- What Conceptual Engineering Can Learn from the History of Philosophy of Science: Healthy Externalism and Metasemantic Plasticity.Matteo De Benedetto - 2024 - Hopos: The Journal of the International Society for the History of Philosophy of Science 14 (1):1-24.details
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Heavy-duty conceptual engineering.Steffen Koch & Jakob Ohlhorst - forthcoming - Noûs.details
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Beyond Structure: New Frontiers of the Philosophy of Thomas Kuhn.Vincenzo Politi & Yafeng Shan - 2023 - International Studies in the Philosophy of Science 36 (2):81-86.details
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(1 other version)KUHN’U ANLAŞILIR KILMAK.Ekin Akdeniz - 2020 - International Journal Entrepreneurship and Management Inquiries 4 (1):199-209.details
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Taking Up Thagard’s Challenge: A Formal Model of Conceptual Revision.Sena Bozdag & Matteo De Benedetto - 2022 - Journal of Philosophical Logic 51 (4):791-824.details
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Kinds as Universals: A Neo-Aristotelian Approach.David Hommen - 2019 - Erkenntnis 86 (2):295-323.details
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Taxonomies, Networks, and Lexicons: A Study of Kuhn’s Post-‘Linguistic Turn’ Philosophy.Vincenzo Politi - 2020 - International Studies in the Philosophy of Science 33 (2):87-103.details
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Determinables in Frames.David Hommen - 2020 - Acta Analytica 36 (2):291-310.details
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Cognition, Meaning and Action: Lodz-Lund Studies in Cognitive Science.Piotr Łukowski, Aleksander Gemel & Bartosz Żukowski (eds.) - 2015 - Kraków, Polska: Lodz University Press & Jagiellonian University Press.details
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Scientific revolutions, specialization and the discovery of the structure of DNA: toward a new picture of the development of the sciences.Politi Vincenzo - 2018 - Synthese 195 (5):2267-2293.details
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Scientific Prediction in the Beginning of the “Historical Turn”: Stephen Toulmin and Thomas Kuhn.Wenceslao J. Gonzalez - 2013 - Open Journal of Philosophy 3 (2):351-357.details
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Scientific Controversies and the Ethics of Arguing and Belief in the Face of Rational Disagreement.Xavier de Donato Rodríguez & Jesús Zamora Bonilla - 2014 - Argumentation 28 (1):39-65.details
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The Second Essential Tension: on Tradition and Innovation in Interdisciplinary Research.Hanne Andersen - 2013 - Topoi 32 (1):3-8.details
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Concepts as Tools in the Experimental Generation of Knowledge in Cognitive Neuropsychology.Uljana Feest - 2010 - Spontaneous Generations 4 (1):173-190.details
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Scientific revolutions.Thomas Nickles - 2010 - Stanford Encyclopedia of Philosophy.details
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(2 other versions)Thomas Kuhn.Alexander Bird - 2018 - Stanford Encyclopedia of Philosophy.details
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Frameworks, models, and case studies: a new methodology for studying conceptual change in science and philosophy.Matteo De Benedetto - 2022 - Dissertation, Ludwig Maximilians Universität, Münchendetails
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Incommensurability and the Extended Evolutionary Synthesis: taking Kuhn seriously.Juan Gefaell & Cristian Saborido - 2022 - European Journal for Philosophy of Science 12 (2):1-25.details
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La deriva genética como fuerza evolutiva.Ariel Jonathan Roffé - 2015 - In J. Ahumada, N. Venturelli & S. Seno Chibeni (eds.), Selección de Trabajos del IX Encuentro AFHIC y las XXV Jornadas de Epistemología e Historia de la ciencia. pp. 615-626.details
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Mundos fenoménicos y léxicos científicos: el relativismo lingüístico de Thomas Kuhn.Juan Vicente Mayoral de Lucas - 2017 - Revista de Filosofía 42 (1):117-134.details
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Reconsidering the Carnap-Kuhn Connection.Jonathan Y. Tsou - 2015 - In William J. Devlin & Alisa Bokulich (eds.), Kuhn’s Structure of Scientific Revolutions - 50 Years On. Cham: Boston Studies in the Philosophy and History of Science, vol. 311. Springer.details
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Kuhnian Paradigms: On Meaning and Communication Breakdown in Medicine. [REVIEW]Stefan Dragulinescu - 2011 - Medicine Studies 2 (4):245-263.details
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Designing visual languages for description logics.Brian R. Gaines - 2009 - Journal of Logic, Language and Information 18 (2):217-250.details
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Books received. [REVIEW]Ralf Busse - 2007 - Erkenntnis 67 (3):455-466.details
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Nancy J. Nersessian: Creating Scientific Concepts.Ryan D. Tweney - 2012 - Science & Education 21 (4):591-596.details
