State Locality Theory 2 (SLT‑2) is a theoretical framework that develops a structural account of locality as a fundamental condition of manifestation. While Part I establishes the structural foundations of the theory — the axioms, the geometric hierarchy, and the ontology of nodes and levels — Part II develops the dynamical layer built upon this structure. This work introduces the fundamental multicomponent field as a dynamic substrate, examines the stability of level‑n nodes as localized finite‑energy configurations, and formulates an effective description of node sensitivity, shell dynamics, and localization processes. The document shows how the phenomenological quantities of SLT‑1, such as dynamic locality, sensitivity, and the localization rate, can arise as effective parameters within a broad class of standard relativistic field‑theoretic models without modifying the equations of known physics. This document is the second part of a multi‑part series presenting SLT‑2 in a systematic and rigorous form. New in version 2: – analytical derivation of the geometric deviation parameter; – demonstration of its invariance across hierarchy levels; – clarification of the structural uniqueness of the 5/4 multiplier; – added correspondence between SLT‑2 hierarchy levels and SLT‑1 operational energy scales; – refined presentation of node sensitivity and localization dynamics; – editorial improvements for clarity and internal consistency.
Mikhail Bespoyasov (Tue,) studied this question.