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  1. How Do We Apply Science?Nancy Delaney Cartwright - 1974 - PSA: Proceedings of the Biennial Meeting of the Philosophy of Science Association 1974:713 - 719.
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  • The role of quantitative models in science.N. Oreskes - 2003 - In Charles Draper William Canham, Jonathan J. Cole & William K. Lauenroth (eds.), Models in ecosystem science. Princeton University Press. pp. 13–31.
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  • Does matter really matter? Computer simulations, experiments, and materiality.Wendy S. Parker - 2009 - Synthese 169 (3):483-496.
    A number of recent discussions comparing computer simulation and traditional experimentation have focused on the significance of “materiality.” I challenge several claims emerging from this work and suggest that computer simulation studies are material experiments in a straightforward sense. After discussing some of the implications of this material status for the epistemology of computer simulation, I consider the extent to which materiality (in a particular sense) is important when it comes to making justified inferences about target systems on the basis (...)
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  • How science is applied in technology.Mieke Boon - 2006 - International Studies in the Philosophy of Science 20 (1):27 – 47.
    Unlike basic sciences, scientific research in advanced technologies aims to explain, predict, and (mathematically) describe not phenomena in nature, but phenomena in technological artefacts, thereby producing knowledge that is utilized in technological design. This article first explains why the covering-law view of applying science is inadequate for characterizing this research practice. Instead, the covering-law approach and causal explanation are integrated in this practice. Ludwig Prandtl's approach to concrete fluid flows is used as an example of scientific research in the engineering (...)
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  • Sanctioning Models: The Epistemology of Simulation.Eric Winsberg - 1999 - Science in Context 12 (2):275-292.
    The ArgumentIn its reconstruction of scientific practice, philosophy of science has traditionally placed scientific theories in a central role, and has reduced the problem of mediating between theories and the world to formal considerations. Many applications of scientific theories, however, involve complex mathematical models whose constitutive equations are analytically unsolvable. The study of these applications often consists in developing representations of the underlying physics on a computer, and using the techniques of computer simulation in order to learn about the behavior (...)
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  • (1 other version)The Scientific Consensus on Climate Change: How Do We Know We 're Not Wrong?'.Naomi Oreskes - 2007 - In Joseph F. DiMento & Pamela Doughman (eds.), Climate Change: What It Means for Us, Our Children, and Our Grandchildren. MIT Press. pp. 65.
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  • Connections between simulations and observation in climate computer modeling. Scientist’s practices and “bottom-up epistemology” lessons.Hélène Guillemot - 2010 - Studies in History and Philosophy of Science Part B: Studies in History and Philosophy of Modern Physics 41 (3):242-252.
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  • Computer simulation: The cooperation between experimenting and modeling.Johannes Lenhard - 2007 - Philosophy of Science 74 (2):176-194.
    The goal of the present article is to contribute to the epistemology and methodology of computer simulations. The central thesis is that the process of simulation modeling takes the form of an explorative cooperation between experimenting and modeling. This characteristic mode of modeling turns simulations into autonomous mediators in a specific way; namely, it makes it possible for the phenomena and the data to exert a direct influence on the model. The argumentation will be illustrated by a case study of (...)
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  • Simulated experiments: Methodology for a virtual world.Winsberg Eric - 2003 - Philosophy of Science 70 (1):105-125.
    This paper examines the relationship between simulation and experiment. Many discussions of simulation, and indeed the term "numerical experiments," invoke a strong metaphor of experimentation. On the other hand, many simulations begin as attempts to apply scientific theories. This has lead many to characterize simulation as lying between theory and experiment. The aim of the paper is to try to reconcile these two points of viewto understand what methodological and epistemological features simulation has in common with experimentation, while at the (...)
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  • How Does the Theologizing of Physics Contribute to Global Warming?William Goodwin - 2009 - Environmental Philosophy 6 (2):21-42.
    In this paper I examine the sorts of arguments that motivate skepticism about the predictive powers of global climate models. I contend that these arguments work by contrasting the development and testing of global climate models with an idealized image of science drawn largely from a theologized model of fundamental physics. A richer appreciation of the methodology of a full range of successful empirical predictions—particularly in practical fields that study complex systems––can dispel some of these skeptical worries about climate science. (...)
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