DOUBLE-SLIT EXPERIMENT • Σ-AUDIT

NO WAVES.
ONLY FORCE & ENERGY

Spatial force F=ma at slits + temporal energy E=mc clock-motion entanglement = exact fringe pattern.
Zero probability, zero spacetime, zero gravity, zero QM.

Σ-AUDIT VERDICT

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Fringes emerge from real spatial accelerations (F=ma) at slit edges and motion-imbalance conservation.

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Path-length difference alters clock motion → modulates temporal energy delivery (E=mc) → changes applied force at screen.

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Single particles follow definite trajectories. Pattern is deterministic accumulation via entangled domains.

Space and time are entangled, never fused.
Exactly as in tides (orbital + axial imbalance) and orbital shift.

THE MECHANISM IN ONE EQUATION

F_screen = m·a_spatial × (E_mc / c)·cos(2π ΔL/λ)

SPATIAL

F = ma
Slit-edge deflection

TEMPORAL

E = mc
Clock-motion shift

ENTANGLED

ΔL → force modulation

Mechanistic Breakdown

Spatial Domain — F=ma

Photon/electron (m = hν/c² or rest mass) receives real accelerations at each slit edge. Geometry creates motion imbalance exactly like Aphelion→Perihelion net addition to effective radius and velocity.

a_spatial ≈ (h/(m·d))·(v/t)

Temporal Domain — E=mc

Every particle carries temporal energy E = m·c. Longer/shorter path changes internal clock motion. Space-speed directly accelerates temporal energy flow.

Δφ = 2π ΔL/λ from clock stretch

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Entanglement → Fringes

ΔL = d·sinθ changes clock motion → modulates applied force at screen. Bright = max force transfer. Dark = reduced force. Single-particle deterministic. Pattern builds by motion-imbalance statistics.

Live Kinetiverse Simulator

Particles follow definite paths. Fringes appear from force modulation only.

SOURCE EMITTER

SLITS d = 10⁻⁶ m

SCREEN L = 1 m

HOW IT WORKS HERE

Each particle takes one slit.
Longer path → slower clock → less applied force at impact.
Watch fringes form mechanically.

SPATIAL PATH

CLOCK MODULATION

λ = 500 nm • 5000 particles shown

No probability waves • Only F=ma + E=mc

Testable Kinetiverse Predictions

Slit material temperature change

Alters atomic clock motion → measurable fringe shift (no QM needed).

Axial rotation of barrier

Changes edge F=ma forces → contrast variation, exactly like tidal centrifugal reduction.

Known initial conditions

Single-particle tracking must allow exact prediction — no statistical mystery.

Orbital-shift analogy

Fringe spacing conserves energy via motion imbalance (Aphelion/Perihelion style).

NO WAVES. ONLY FORCE & ENERGY