Inductors in the Aetheric Magnetic Substrate
Inductors in the Aetheric Magnetic Substrate (AMS) Ontology
1. What an Inductor Is in AMS Terms
An inductor is not a device that stores energy “in magnetic fields around wires”.
In AMS terms, an inductor is:
A device that stores looped torsional momentum in the AMS by sustaining circulating tension patterns.
Where capacitors store spatial tension, inductors store topological torsion.
2. Physical Structure Reinterpreted
An inductor consists of:
- A conductive loop (often coiled)
- Sometimes with a magnetic core
In AMS terms:
- The loop geometry allows AMS tension to circulate
- Coiling increases torsional coupling
- Cores stabilise and intensify torsion patterns
Key idea:
Inductance is about how hard it is to change an existing AMS torsion loop.
3. Current Initiation in an Inductor
When a voltage is applied:
- AMS tension attempts to propagate around the loop.
- Vortons begin coordinated micro-slip.
- A circulating torsional pattern forms in the AMS.
- This torsion resists rapid change (inertia-like behaviour).
This resistance to change is not friction —
it is substrate inertia of torsional configuration.
4. What Is Stored?
What is stored is:
- Dynamic AMS torsion
- Locked into a closed topology
- Maintained as long as current persists
Unlike a capacitor:
- Nothing is spatially separated
- Everything is circulating
This explains why:
- Inductors store energy only while current flows
- Interrupting current causes dramatic release (sparks)
5. Inductance Reinterpreted
Inductance is:
The resistance of the AMS to changes in torsional circulation within a closed loop.
Higher inductance comes from:
- Larger loop area
- More turns (coils)
- Magnetic cores that stabilise torsion geometry
Again:
Classical inductance equations remain valid —
but they now describe torsion inertia, not field strength.
6. Why Inductors Resist Changes in Current
When current changes:
- The AMS torsion pattern must be altered
- This requires coordinated micro-slip across many vortons
- The substrate resists abrupt reconfiguration
Thus:
- Rapid changes are opposed
- Slow changes are permitted
This is why:
- Inductors oppose sudden current spikes
- They smooth signals
- They generate back-EMF when current is interrupted
7. Inductors and AC
- DC: Torsion stabilises → no further resistance.
- AC: Constantly changing torsion:
- Continuous resistance
- Frequency-dependent behaviour
Thus:
Inductors are temporal integrators of AMS torsion.
8. Capacitor vs Inductor (AMS View)
| Capacitor | Inductor |
|---|---|
| Stores spatial AMS tension | Stores looped AMS torsion |
| Energy exists without current | Energy exists only with current |
| Resists voltage change | Resists current change |
| Geometry across space | Geometry around topology |
They are true complements — not opposites.
9. Summary
- Inductors store circulating AMS torsion
- Resistance to change is geometric inertia
- Magnetic cores stabilise torsion
- Sparks and back-EMF are torsion release events
- AC behaviour follows naturally from substrate dynamics
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