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The Percudani Model, grounded in the Universal Applicable Time (UAT) and Unified Principle of Causality (UPC) frameworks, postulates five fundamental laws that govern the transition of information from an infinite atemporal substrate (Bit 0) to finite, observable reality (Bit 1). This article presents the five laws and demonstrates their predictive power through the convergent calibration of two geometrically distinct rotational coil detectors: an 8+1 configuration with an active transfer function, and a 36+1 configuration with a f ixed-gain table rotation asymmetry. Despite their different architectures and calibration methodologies, both detectors independently converge to a central-coil RMS of 0.7071, cor responding to the theoretical causal buffer limit 1/√2. This convergence provides strong internal validation of the Percudani Model and establishes a robust experimental foundation for scalar torsion field detection. Keywords: scalar torsion, dark matter, phase interferometry, UAT, UPC, causal laws, rotational detector
Percudani M. A. 2026. Convergent Calibration of Two Independent Rotational Detectors: Validation of the Five Laws of the Percudani Model. PREPRINTS.RU. https://doi.org/10.24108/preprints-3114986