{ "ai.module": "electromagnetism", "ai.version": "1.0", "ai.purpose": "Provide a regime-aware, operator-level interface to Electromagnetism as a coherence-level field theory.", "ai.keywords": [ "electromagnetism", "electric field", "magnetic field", "maxwell", "field theory", "coherence", "resonance", "triadic frameworks" ], "identity": { "name": "Electromagnetism", "category": "Scientific Theory", "summary": "A coherence-level field theory describing electric and magnetic interactions, field propagation, and electromagnetic waves.", "regime": ["R2→R3", "R3", "R1"], "status": "canon-ready" }, "lineage": { "originators": ["James Clerk Maxwell", "Michael Faraday", "Heinrich Hertz"], "historical_period": "19th Century", "source_domain": "Classical Field Theory", "related_theories": [ "quantum_mechanics", "quantum_field_theory", "information_theory" ], "notes": "Electromagnetism describes coherence behavior of fields in 3D regimes. Maxwell's equations encode stable relationships, not substrate primitives." }, "operators": { "primary": [ "electric_field", "magnetic_field", "field_propagation", "charge_interaction", "wave_resonance" ], "secondary": [ "permittivity", "permeability", "field_superposition", "boundary_conditions" ], "description": "Operators describe field behavior, interactions, and resonance propagation in 3D regimes." }, "drift": { "risks": [ "treating fields as ontological primitives", "assuming Maxwell's equations describe substrate-level reality", "overextending classical EM into quantum regimes" ], "boundaries": [ "EM is a coherence-level theory", "fields emerge from deeper substrate interactions", "wave propagation is resonance, not ontology" ] }, "coherence": { "invariants": [ "field propagation speed remains constant in vacuum", "electric and magnetic fields transform coherently", "wave behavior emerges from coupled field dynamics" ], "failure_modes": [ "breakdown at quantum scales", "loss of coherence under dimensional compression", "incorrect treatment of fields as fundamental entities" ] }, "cross_module": { "supports": [ "information_theory", "quantum_mechanics", "thermodynamics" ], "supported_by": [ "dimensional_analysis", "regime_awareness" ], "integration_notes": "Electromagnetism integrates cleanly with RTT engines as a coherence-level field theory with stable operator grammar." } }