The Great Pyramid as a whole-device energy machine, running end-to-end: apex DC in → 50 Hz slosh/MHD in the King's Chamber → the running core chops the telluric ground loop → broadcast out. Cold-start it, trigger lightning to bank the ground/aquifer battery, or run storm mode.
Schumann fundamental f₁ = 7.83 Hz (NASA-cited) · device locks to mode n = 8 → φ-corrected f₈ ≈ 50 Hz · fair-weather atmospheric field ~120 V/m (the DC drive) · parametric pump ~1 kV (the cavity's own FM field, plausible estimate).
⚡ Lightning Battery 0 Wh
tap a strike to bank ~27.8 kWh · next: 100 kWh
… strikes · … of the 4.38 GWh aquifer
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Idealized model. This is the ideal φ-pyramid transducer (loss-bounded steady state), computed live in phi-pyramid-cpp: a faithful upper-bound device, not a built machine.
Each chamber is tuned (length, f=m·c/2L) to one Schumann harmonic. Tuning many voids lets the device harvest the AC seed across the spectrum in parallel (~2× the strongest single line) so the mercury slosh triggers sooner. This is the AC seed (the trigger), not DC. n=3 & n=7 are predicted voids that complete the ladder.
Obelisk Pair · the receiver, locked on locked · 50 Hz
receiver response   lock point, vs frequency around the 50 Hz broadcast.
The frequency obelisk is fixed-tuned, so the marker sits on the peak of the resonance: the pair couples to the 50 Hz line and ignores the rest. That 50 Hz is the φ-corrected Schumann mode n=8 (the φ-correction is in the broadcast frequency, not the receiver: the receiver is ordinary resonant coupling).
100% lock
Develop → step down → deliver
Developed potential:
Each home's transformer:
Powering:
From the pyramid broadcast: assumes available (the pyramid's chopper output) → supports homes network-wide; this pair draws its share.
Why kV, not 240 V at the source
You can't pull real power through the ground at low voltage: 100 A through soil bakes it to glass. So the pair rings at thousands of volts and a few amps; each home's transformer does the step-down at the door.
Coffer MHD Core · what you're looking at … interior
Sealed granite coffer: the Petrie interior (1.98 × 0.68 × 0.87 m), lid on. The mercury is never open to the air.
Liquid mercury: the conductive working fluid, ~75% fill. Surges along the long axis at 50 Hz (a blur, here slowed).
Lodestone cage: two combs of tapered spokes on the long walls (translucent here). A mined permanent magnet, no coil and no power — the field crosses the width of the pool.
Lodestone crown: joins the two combs over the top. The cool magnet body, kept clear of the 517 °C cell so it stays below the Curie point.
Arc electrodes: through the lid; the terminals of the mercury-arc gate that switches the gated telluric current (no side feedthroughs, the coffer stays sealed).
B-field lines: across the width, steady (a permanent lodestone magnet, ≈ 0.16 T). The slosh moving through B makes only a few-mV timing signal that switches the gate, the control input, not the output.
Gated telluric current: the regional telluric DC routed through the arc; the gate chops it on and off at 50 Hz → AC. This chopped supply is the output, not the slosh's own motion.
Wireless output: the cyan wavefronts expanding outward: the chopped 50 Hz telluric output (hundreds of kW) couples out through the resonant field (Tesla-style wireless link). No wires, no load box, no penetrations of the sealed coffer.
Telluric clock: wavefronts rising from the aquifer/ground: the faint global ~50 Hz reference the chamber phase-locks to (the clock, not the fuel).
Resonance (the bell): the golden shell + three antinode discs: the King's-Chamber standing wave ringing at f₈≈50 Hz with high Q.
Mercury-arc plasma: the gate itself: a hot arc the slosh switches on and off at 50 Hz to chop the telluric DC; the pool sits at ~517 °C / 1.0 MPa.
King's Chamber: the granite room enclosing the coffer (~70 m up inside the pyramid). The room is the resonant cavity: its dimensions set the standing-wave modes the coffer locks to, so its walls ring with the resonance. (Shown ~half true scale so the coffer stays legible.)
Relieving chambers: the five stacked granite voids above the flat 9-beam ceiling: the dielectric capacitor stack, charging in step with the resonance.
Air shafts: the thin leads leaving the N & S walls: the grounding / antenna conductors.
The slosh is the switch, not the source. The 50 Hz slosh moving through the across-the-width B makes only a few-mV timing signal that switches the mercury-arc gate; the gate chops the regional telluric DC, and that gated supply is the broadcast power. Mercury holds ≈ ; at B = the slosh's own v×B EMF is just , a parasitic byproduct, not the output.
The Device · DC in → slosh chops the telluric loop → broadcast out starting…
two granite obelisks on a basalt court over a Tura-limestone float · cyan arcs = the telluric wavefronts arriving from the pyramid · the left obelisk is fixed (the 50 Hz frequency lock); the right obelisk grows/shrinks with the voltage tune (the amplitude) · gold arc tip↔tip = the voltage potential the pair develops · the HV trunk carries it to the homes, where each home's own transformer steps it down to its 240 V service · the first homes-powered homes light up. Scroll to zoom.
