Abstract
We started the Conceptual Structure of School Chemistry research project, a part of which is reported on here, with an attempt to solve the problem of the hidden structure in school chemistry. In order to solve that problem, and informed by previous research, we performed a content analysis of school chemistry textbooks and syllabi. This led us to the hypothesis that school chemistry curricula are based on an underlying, coherent structure of chemical concepts that students are supposed to learn for the purpose of explaining and predicting chemical phenomena. The elicited comments and criticisms of an International Forum of twenty-eight researchers of chemical education, though, refuted the central claims of this hypothesis. This led to a descriptive theory of the currently dominant school chemistry curriculum in terms of a rigid combination of a specific substantive structure, based on corpuscular theory, a specific philosophical structure, educational positivism, and a specific pedagogical structure, involving initiatory and preparatory training of future chemists. Secondly, it led to an explanatory theory of the structure of school chemistry – based on Kuhn's theory of normal science and scientific training – in which dominant school chemistry is interpreted as a form of normal science education. Since the former has almost all characteristics in common with the latter, dominant school chemistry must be regarded as normal chemistry education. Forum members also formulated a number of normative criticisms on dominant school chemistry, which we interpret as specific dangers of normal chemistry education, complementing Popper's discussion of the general dangers of normal science and its teaching. On the basis of these criticisms, it is argued that normal chemistry education is isolated from common sense, everyday life and society, history and philosophy of science, technology, school physics, and from chemical research.
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REFERENCES
Acampo, J.: 1997, Teaching Electrochemical Cells, CD-beta Press, Utrecht University, Utrecht.
Aikenhead, G. S.: 1997, ‘Changes Need to Succeed Where We Previously Failed’, in KEDI: Globalisation of Science Education — Moving Toward Worldwide Science Education Standards, Proceedings of the International Conference on Science Education, May 26–30, Korea.
Barnes, B.: 1982, T. S. Kuhn and Social Science, The MacMillan Press Ltd., London and Basingstoke.
Cromer, A.: 1993, Uncommon Sense, The Heretical Nature of Science, Oxford University Press, New York.
Clynes, S. & Williams, D. J. W.: 1960, General School Chemistry (first printed 1956, revised 1960), The English Universities Press, London.
DeBoer, G. E.: 1991, A History of Ideas in Science Education, Teachers College Press, New York.
De Vos, W. & Verdonk, A. H.: 1985, ‘A New Road to Reactions: Parts 1 and 2’, Journal of Chemical Education 62(3), 238-240; 62(8), 648–649.
De Vos, W. & Verdonk, A. H.: 1986, ‘A New Road to Reactions: Part 3’, Journal of Chemical Education 63(11), 972-974.
De Vos, W. & Verdonk, A. H.: 1987, ‘A New Road to Reactions: Parts 4 and 5’, Journal of Chemical Education 64(8), 692-694; 64(12), 1010–1013.
De Vos, W., van Berkel, B. & Verdonk, A. H.: 1991, A Structure in School Chemistry. Unpublished paper used as a probe with an International Forum of researchers in chemical education.
e Vos, W.: 1992, ‘The Hidden Structure in School Chemistry — And How to Escape from It’, in R. F. Kempa & D. J. Waddington (eds.), Bringing Chemistry to Life, Proceedings of the 11th International Conference on Chemical Education, The Royal Society of Chemistry, London, pp. 77-83.
De Vos, W., van Berkel, B. & Verdonk, A. H.: 1993, ‘Het Isolement van een Schoolvak’, Tijdschrift voor Didactiek der Beta-Wetenschappen 11(2), 98-109.
De Vos, W., van Berkel, B. & Verdonk, A. H.: 1994, ‘A Coherent Conceptual Structure of the Chemistry Curriculum’, Journal of Chemical Education 71(9), 743-746.
