter interacts with Space (with the charge of the cells): it affects it and experiences a reciprocal effect.

At every moment, at every point (cell) of space, there exists the resultant of all masses acting on that point (cell). Long-range interaction propagates with inverse proportionality to distance for the given Space metric and not faster than the maximum permitted speed (see the Limit speed).

The continuous balance of interactions between Space and Matter is maintained by the dynamic homeostasis mechanism.

Dynamic homeostasis is the functional manifestation of these interactions in time: it aligns and restructures local states when the resultant changes (see the Dynamic homeostasis section).

Matter creates a slowing of time in space, proportional to the amount of mass and the speed of its motion: the greater the mass and speed, the more slowly the “clocks go” in its vicinity. More details are in the next section, Time.

Beeng 07:00

«…And there — Ere, and here — Ere,
And to all — Ere, and ever — Ere…»

Matter

Space

support me

time