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  1. The Role of Mathematics in Physical Sciences: Interdisciplinary and Philosophical Aspects.Giovanni Boniolo, Paolo Budinich & Majda Trobok (eds.) - 2005 - Springer.
    Even though mathematics and physics have been related for centuries and this relation appears to be unproblematic, there are many questions still open: Is mathematics really necessary for physics, or could physics exist without mathematics? Should we think physically and then add the mathematics apt to formalise our physical intuition, or should we think mathematically and then interpret physically the obtained results? Do we get mathematical objects by abstraction from real objects, or vice versa? Why is mathematics effective into physics? (...)
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  • Models and Analogies in Science.Mary Hesse - 1965 - British Journal for the Philosophy of Science 16 (62):161-163.
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  • The History of the Calculus and Its Conceptual Development: (The Concepts of the Calculus).Carl B. Boyer - 1949 - Courier Corporation.
    Traces the development of the integral and the differential calculus and related theories since ancient times.
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  • History, philosophy, and science teaching: The present rapprochement.Michael R. Matthews - 1992 - Science & Education 1 (1):11-47.
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  • The Character of Physical Law.Richard Feynman - 1965 - MIT Press.
    The law of gravitation, an example of physical law The relation of mathematics to physics The great conservation principles Symmetry in physical law The distinction of past and future Probability and uncertainty: the quantum mechanical view of nature Seeking new laws.
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  • What Did Mathematics Do to Physics?Yves Gingras - 2001 - History of Science 39 (4):383-416.
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  • How do Scientists Think? Capturing the Dynamics of Conceptual Change in Science.Nancy Nersessian - 1992 - In R. Giere & H. Feigl (eds.), Cognitive Models of Science. University of Minnesota Press. pp. 3--45.
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  • The value of science.Henri Poincaré - 1958 - New York,: Dover Publications. Edited by George Bruce Halsted.
    THE VALUE OF SCIENCE INTRODUCTION The search for truth should be the goal of our activities; it is the sole end worthy of them. Doubtless we should first bend our efforts to assuage human suffering, but why ? Not to suffer is a negative ...
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  • Models and Analogies in Science.Mary B. Hesse - 1963 - [Notre Dame, Ind.]: University of Notre Dame Press.
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  • The unreasonable effectiveness of mathematics in the natural sciences.Eugene Wigner - 1960 - Communications in Pure and Applied Mathematics 13:1-14.
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  • The Applicability of Mathematics as a Philosophical Problem.Mark Steiner - 1998 - Harvard University Press.
    This book analyzes the different ways mathematics is applicable in the physical sciences, and presents a startling thesis--the success of mathematical physics ...
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  • The mathematical experience.Philip J. Davis - 1981 - Boston: Birkhäuser. Edited by Reuben Hersh & Elena Marchisotto.
    Presents general information about meteorology, weather, and climate and includes more than thirty activities to help study these topics, including making a ...
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  • Models in physics.Mary B. Hesse - 1953 - British Journal for the Philosophy of Science 4 (15):198-214.
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  • The Applicability of Mathematics as a Philosophical Problem.Mark Steiner - 2000 - Mind 109 (434):390-394.
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  • The nature of science in science education: An introduction.William F. Mccomas, Hiya Almazroa & Michael P. Clough - 1998 - Science & Education 7 (6):511-532.
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  • Models and Analogies in Science.Mary B. Hesse - 1966 - Philosophy and Rhetoric 3 (3):190-191.
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  • Mental, physical, and mathematical models in the teaching and learning of physics.Ileana Maria Greca & Marco Antonio Moreira - 2002 - Science Education 86 (1):106-121.
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  • Models in physics.Michael Redhead - 1980 - British Journal for the Philosophy of Science 31 (2):145-163.
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  • Einstein, Meyerson and the role of mathematics in physical discovery.Elie Zahar - 1980 - British Journal for the Philosophy of Science 31 (1):1-43.
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  • Philosophy of Physics.Mario Bunge - 1973 - Journal for General Philosophy of Science / Zeitschrift für Allgemeine Wissenschaftstheorie 4 (2):407-409.
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  • On the Role of Mathematics in Physics.Andreas Quale - 2011 - Science & Education 20 (3-4):359-372.
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  • Philosophy of Physics.Mario Bunge - 1984 - Revista Portuguesa de Filosofia 40 (1):214-215.
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  • The idea of quantity at the origin of the legitimacy of mathematization in physics.Michel Paty - 2003 - In C. Gould (ed.), Constructivism and Practice: Towards a Social and Historical Epistemology. Rowman& Littlefield. pp. 109-135.
    Newton's use of mathematics in mechanics was justified by him from his neo-platonician conception of the physical world that was going along with his «absolute, true and mathematical concepts» such as space, time, motion, force, etc. But physics, afterwards, although it was based on newtonian dynamics, meant differently the legitimacy of being mathematized, and this difference can be seen already in the works of eighteenth century «Geometers» such as Euler, Clairaut and d'Alembert (and later on Lagrange, Laplace and others). Despite (...)
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