The standard framing of miracles — and of PSI phenomena like telekinesis — is that they represent a *suspension* of natural law: a violation of physics by divine or paranormal intervention. TI Sigma proposes the opposite: miracles are *extensions* of natural law, operating through physical mechanisms that exist in all humans but are accessed at sufficient magnitude only by rare individuals under specific conditions. The governing analogy: every physical object possesses gravitational and magnetic pull, but only objects of sufficient mass or charge can display macroscopic effects relative to the background field. Every conscious system generates a phase-field influence — an i-channel force on its environment — but only systems operating above a critical LCC threshold (near or above CEMERICK ≈ 0. 437) can produce effects distinguishable from thermal noise. Below this threshold, the effect exists but is masked by background incoherence. Above it, the effect accumulates, stabilizes, and becomes potentially observable. This reframing dissolves the "miracle vs. physics" dichotomy: it treats PSI capacities as continuous physical phenomena with a threshold, not as binary supernatural exceptions. The paper develops the formal threshold model, connects it to existing physics (quantum non-locality, bioelectromagnetics, the Cauchy-Riemann coupling of manifest and phase fields), reviews the empirical evidence consistent with sub-threshold PSI effects, and makes specific testable predictions within the TI Sigma framework.
Brandon Charles Emerick (Tue,) studied this question.
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