This article presents a critical–propositional analysis of Roberto de Andrade Martins’s essay “Philosophy in the Physics Laboratory: Measurement Theory versus Operationalism,” published in Studies in History and Philosophy of Science I and available on Zenodo through DOI https://doi.org/10.5281/zenodo.5899546. The study examines Martins’s reconstruction of Helmholtz’s theory of measurement and his critique of operationalism in dialogue with the logical, ontological, and cosmological framework of the Theory of Objectivity, developed by Vidamor Cabannas and Denivaldo Silva. The article argues that Martins’s critique of the “black box” view of measuring instruments offers a relevant methodological bridge for the Theory of Objectivity. By showing that physical measurement presupposes prior conditions of comparison, equality, addition, calibration, and mathematical coherence, Martins reinforces the thesis that empirical objectivity cannot be reduced to raw instrumental data. In this respect, his work is analyzed in confrontation with the seven modal axioms of the Theory of Objectivity, its phenomenic elements, its Inducer Effects, its cosmogonic theorem, and its cosmological Eras. Although Martins’s article does not directly address cosmology or the origin of the universe, it contributes significantly to the epistemological and methodological development of the Theory of Objectivity by supporting the need for rigorous operational bridges between modal axioms and empirical contact. The analysis also considers the current interpretation of the transcendent element in the Theory of Objectivity as knowledge or information produced in atomic relations, equivalent to atomic radiations. This analytical text received analytical support from ChatGPT. Keywords: TheoryofObjectivity; Vidamor Cabannas; Denivaldo Silva; Roberto de Andrade Martins; measurement theory; operationalism; Helmholtz; Campbell; philosophy of physics; scientific objectivity; modal ontology; phenomenic elements; Inducer Effects; empirical testability; theory of measurement; atomic information; atomic radiation.
Vidamor et al. (Mon,) studied this question.