This work examines a recurring structural problem in modern theory-building: the attempt toexplain phenomena whose truth conditions lie outside the coherence band available to theobserver who must test them. In contemporary physics and cosmology, this problem appearsrepeatedly under different names unfalsifiability, incompleteness, underdetermination, finetuning,model degeneracy, or interpretive excess. In this volume, these are treated not as isolated technical obstacles but as expressions of a single deeper pattern. The central claim of this chapter is simple: many theories become “unprovable” not becausethey are necessarily false, but because they are framed at the wrong ontological layer relativeto the observer’s measurement bandwidth. Under the Unified Coherence Theory of (UCTE), this is described as ontological misplacement and dimensionalmisplacement. The resulting paradoxes are therefore diagnostic. They reveal a mismatchbetween the layer in which a theory is formulated and the layer in which its claims could, inprinciple, be tested. This chapter develops that claim across physics, cosmology, biology, cognition, and metatheoreticalquestions about the observer and the possibility of a Theory of Everything. Itintroduces the Measurement-Closure Theorem as a unifying principle: any measuring deviceis constructed from the degrees of freedom of the observer’s own coherence layer, andtherefore cannot directly access higher-layer reality except through projected effects,shadows, or coherence echoes. The aim of this work is not merely critique. It is reconstruction. By situating paradoxes withina four-layer coherence ontology—Omnilectic, Hololectic, Relational, and Derived—thischapter reframes unprovability as an ontological signal rather than an epistemic dead end.The result is a coherent diagnostic framework for distinguishing:• theories that are untestable because they are structurally misplaced,• theories that are incomplete because they omit the observer,• and theories that are untestable because they describe higher generative strata ofreality. This chapter may be read as a standalone essay, but it also functions as a keystone within thebroader Paradox Theories program, where many previously separate paradoxes are shown tobe instances of one meta-paradox: the observer can only measure within its own coherencelayer.
Philip Lilien (Wed,) studied this question.