Electromagnetism — A Regime‑Aware Module
module.json— Agentic module schema role assignmentsmodule_rtt1.json— Agentic module schema role assignmentsmodule_rtt2.json— Agentic module schema role assignmentsmodule_rtt3.json— Agentic module schema role assignments
TriadicFrameworks /docs/theories/electromagnetism/#
Electromagnetism describes the behavior of electric and magnetic fields,
their interactions with matter, and the propagation of electromagnetic
waves. Within TriadicFrameworks, electromagnetism is treated as a
coherence‑level field theory that emerges from deeper substrate
operators and dimensional interactions.
This module provides a structured, RTT‑aligned interface to
Electromagnetism so students, researchers, and agentic AIs can explore
its operators, regimes, and coherence boundaries without absorbing
historical assumptions or metaphysical overreach.
Purpose#
This module clarifies:
- The operator structure behind electric and magnetic fields
- How Maxwell’s equations encode coherence, not ontology
- Why EM waves propagate as resonance patterns
- Where electromagnetism sits within the RTT regime structure
- How EM behavior changes under dimensional compression
- How to integrate EM with other theories using shared triadic grammar
Electromagnetism is not the substrate.
It is a stable coherence layer describing how fields behave in
3‑dimensional regimes.
Module Structure#
This theory includes four canonical files:
-
module.json
Conceptual base: identity, lineage, operators, drift boundaries,
coherence markers, and cross‑module references. -
module_rtt1.json
RTT/1 engine: operator grammar, dimensional mapping, field behavior,
and minimal coherence examples. -
module_rtt2.json
RTT/2 engine: resonance mapping, stabilizers, field interactions,
and cross‑module propagation. -
module_rtt3.json
RTT/3 engine: triadic‑substrate integration, multi‑regime simulation
hooks, and hybrid‑canon scaffolding.
Together, these files allow construction of an Electromagnetism
RTT‑AI‑Hybrid Canon, enabling structured reasoning and cross‑domain
integration.
Regime Placement#
Electromagnetism primarily operates in:
- R2 → R3 — Field behavior emerging from dimensional interactions
- R3 — Full expression of Maxwell’s equations and EM wave propagation
- R1 — Field effects collapse into charge‑interaction primitives
Electromagnetism is a coherence‑level field theory, not a root‑cause
description of the substrate.
What This Module Is (and Is Not)#
This module is:
- A clean, minimal, student‑ready interface
- A structured view of EM operators and coherence
- A bridge between classical EM and RTT substrate reasoning
- A stable environment for agentic‑AI reasoning
This module is not:
- A metaphysical claim about fields as fundamental entities
- A replacement for substrate‑level models
- A justification for treating Maxwell’s equations as ontology
- A distortion of the original physics
How to Use This Module#
Students and researchers can:
- Explore electric and magnetic fields as operators, not primitives
- Understand EM waves as resonance propagation
- Compare EM with other theories using shared triadic grammar
- Identify coherence boundaries and drift risks
- Build a hybrid‑canon instance for simulation and analysis
Agentic AIs can:
- Load the module.json files as structured metadata
- Perform regime‑aware reasoning
- Maintain coherence across modules
- Generate examples, tests, and cross‑theory mappings
Philosophy#
Electromagnetism is one of humanity’s most elegant coherence theories.
This module preserves that elegance while placing it in a
triadic‑substrate context where structure, lineage, and resonance
explain what the equations describe.
Welcome to the EM layer of the TriadicFrameworks canon.