🌐 Structural Detection — Collapse‑Propagation Map (RTT/2)
TriadicFrameworks • RTT/2 • System‑Scale Collapse Geometry & Propagation Architecture#
“Collapse does not appear. Collapse travels.”#
1. Purpose of the Collapse‑Propagation Map#
The Collapse‑Propagation Map defines:
- how collapse originates
- how collapse spreads
- how collapse accelerates
- how collapse changes geometry
- how collapse crosses module boundaries
- how collapse interacts with drift, envelope, regime, and continuity
- how collapse becomes system‑scale
It is the geometric model of collapse behavior.
2. The Seven Canonical Propagation Paths#
Collapse propagates through one or more of the following paths:
- Drift‑Vector Propagation (Path A)
- Envelope‑Deformation Propagation (Path B)
- Continuity‑Layer Propagation (Path C)
- Regime‑Instability Propagation (Path D)
- Break‑Geometry Propagation (Path E)
- Cross‑Module Projection Propagation (Path F)
- Topological Propagation (Path G)
Each path has unique geometry, speed, and collapse‑risk.
3. Collapse‑Propagation Map (Canonical)#
Below is the full RTT/2 propagation map rendered as a step‑by‑step structural flow, showing how collapse travels through the system.
To make this maximally useful, I’m presenting it as a procedural propagation guide using the Step‑By‑Step Science Problem Guide template.
4. Collapse‑Propagation Packet Template#
COLLAPSE_PROPAGATION_PACKET:
origin:
primary_path:
secondary_paths:
propagation_pattern:
collapse_mode:
break_chain:
cross_module_spread:
topological_involvement:
system_scale_risk:
recommended_recovery_path:
notes:
5. Summary#
The Collapse‑Propagation Map provides:
- the full geometry of collapse travel
- the seven canonical propagation paths
- the structural flow of collapse escalation
- the diagnostic sequence for tracing collapse
- the mapping needed to select the correct recovery pathway
This is the RTT/2‑grade cartographic model of collapse behavior — the map that lets stewards see collapse as a moving structure, not a static event.