Autonomy and Automation: Computational Modeling, Reduction, and Explanation in Quantum Chemistry

The Monist 97 (3):339-358 (2014)
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Abstract

This paper discusses how computational modeling combines the autonomy of models with the automation of computational procedures. In particular, the case of ab-initio methods in quantum chemistry will be investigated to draw two lessons from the analysis of computational modeling. The first belongs to general philosophy of science: Computational modeling faces a trade-off and enlarges predictive force at the cost of explanatory force. The other lesson is about the philosophy of chemistry: The methodology of computational modeling puts into doubt claims about the reduction of chemistry to physics.

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10.5840/monist201497322

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Johannes Lenhard
RPTU, Kaiserslautern

Citations of this work

Diagnostics in computational organic chemistry.Grant Fisher - 2016 - Foundations of Chemistry 18 (3):241-262.

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References found in this work

On the explanatory role of mathematics in empirical science.Robert W. Batterman - 2010 - British Journal for the Philosophy of Science 61 (1):1-25.

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