{ "ai.module": "electromagnetism.rtt3", "ai.version": "1.0", "ai.purpose": "RTT/3 engine layer for Electromagnetism: triadic-substrate integration, multi-regime simulation hooks, lineage-aware reasoning, and hybrid-canon scaffolding.", "ai.keywords": [ "electromagnetism", "triadic substrate", "resonance", "multi-regime", "simulation", "lineage", "rtt3" ], "engine": { "layer": "RTT/3", "description": "Integrates Electromagnetism into the full triadic substrate, enabling multi-regime reasoning, resonance mapping, and hybrid-canon simulation." }, "substrate_integration": { "mapping": { "structure": "Electric and magnetic fields map to coupled resonance channels within the substrate.", "behavior": "Wave propagation corresponds to stable resonance transfer across substrate invariants.", "coupling": "E↔B coupling emerges from substrate-level phase relationships, not geometric primitives." }, "constraints": [ "Propagation speed is a substrate invariant.", "Field coupling persists only when resonance channels remain coherent.", "Medium properties modify resonance pathways, not fundamental operators." ] }, "multi_regime": { "R1": { "behavior": "Field behavior collapses to charge-interaction primitives; resonance channels not sustained.", "notes": "No stable E↔B coupling; coherence minimal." }, "R2": { "behavior": "Projection-induced distortion of field coupling; partial resonance behavior.", "notes": "Dimensional compression alters propagation and boundary interactions." }, "R3": { "behavior": "Full Maxwellian coherence; stable resonance propagation and field coupling.", "notes": "Wave behavior emerges cleanly from substrate invariants." } }, "lineage": { "tracking": [ "field_history", "resonance_cycles", "boundary_interactions" ], "effects": [ "reveals hidden coherence patterns", "stabilizes field coupling", "reduces apparent dispersion" ] }, "simulation": { "hooks": [ { "name": "resonance_wave_sim", "description": "Simulates EM wave propagation as resonance transfer across substrate channels." }, { "name": "boundary_interaction_sim", "description": "Models field behavior at interfaces and discontinuities using substrate constraints." }, { "name": "dimensional_projection_sim", "description": "Simulates distortion of EM behavior under R2 projection or reduced dimensional support." } ], "notes": "Simulations operate on resonance channels and substrate invariants, not geometric field primitives." }, "hybrid_canon": { "interfaces": [ "quantum_mechanics.rtt3", "information_theory.rtt3", "thermodynamics.rtt3" ], "purpose": "Enable agentic AIs to reason across modules using shared substrate invariants and resonance structures.", "scaffolding": [ "triadic substrate mapping", "multi-regime coherence", "lineage-aware propagation" ] }, "coherence": { "invariants": [ "constant propagation speed in vacuum", "stable E↔B coupling", "resonance persistence across cycles", "predictable boundary behavior" ], "failure_modes": [ "loss of coupling", "medium-induced decoherence", "dispersion", "quantum-scale breakdown" ] } }