概览

Electromagnetism — Front Door

TriadicFrameworks /docs/theories/electromagnetism/frontdoor.md#

Electromagnetism (EM) in TriadicFrameworks is a
field‑coherence theory, not a force‑centric mechanism and not a particle‑first narrative.

EM = coherent behavior of the electromagnetic field.
Maxwell operators = structural constraints, not force laws.
Light = self‑consistent field propagation.
Charge and current = divergence/curl source operators, not objects.

This front door orients students, researchers, and AI agents to the identity, structure, and safe‑use boundaries of the Electromagnetism module.


1. Start here#

If you are new to this module, read in this order:

  1. Session context
    /docs/theories/electromagnetism/session_context.md
    Identity, drift boundaries, audience, and scope.

  2. Regimes
    /docs/theories/electromagnetism/regimes.md
    R1 → R3: classical field stability, dynamic propagation, geometry‑coupled multi‑scale EM.

  3. Operators
    /docs/theories/electromagnetism/operators.md
    𝓓ᴱ, 𝓓ᴮ, 𝓒ᴱ, 𝓒ᴮ, 𝓢ᶜʰ, 𝓢ᶜᵘʳ, 𝓦, 𝓕, 𝓒ₒₕ, 𝓡𝓮𝓰, 𝓒𝓁.

  4. Operator examples
    /docs/theories/electromagnetism/operator_examples.md
    Concrete, field‑first examples of divergence, curl, sources, propagation, coherence, and regime transitions.


2. What this module is#

Electromagnetism here is:

  • field‑first
  • operator‑driven
  • coherence‑based
  • geometry‑compatible
  • quantization‑compatible
  • regime‑aware (R1 → R3)
  • zero drift

EM is not:

  • force‑centric
  • particle‑first
  • action‑at‑a‑distance
  • teleological
  • ether‑based

EM is a coherent field system, not a mechanical one.


3. Structure of the module#

Core structural files:

  • session_context.md — identity, drift, audience
  • regimes.md — R1 → R3 field behavior
  • operators.md — operator grammar
  • operator_examples.md — worked examples
  • coherence_map.md — divergence/curl/propagation/geometry coherence
  • lineage.md — pre‑Maxwell → Maxwell → relativity → QFT → RTT
  • cross_module.md — integration with GR, QFT, IT, Thermodynamics, FFT
  • engine_notes.md — internal behavior for AI/compilers
  • simulation_hooks.json — divergence, curl, propagation, coherence, collapse hooks

4. How to use this module#

For students#

Treat EM as a coherent field system:

  • divergence defines structure
  • curl defines rotation
  • sources modify operators
  • propagation emerges from self‑consistent field evolution
  • geometry shapes high‑regime behavior

Avoid force‑centric or particle‑centric interpretations.

For AI agents / tools#

  • Use session_context.md as the identity anchor.
  • Use engine_notes.md and simulation_hooks.json for execution.
  • Preserve coherence, avoid teleology, maintain regime alignment.

5. Summary#

Electromagnetism in TriadicFrameworks is:

  • a field‑coherence theory
  • an operator system (Maxwell operators)
  • a geometry‑compatible field model
  • a multi‑scale regime system
  • a cross‑module backbone for optics, relativity, circuits, QFT

It is not:

  • force‑centric
  • particle‑first
  • action‑at‑a‑distance
  • teleological

Electromagnetism = coherent field behavior.
Light = self‑consistent field propagation.
Physics = operator‑driven coherence systems.

Updated