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What’s in It for the Historian of Science? Reflections on the Value of Philosophy of Science for History of Science.Theodore Arabatzis - 2017 - International Studies in the Philosophy of Science 31 (1):69-82.details
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Kuhn Meets Maslow: The Psychology Behind Scientific Revolutions.Boris Kožnjak - 2017 - Journal for General Philosophy of Science / Zeitschrift für Allgemeine Wissenschaftstheorie 48 (2):257-287.details
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The paradox of scientific expertise: A perspectivist approach to knowledge asymmetries.Hugo Fjelsted Alrøe & Egon Noe - 2011 - Fachsprache - International Journal of Specialized Communication (3–4):152-167.details
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Theory change as dimensional change: conceptual spaces applied to the dynamics of empirical theories.Peter Gärdenfors & Frank Zenker - 2013 - Synthese 190 (6):1039-1058.details
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Visualizing Scientific Inference.David C. Gooding - 2010 - Topics in Cognitive Science 2 (1):15-35.details
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The Structure of Scientific Revolutions and its Significance: An Essay Review of the Fiftieth Anniversary Edition. [REVIEW]Alexander Bird - 2012 - British Journal for the Philosophy of Science 63 (4):859-883.details
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What (Good) is Historical Epistemology? Editors' Introduction.Uljana Feest & Thomas Sturm - 2011 - Erkenntnis 75 (3):285-302.details
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Induction from a Single Instance: Incomplete Frames. [REVIEW]Rafal Urbaniak & Frederik Van De Putte - 2013 - Foundations of Science 18 (4):641-653.details
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From Features via Frames to Spaces: Modeling Scientific Conceptual Change Without Incommensurability or Aprioricity.Frank Zenker - 2014 - In T. Gamerschlag, R. Gerland, R. Osswald & W. Petersen (eds.), Frames and Concept Types: Applications in Language and Philosophy. pp. 69-89.details
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Kinds as Universals: A Neo‑Aristotelian Approach.David Hommen - 2019 - Erkenntnis 86 (2):1-29.details
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A frame-based approach for theoretical concepts.Stephan Kornmesser - 2016 - Synthese 193 (1):145-166.details
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Kuhn's constructionism.K. Brad Wray - 2010 - Perspectives on Science 18 (3):311-327.details
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Genidentity and Biological Processes.Thomas Pradeu - 2018 - In Daniel J. Nicholson & John Dupré (eds.), Everything Flows: Towards a Processual Philosophy of Biology. Oxford, United Kingdom: Oxford University Press.details
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Analyzing Theories in the Frame Model.Stephan Kornmesser & Gerhard Schurz - 2020 - Erkenntnis 85 (6):1313-1346.details
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Frames and concepts in the philosophy of science.Stephan Kornmesser - 2018 - European Journal for Philosophy of Science 8 (2):225-251.details
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Kuhn’s philosophical conception of science as evolutionary, social, and epistemological: K. Brad Wray: Kuhn’s evolutionary social epistemology. Cambridge: Cambridge University Press, 2011, xiii+229pp, £58 HB.Thomas Nickles - 2013 - Metascience 23 (1):37-42.details
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Brad Wray Kuhn's evolutionary social epistemology.Rupert Read & Jessica Woolley - 2013 - British Journal for the Philosophy of Science 64 (3):659-664.details
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The Cognitive Structure of Scientific Revolutions.Peter Barker - 2011 - Erkenntnis 75 (3):445-465.details
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Incommensurability naturalized.Alexander Bird - 2008 - In Lena Soler, Howard Sankey & Paul Hoyningen-Huene (eds.), Rethinking Scientific Change and Theory Comparison: Stabilities, Ruptures, Incommensurabilities? Springer. pp. 21--39.details
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Untranslatability of Theories with Different Vocabularies.Mohammad Mahdi Hatef - 2019 - Journal of Philosophical Investigations 12 (25):285-305.details
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Die Tripelstruktur der Begriffe.W. Balzer & V. Kuznetsov - 2010 - Journal for General Philosophy of Science / Zeitschrift für Allgemeine Wissenschaftstheorie 41 (1):21 - 43.details
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Ontological commitments of frame-based knowledge representations.David Hommen - 2019 - Synthese 196 (10):4155-4183.details
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Explaining Referential Stability of Physics Concepts: The Semantic Embedding Approach. [REVIEW]Andreas Bartels - 2010 - Journal for General Philosophy of Science / Zeitschrift für Allgemeine Wissenschaftstheorie 41 (2):267 - 281.details
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Systemic view of learning scientific concepts: A description in terms of directed graph model.Ismo T. Koponen - 2014 - Complexity 19 (3):27-37.details
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