Duschl, R. A.: 1993, ‘Research on the History and Philosophy of Science’, in D. Gabel (ed.), Handbook of Research on Science Teaching and Learning, MacMillan, New York, pp. 443-465.
Fensham, P. J.: 1992, ‘Science and Technology’, in P. W. Jackson (ed.), Handbook of Research on Curriculum, MacMillan Publishing Company, New York, pp. 789-829.
Garforth, F. M.: 1983, ‘Chemistry to 16+ Examination: Work in Progress — Help Needed’, Education in Science 102, 29-30.
Goodlad, J. I. et al.: 1979, Curriculum Inquiry: The Study of Educational Practice, McGraw-Hill, New York.
Goodlad, J. I.: 1994, ‘Curriculum as a Field of Study’, in T. Husen & T. N. Postlethwaite (eds.), The International Enyclopedia of Education, Pergamon Press, Oxford, UK, pp. 1262-1267.
Hodson, D.: 1988, ‘Experiments in Science and Science Teaching’, Educational Philosophy and Theory 20(2), 53-66.
Hoffmann, R.: 1995, The Same and Not the Same, Columbia University Press, New York.
Holderness, A. & Lambert, J.: 1987, A New Certificate Chemistry (first published 1961, sixth edition 1987), Heinemann Educational Books, Oxford.
Hoyningen-Huene P.: 1993, Reconstructing Scientific Revolutions — Thomas S. Kuhn's Philosophy of Science, University of Chicago Press, Chicago.
Koertge, N.: 1996, ‘Towards the Integration of Content and Method in the Science Curriculum’ (first published in 1969), Science and Education 5(4), 391-401.
Kuhn, T. S.: 1963, ‘The Function of Dogma in Scientific Research’, in A. C. Crombie (ed.), Scientific Change, Heinemann, London, pp. 347-395.
Kuhn, T. S.: 1970a, The Structure of Scientific Revolutions (second edition; first edition, 1962), University of Chicago Press, Chicago.
Kuhn, T. S.: 1970b, ‘Logic of Discovery or Psychology of Research?’, in I. Lakatos & A. Musgrave, Criticism and the Growth of Knowledge, Cambridge University Press, London, pp. 1-23.
Kuhn, T. S.: 1970c, ‘Reflection on my Critics’, in I. Lakatos & A. Musgrave, Criticism and the Growth of Knowledge, Cambridge University Press, London, pp. 231-278.
Kuhn, T. S.: 1977a, ‘The Essential Tension: Tradition and Innovation in Scientific Research’ (first published, 1959), in T. S. Kuhn, The Essential Tension, University of Chicago Press, Chicago, pp. 225-239.
Kuhn, T. S.: 1977b, ‘The Function of Measurement in Modern Physical Research’ (first published, 1961), in T. S. Kuhn, The Essential Tension, University of Chicago Press, Chicago, pp. 178-224.
Kuhn, T. S.: 1977c, The Essential Tension, University of Chicago Press, Chicago.
Mathews, J. C.: 1964, A Modern Chemistry Course, Hutchinson Educational, London.
Matthews, M.: 1994, Science Teaching: The Role of History and Philosophy of Science, Routledge, New York.
Matthews, M.: 1998, ‘The Nature of Science and Science Teaching’, in B. J. Fraser & K. G. Tobin (eds.), International Handbook of Science Education, Kluwer Academic Publishers, Dordrecht, pp. 421-447.
Medawar, P. B.: 1963, ‘Is the Scientific Paper a Fraud’, The Listener 70 (September 12), 377-378.
Nuffield Chemistry Introduction and Guide: 1966, The Nuffield Foundation, Longmans, London.
Popper, K. R.: 1950, The Open Society and its Enemies, Princeton University Press, Princeton, NJ.
Popper, K. R.: 1970, ‘Normal Science and its Dangers’, in I. Lakatos & A. Musgrave, Criticism and the Growth of Knowledge, Cambridge University Press, London, pp. 51-59.
