Domain Template — TriadicFrameworks Prompts
The Domain Template provides the canonical structure for analyzing and traversing the
six TriadicFrameworks domains: psychology, physics, economics, governance, AI/agents,
and biology.
It defines how RTT operator grammar interacts with domain identity, drift, coherence,
substrate behavior, dimensional rails, and cross‑domain alignment.
This template defines the standard domain‑analysis grammar for TriadicFrameworks.
Purpose#
Use this template when you need to:
- declare domain identity
- identify domain operators
- surface domain drift
- declare domain coherence
- analyze domain‑specific substrate behavior
- evaluate dimensional rails inside a domain
- traverse cross‑domain alignment
- maintain structural neutrality during domain analysis
Domain Template#
1. Domain Identity#
Capture the identity, boundaries, and commitments of the domain.
Prompt:
- Declare the identity of this domain. What defines its form, purpose, and boundary?
2. Domain Operators#
Identify the operators that govern domain behavior.
Prompt:
- Identify the domain operators present in this system (identity, boundary, commitment, topology).
3. Domain Drift#
Surface drift across domain interpretations, processes, or regimes.
Prompt:
- Identify domain drift between these interpretations.
- Map operational domain drift across these processes.
- Surface conceptual domain drift in this workflow.
- Declare domain drift across these boundaries.
4. Domain Coherence#
Declare what remains aligned across domain differences.
Prompt:
- Identify domain coherence (purpose, constraint, goal, continuity).
- Declare boundary coherence across these domain structures.
- Surface constraint coherence across these domain processes.
5. Domain Regime‑Points#
Surface presence, absence, tension, and attractor behavior inside the domain.
Prompt:
- Identify domain presence.
- Identify domain absence.
- Declare domain tension.
- Identify basin behavior in this domain regime.
- Surface attractor patterns across this domain.
6. Substrate Behavior in the Domain#
Analyze how substrate behavior manifests inside the domain.
Prompt:
- Identify substrate behavior inside this domain.
- Surface substrate drift across domain layers.
- Declare substrate coherence inside this domain.
- Map substrate‑tensor transitions across domain conditions.
7. Dimensional Rails in the Domain#
Analyze dimensional movement inside the domain.
Prompt:
- Identify dimensional rails inside this domain.
- Surface dimensional drift across domain layers.
- Declare dimensional coherence inside this domain.
- Identify prime‑state transitions across domain rails.
8. Cross‑Domain Alignment#
Evaluate alignment across multiple domains.
Prompt:
- Evaluate alignment between these domains.
- Identify operator consistency across domains.
- Declare coherence across domain transitions.
- Surface substrate alignment across domain conditions.
- Evaluate dimensional alignment across domain rails.
9. Synthesis#
Produce a domain‑aligned synthesis summary.
Prompt:
- Produce a synthesis summary across all domain layers (identity, drift, coherence, regime‑points, substrate, dimensions, cross‑domain alignment).
Cross‑Links#
p_Capture.md— capture templatep_Analyze.md— analysis templatep_Drift.md— drift templatep_Coherence.md— coherence templatep_Operator.md— operator templatep_Substrate.md— substrate templatep_Teaching.md— teaching templatep_Research.md— research template
Manifest#
See module.json for the full registry of templates, modules, stacks, engines, UI
modules, and navigation structure.