Dissipative System Analyser
Explore the universal sequence that all dissipative systems follow. Two operations, four regimes, sixteen positions. Validated across 24 systems in seven scientific domains at 384/384 positional matches.
The Cycle
Generative Properties
Force Mapping
24 Systems
Four Regimes — click to explore
Positions
Four kinds of knowledge — one per regime
Each regime generates its own Φ. The generative property is not uniform — each regime discovers a structurally distinct kind of knowledge through its own process. The magnitudes cannot be derived from the geometry. They can only be known through experience.
Two axes — the unique pairing
The four fundamental forces pair into two axes. Of three possible pairings, only this one produces a clean 2+2 split on all three independently measurable binary properties. This is not a model — it is the only pairing consistent with the observable physics.
The Axial Bridging Principle
Forces on the same axis relate through scale transformation (renormalisation group flow).
Forces across axes relate through symmetry group embedding (Lie algebra).
This explains why electroweak unification succeeded (EM + Weak are on the same Cross axis — symmetry embedding applies) and why grand unification failed (Strong is on the Hold axis — the correct relationship is scale transformation, not symmetry embedding).
Force ↔ Regime ↔ Generative Property
| Force | Axis | Regime | Parameter | Generative Property |
| Gravity | Hold | Potentiality | γ | Possibility |
| Strong | Hold | Construction | M | Integrity |
| Electromagnetic | Cross | Encounter | σ_gen | Discovery |
| Weak | Cross | Conservation | β | Mastery |
All 24 validated systems
Each system was mapped under strict relational definitions: each step's input must come from its predecessor's output. All 24 map at every position (384/384).