Popper, K. R.: 1972, Objective Knowledge, Clarendon Press, Oxford.
Popper, K. R.: 1983, Realism and the Aim of Science, Hutchinson, London.
Popper, K. R.: 1994, The Myth of the Framework: In Defense of Science and Rationality, Routledge, London.
Salters' GCSE Chemistry Course: 1987, University of York Science Education Group, York.
Schwab, J. J.: 1962, ‘The Teaching of Science as Enquiry’, in J. J. Schwab & P. F. Brandwein (eds.), The Teaching of Science, Harvard University Press, Cambridge, MA, pp. 1-104.
Schwab, J. J.: 1964a, ‘Structure of the Disciplines: Meanings and Significances’, in G. W. Ford & L. Pugno (eds.), The Structure of Knowledge and the Curriculum, Rand McNally, Chicago, pp. 31-49.
Schwab, J. J.: 1964b, ‘The Structure of the Natural Sciences’, in G. W. Ford & L. Pugno (eds.), The Structure of Knowledge and the Curriculum, Rand McNally, Chicago, pp. 1-31.
Schwab, J. J.: 1978, ‘Education and the Structure of the Disciplines’, in I. Westbury & N. J. Wilkof (eds.), Joseph J. Schwab: Science, Curriculum and Liberal Education, Selected Essays, University of Chicago Press, Chicago.
Siegel, H.: 1990, Educating Reason: Rationality, Critical Thinking and Education, Routledge, New York.
Snow C. P.: 1959, The Two Cultures and the Scientific Revolution, Cambridge University Press, New York.
Solomon, J. & Aikenhead, G. (eds.): 1994, STS Education: International Perspectives on Reform, Teachers College Press, Colombia University, New York & London.
Van Berkel, B. & de Vos, W.: 1993, ‘Structures in School Chemistry’, in H. Kramers-Pals & G. Niehaus (eds.), Chemiedidactische Forschung, Lopend Onderzoek in de Chemiedidactiek, Proceedings of the Euregio-Conference 1992, Westarp Wissenschaften, pp. 25-33.
Van Berkel, B.: 1996, ‘A Conceptual Structure of School Chemistry — A Chemical Education Research Project’, in P. Janich & N. Psarros (eds.), Die Sprache der Chemie: 2. Erlenmeyer-Kolloquium zur Philosophie der Chemie, Königshausen & Neumann, Universität Marburg, Würzburg, pp. 141-157.
Van Berkel, B.: 1999, The Nature and Structure of School Chemistry (Ph.D. thesis, to be published, 1999), CD-beta Press, Utrecht University, Utrecht, The Netherlands.
Van Driel, J. H., de Vos, W., Verloop, N. & Dekkers, H.: 1998, ‘Developing Secondary Students' Conceptions of Chemical Reactions: The Introduction of Chemical Equilibrium’, International Journal of Science Education 20(4), 379-392.
Van Hoeve-Brouwer, G. M.: 1996, Teaching Structures in Science, CD-beta Press, Utrecht University, The Netherlands.
Van den Akker, J.: 1998, ‘The Science Curriculum: Between Ideals and Outcomes’, in B. J. Fraser & K. G. Tobin (eds.), International Handbook of Science Education, Kluwer Academic Publishers, Dordrecht, pp. 421-447.
Verdonk, A. H.: 1995, ‘Chemiebeoefening een Onderwijsleerproces?’, in O. de Jong, P. van Roon & W. de Vos (eds.), Perspectives on Research in Chemical Education, CD-beta Press, Utrecht University, The Netherlands, pp. 57-67.
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Van Berkel, B., De Vos, W., Verdonk, A.H. et al. Normal Science Education and its Dangers: The Case of School Chemistry. Science & Education 9, 123–159 (2000). https://doi.org/10.1023/A:1008765531336
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DOI: https://doi.org/10.1023/A:1008765531336