pyramid · granite apex cap = the isolated capstone collector (the highest point, where the strike lands) · rain-wetted shell flashover = during a storm the rain coats the smooth casing, so when lightning hits the apex it tracks down the four wet faces as a surface arc to the base (no buried metal required; any metal would have been the first thing looted), then spreads into the aquifer across the whole ~115 m footprint (an excellent earth electrode, R = 1/(2πσa) ≈ 2.8 mΩ), charging it; a ring spreads through the water as the charge arrives · subterranean chamber + pit = real central features (shown, but NOT the conduction path in this model — the strike enters the earth across the footprint, not via a shaft) · dark base slab = the basalt foundation (conductive ground plane, closes the DC loop) · small box = mercury coffer in the King's Chamber (sloshes) · gabled chamber below the KC = the Queen's Chamber (candidate n=4 ≈ 20.6 Hz resonator), on the central axis, linked to the Grand Gallery foot by a horizontal passage · stack above the KC = relieving chambers · inclined corridor = Grand Gallery · translucent block above the gallery = Big Void (n=5, 34 Hz resonator) · chevron-roofed void behind the north face = the North Face Corridor (≈9 m, ScanPyramids 2023; a structural void above the original entrance, not part of the energy chain) · small obelisks beside the houses = the endpoint tuners that harvest the broadcast (modeled separately) and feed each home · small houses (ring, to scale ≈9 m vs the 146 m pyramid) = the connected load; they light when powered (via their obelisk), go dark when the ground battery empties · violet apex glow = the sharpened point in continuous corona (point discharge) · green rings rising from the aquifer = the telluric ground loop (the dam-shunt DC the running MHD core chops) · cyan wavefronts expanding outward = the whole-device broadcast out. Chambers near true scale; coffer enlarged ~4× for visibility. Scroll to zoom.
Energy Loop
DC accumulate0%
Ladder trigger0%
Parametric pump0%
Saturate0%
AC output0%
Endpoint harvest0%
Live Readouts … Hz
Whole-device output · TELLURIC CHOPPER
the running core chops the telluric DC → broadcast out
Endpoint · obelisk harvest
… houses
obelisks tune into the broadcast
AC Output (50 Hz)
slosh → MHD alternator
Apex collector:  ·  DC reservoir in:
Wet-footprint ground electrode (R = 1/2πσa, a≈115 m):  ·  DC loop:
Rain-shell flashover path (wet faces):  ·  strike reaches ground:
Strike → aquifer (Rtot ): (no metal needed; capturing it is the impedance-matched hard part)
AC out:  ·  Slosh velocity:
Energy-conserved: out ≤ in. The device sells coherence (a 50 Hz lock), not bulk watts.
Broadcast output · TELLURIC CHOPPER (Machine C · conditional)
MHD byproduct (Faraday, at 2.5 mm/s)
parasitic slosh→AC, not the broadcast
EMF × current (MHD byproduct)
low V, huge I (µΩ source)
State…
Ambient (always present): atmospheric DC + ground/telluric , the µW–mW primer that keeps the dormant coffer poised.
Resonance (the bell): f₈ = · Q = · standing wave holds , exchanging to ring (high Q).
Telluric clock: across the chamber (field ), the global ~50 Hz reference the cavity locks to, not the fuel.
Reactor: mercury vapour at · arc core · thermal tax (paid by the through-current).
Inner sleeve (most-stressed part): the vacuum arc capillary submerged in the pressurised hot mercury survives — crush buckling FOS , thermal FOS , .
Field at pool:  ·  Slosh: (fixed)  ·  Short-circuit I:
Internal resistance (mercury):  ·  Hartmann: (plug flow)
Lorentz brake σB²:  ·  Mercury mass:
The slosh is the SWITCH, not the generator. Faraday induction from a 2.5 mm/s slosh can only ever make a tiny (needs of mechanical drive at ~50%); that's the parasitic MHD byproduct, not the broadcast. The real output is the CHOPPER: the 50 Hz arc strike/quench gates the massive telluric DC through-current (V = L·di/dt transients), and that, minus the 59 kW thermal tax, is the hundreds of kW that couple out wirelessly via the resonant field. It only delivers if the dam-shunt geology holds (R_source ≤ 42 mΩ); slide R_source to see it sustain or stall.
Homes powered (avg draw)
full 100 A panels at peak
Developed potential
across the pair (kV-class)
Broadcast:  ·  Lock quality:
Developed potential: → each home's transformer → home rail
Delivered:  ·  output current (on the 240 V side)
Homes powered: (by ~1.5 kW average draw; one full 100 A panel is 24 kW peak).
One chain: broadcast 50 Hz in → resonant lock → high voltage developed → HV to each home → the home's transformer steps down → 240 V.
Atmospheric Energy · where the energy actually is fair-weather → storm → strike → store
Fair-weather DC (starts it)
steady atmospheric pump: the µW seed
Storm tap (charges it)
apex tap ≈ MV · ×vs fair-weather
Lightning strike
captured into the resonant sink
Aquifer store (holds it)
geological capacity, never saturates
Banked per storm season:  ·  Delivered (8 h draw):
The fair-weather DC starts the machine; each lightning strike charges the aquifer electrochemically; the store holds it and meters it out. This is the answer to “where is all the energy?”: not a µW trickle but a lightning-charged geological battery. Not free energy: total stays strike-limited; the store buffers the flood, it doesn't create it. The strike→aquifer charging coupling is the open frontier ([EST]).
50 Hz AC Waveform amplitude ∝ slosh
The oscillating mercury cuts the MHD field → 50 Hz AC, broadcast out and harvested by tuned endpoint obelisks. Computed live in phi-pyramid-cpp (WASM). No JavaScript physics.
Startup Sequence · slosh & AC build-up (live) t = 0 s
slosh envelope   AC output   first-AC marker, vs simulated time.
Startup is the slowest of several physical processes, each a textbook time constant computed from constants & measured chamber dimensions, with no single number taken on faith. First AC power ≈ max(cavity ring-up, bulk-slosh ring-up, air-bias ε₀/σ); full mercury circulation is a separate, much slower milestone (the sub-mm/s drift).