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  1. Diagnostics in computational organic chemistry.Grant Fisher - 2016 - Foundations of Chemistry 18 (3):241-262.
    Focusing on computational studies of pericyclic reactions from the late twentieth century into the twenty-first century, this paper argues that computational diagnostics is a key methodological development that characterize the management and coordination of plural approximation methods in computational organic chemistry. Predictive divergence between semi-empirical and ab initio approximation methods in the study of pericyclic reactions has issued in epistemic dissent. This has resulted in the use of diagnostics to unpack computational greyboxes in order to critically assess the effect of (...)
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  • Causality.Jessica M. Wilson - 2005 - In Sahotra Sarkar & Jessica Pfeifer (eds.), The Philosophy of Science: An Encyclopedia. New York: Routledge. pp. 90--100.
    Arguably no concept is more fundamental to science than that of causality, for investigations into cases of existence, persistence, and change in the natural world are largely investigations into the causes of these phenomena. Yet the metaphysics and epistemology of causality remain unclear. For example, the ontological categories of the causal relata have been taken to be objects (Hume 1739), events (Davidson 1967), properties (Armstrong 1978), processes (Salmon 1984), variables (Hitchcock 1993), and facts (Mellor 1995). (For convenience, causes and effects (...)
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  • Of Parameters and Principles: Producing Theory in Twentieth Century Physics and Chemistry.Jeffry Ramsey - 2000 - Studies in History and Philosophy of Science Part B: Studies in History and Philosophy of Modern Physics 31 (4):549-567.
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  • Reduction in chemistry - a second response to Scerri.Paul Needham - 2000 - International Studies in the Philosophy of Science 14 (3):317 – 323.
    In this rejoinder to Eric Scerri's response to my first comment on his paper on the reduction of chemistry to physics, the main point concerns laws in chemistry. But other themes touched upon include the assumptions involved in ab initio calculations, the question of what is reduced to what on Scerri's view, and the significance he attaches to the term "naturalism".
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  • Re-evaluating semi-empirical computer simulations in quantum chemistry.María Silvia Polzella & Penélope Lodeyro - 2019 - Foundations of Chemistry 21 (1):83-95.
    Usually within the context of computer simulations in quantum chemistry practices, there is a distinction between ab initio and semi-empirical methods. Related to this, a controversy within the scientific and philosophical communities came about regarding the superiority of the ab initio methods due to their theoretical rigor. In this article we re-evaluate the condition of the semi-empirical simulations in this area of research. We examine some of the aspects of this debate that have been considered in philosophy and provide additional (...)
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  • Calibrating and constructing models of protein folding.Jeffry L. Ramsey - 2007 - Synthese 155 (3):307-320.
    Prediction is more than testing established theory by examining whether the prediction matches the data. To show this, I examine the practices of a community of scientists, known as threaders, who are attempting to predict the final, folded structure of a protein from its primary structure, i.e., its amino acid sequence. These scientists employ a careful and deliberate methodology of prediction. A key feature of the methodology is calibration. They calibrate in order to construct better models. The construction leads to (...)
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