Overview
The K-Order Framework is the main layered ontology of Real Science. It preserves readable distinctions among the major structural orders of the framework so that geometry, materials, software, and verification do not collapse into one vague layer.
Core layers
K3 — electromagnetic order
K2 — matter cadence order
K1 — constraint geometry order
K3 — electromagnetic order
K3 is the field-oriented layer of the framework. It is associated with electromagnetic structure, organized field behavior, and the upper corridor of materials such as magnetic and conductive anchors.
In the current starter ontology, K3 includes entities such as: electron, photon, and magnon.
K2 — matter cadence order
K2 is the material cadence layer of the framework. It is associated with matter participation, coupling, structural cadence, and bridge-like material roles.
In the current starter ontology, K2 includes entities such as: phonon and radnon.
K1 — constraint geometry order
K1 is the constraint and admissibility layer of the framework. It is associated with minimal structural rule, valid-state geometry, and the lowest visible order of the current simplified public ontology.
In the current starter ontology, K1 includes: metron.
Why the layers matter
The K-orders exist to preserve structured distinction.
They help keep materials interpretation readable.
They help software pages preserve explicit role separation.
They help verification remain tied to structured reference instead of vague generalization.
Starter material examples
Carbon — structural K2 backbone
Oxygen — cadence-reactive K2
Silicon — K2→K3 bridge
Iron — magnetic K3 anchor
Copper — conductive K3 anchor
Gold — stable low-noise K3 anchor
Relation to other pages
Working rule
Preserve the distinction of the layers before extending them.
Extension is allowed. Collapse is not helpful.
Development-status note
The K-Order Framework is released as developed and may be reiterated as the ontology becomes more explicit. Earlier versions remain part of the interpretive record unless explicitly deprecated.