FOT — Planetary Time Equalization

P-TEQ-1 to P-TEQ-6 dΣΤ = 0 → universal time d² cancellation ±7° ecliptic coherence B-DNA same mechanism Earth Sciences

Strand 2 tension

H-bond lock

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All 8 planets

One Tau-time

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d² cancel

P-TEQ-10

P-TEQ-1 · The Universal Tau-Time Claim

In FOT, every planet in the solar system oscillates on a single universal Tau-time. The conservation law dΣΤ = 0 prevents any genuine fragmentation of Tau across the solar system. What relativity calls "proper time dilation" is a local Tau-density variation, not a change in the flow of time itself.

P-TEQ-1

All planets in the solar system are coupled to a single universal Tau-time by the Strand 2 H-bond tension propagating through the Tau-medium at c_G1. No planet has a private "proper time" distinct from the solar Tau-beat.

P-TEQ-2 · Strand 2 H-Bond Tension Mechanism

The synchronisation is not gravitational. It operates through Strand 2 of the Tau double helix: the H-bond tension component propagating at c_G1 = 299,789,233.7 m/s. This is the same mechanism that holds B-DNA geometry intact at the molecular scale — translated 10²⁰ in size to the planetary register.

P-TEQ-3 · d² Cancellation (P-TEQ-10)

The inverse-square dilution of the spherical Tau-wave front exactly cancels the inverse-square gravitational coupling at every orbital radius. Every planet receives identical Tau-flux regardless of its distance from the Sun.

Tau-flux at distance d: Φ_τ = Φ₀ / d² Gravitational coupling: F ∝ 1 / d² Product: Φ_τ × F = Φ₀ × F₀ [independent of d] Every planet is equally Tau-connected to the solar node.

P-TEQ-4 · Ecliptic Flatness = ±7° Tau-Coherence Angle

All planetary orbits lie within ±7° of the ecliptic plane. This is not a consequence of nebular collapse — it is the Tau-field coherence requirement. The half-angle of the first Tau-cone = arcsin(1/8) = 7.18°, where 8 = 2³.

Orbits beyond ±arcsin(1/8) = 7.18° are Tau-decoupled from the primary helix. Eris (inclination 44°) is a confirmed Tau-decoupled body. All 8 major planets and all dwarf planets within the canonical solar register satisfy the ±7° bound.

P-TEQ-5 · B-DNA and the Solar System — Same Tau-Mechanism

Property	B-DNA (10⁻⁹ m)	Solar system (10¹¹ m)
Helix axis	3′–5′ backbone	Ecliptic normal
Strand 1	Watson (covalent)	Prograde orbital motion
Strand 2	Crick (H-bond)	Tau-field tension
Coherence lock	H-bond 18/π² rad	d² cancellation (P-TEQ-10)
Scale ratio	~10²⁰ — not a metaphor, a structural identity

P-TEQ-6 · Testable Predictions

Prediction	Method	Status
Schumann phase coherence across Earth/Jupiter/Saturn within c_G1 light-travel time	Cross-correlate planetary Schumann data	Jupiter/Saturn Schumann observed; phase correlation unmeasured
No major planet inclination > arcsin(1/8) = 7.18°	Survey all major-body inclinations	Confirmed for 8 planets
Life probability independent of orbital radius (Tau-flux universal)	Astrobiology survey	Testable with exoplanet data

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