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The Status of the Lines of Force in Michael Faraday’s Thought: History and Philosophy of Science in the Classroom

  • Sonia Maria DionEmail author
Chapter
Part of the Science: Philosophy, History and Education book series (SPHE)

Abstract

Using primary sources, the work presents a study on the change in the ontological status of the lines of force in the thought of Michael Faraday (1791–1867), who moves from an instrumentalist to a realist view on this subject. This historical case is then further examined to show the context surrounding his ideas and his reasons justifying them. From this point on, the chapter suggests a reading approach for introducing a philosophical question in the teaching of physics. To this end, it establishes some connections between Faraday’s ideas and students’ views about lines of force, without turning into the criticized parallelism between ontogenesis and phylogenesis. Results from literature, interpreted in the light of Gaston Bachelard’s ideas, indicate the existence of a widespread realist perspective among students. The author suggests that this realism identified in the historical and pedagogical contexts might work as the communication link between reader and text considering the given differences between their contexts.

References

  1. Bachelard, G. ([1934] 1967). La formation de l’esprit scientifique. Paris: Librairie Philosophique J. Vrin.Google Scholar
  2. Bachelard, G. ([1940] 1966). La philosophie du non. Paris: Les Presses Universitaires de France.Google Scholar
  3. Chi, M. T. H., Slotta, J. D., & de Leeuw, N. (1994). From things to processes: A theory of conceptual change for learning science concepts. Learning and Instruction, 4, 27–43.CrossRefGoogle Scholar
  4. Dagher, Z. R., & Erduran, S. (2016). Reconceptualizing the nature of science for science education: Why does it matter? Science Education, 25, 147–164.CrossRefGoogle Scholar
  5. Devitt, M. (1997). Realism and truth. Princeton: Princeton University Press.Google Scholar
  6. Faraday, M. ([1839–1855] 1952). Experimental researches in electricity. In Great books of the western world: Lavoisier, Fourier, Faraday, Robert Maynard Hutchins (pp. 255–898). Chicago: Encyclopædia Britannica.Google Scholar
  7. Fisher, H. J. (2001). Faraday’s experimental researches in electricity: Guide to a first reading. Santa Fe: Green Lyon Press.Google Scholar
  8. Heimann, P. M. (1971). Faraday’s theories of matter and electricity. British Journal for the History of Science, 5, 235–257.CrossRefGoogle Scholar
  9. Heimann, P. M., & McGuire, J. E. (1971). Newtonian forces and Lockean powers: Concepts of matter in eighteenth century thought. Historical Studies in the Physical Sciences, 3, 233–306.CrossRefGoogle Scholar
  10. Höttecke, D., & Silva, C. C. (2011). Why implementing history and philosophy in school science education is a challenge: An analysis of obstacles. Science Education, 20, 293–316.CrossRefGoogle Scholar
  11. Kampourakis, K. (2016). (The) nature(s) of science(s) and (the) scientific method(s). Science Education, 2, 1–2.Google Scholar
  12. Klein, M. J. (1972). Use and abuse of historical teaching in physics. In S. G. Brush & A. L. King (Eds.), History in the teaching of physics (pp. 12–18). Hanover: University Press of New England.Google Scholar
  13. Levere, T. H. (1968). Faraday, matter and natural theology: Reflections on an unpublished manuscript. British Journal for the History of Science, 4, 95–97.CrossRefGoogle Scholar
  14. Matthews, M. R. (1988). A role for history and philosophy in science teaching. Educational Philosophy and Theory, 20(2), 67–81.CrossRefGoogle Scholar
  15. Matthews, M. R. (1994). Science teaching: The role of history and philosophy of science. New York: Routledge.Google Scholar
  16. Niiniluoto, I. (1999). Critical scientific realism. Oxford: Oxford University Press.Google Scholar
  17. Pocoví, M. C. (2007). The effects of a history-based instructional material on the students’ understanding of field lines. Journal of Research in Science Teaching, 44(1), 107–132.CrossRefGoogle Scholar
  18. Pocoví, M. C., & Finley, F. (2002). Lines of force: Faraday’s and students’ views. Science & Education, 11, 459–474.CrossRefGoogle Scholar
  19. Russell, C. (1984). Whigs and professionals. Nature, 308, 777–778.CrossRefGoogle Scholar
  20. Teixeira, E. S., Greca, I. M., & Jr, O. F. (2012). The history and philosophy of science in physics teaching: A research synthesis of didactic interventions. Science Education, 21, 771–796.CrossRefGoogle Scholar
  21. Whitaker, R. J. M. A. B. (1979). History and quasi-history in physics education, Parts I, II. Physics Education, 14(108–112), 239–242.CrossRefGoogle Scholar
  22. Williams, L. P. (1965). Michael Faraday. New York: Basic Books.Google Scholar

Copyright information

© Springer International Publishing AG, part of Springer Nature 2018

Authors and Affiliations

  1. 1.Department of PhilosophySão Judas UniversitySão PauloBrazil

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