Electricity as AMS Tension Reconfiguration in Circuits

Electricity as AMS Tension Reconfiguration in Circuits

Electricity in circuits is the ongoing reconfiguration of AMS tension around a closed topology. Conductors provide a geometric pathway that permits coordinated reconfiguration events.

Key interpretations:

  • Voltage: A difference in AMS tension between two regions imposed by a source (e.g., battery).
  • Current: The rate and spatial extent of coordinated micro-slip and reconfiguration events within a conductor’s vorton lattice that allow AMS tension to propagate.
  • Charge: A directional bias in how vorton configurations respond to AMS tension gradients; not a substance.
  • Power delivery: The rate at which AMS reconfiguration forces vorton structures to change configuration and perform work.

Electric phenomena are therefore substrate-dynamic rather than particle-transport processes.

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