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In this chapter, we review recent trends in the philosophy of chemistry and its applications in chemical education. Chemistry has maintained quite a peripheral existence in the philosophy of science for a long time, thus evading focused attention and critical analysis. However, since the 1990s an increasing number of books, journals, conferences and associations focused on philosophy of chemistry highlighting the contributions of chemistry to philosophy of science (Bhushan and Rosenfeld, Of minds and molecules: new philosophical perspectives on chemistry. Oxford University Press, Oxford, 2000; Hendry, The metaphysics of chemistry. Oxford University Press, 2012; McIntyre and Scerri, Synthese 111(3):211–212, 1997; Scerri and McIntyre, Synthese 111(3):213–232, 1997; Schummer, The philosophy of chemistry: From infancy toward maturity. In: Baird D, Scerri E, McIntyre L (eds) Philosophy of chemistry: synthesis of a new discipline. Springer, Dordrecht, pp 19–39, 2006; Van Brakel, Ambix 57(2):233–234, 2010; Van Brakel, Synthese 111(3):253–282, 1997; Woody, Philosophy of Science 67 (Proceedings):S612–S627, 2000). The uptake of this new domain in the context of chemical education research and practice has been minimal despite some earlier acknowledgment of the potential significance for chemical education (Erduran, Science & Education 10:581–593, 2001; Gilbert et al. Research and development for the future of chemical education. In: Gilbert et al. (eds) Chemical education: towards research-based practice. Kluwer, Dordrecht, pp 391–408, 2003). The special edition of the Science & Education journal on "Philosophy, Chemistry and Education: An Introduction" (Erduran, Science & Education, 2013) is the first collection where the work on the applications of philosophy of chemistry in chemical education has been collated. This chapter will begin with an overview of some of the key and example debates in philosophy of chemistry. These examples will include themes such as reductionism (e.g. Scerri, Journal of Chemical Education 68(2):122–126, 1991) and supervenience (e.g. Papineau, Arguments for supervenience and physical realization. In: Savellos EE, Yalcin U (eds) supervenience: new essays. Cambridge University Press, 1995) as well as aspects of chemical knowledge such as laws (e.g. Christie and Christie, "Laws' and "theories' in chemistry do not obey the rules. In: Bhushan N, Rosenfeld S (eds) Of minds and molecules. Oxford University Press, Oxford, pp 34–50, 2000), models (e.g. Woody, Science & Education, 2013) and explanations (e.g. Hendry, The chemical bond: structure, energy and explanation. In: Dorato M, Redei M, Suarez M (eds) EPSA: Philosophical issues in the sciences: launch of the European Philosophy of Science Association. Springer, Berlin, pp 117–127, 2010.). Second, the implications of these themes for chemical education research and practice will be explored. The central argument is that understanding of how chemistry is conceptualised and how chemistry is learned, chemical education research has to be informed by the debates about the epistemology and ontology of chemistry. The discussion will be contextualised in the area of nature of science (NOS) that has been one of the highly studied areas of research in science education (Chang et al. Journal of Science Education and Technology, 2010). Contributions of how philosophy of chemistry can contribute to the characterisation of NOS by nuanced perspectives on the nature of chemistry will be discussed. Theoretical perspectives and empirical studies on NOS have tended to focus on domain-general aspects of scientific knowledge with limited understanding of domain-specific ways of thinking. NOS literature can be further developed both theoretically and empirically, thereby contributing more to HPS studies in science education. Third, some applications of philosophy of chemistry in chemical education will be reviewed in more detail. For example, proposed work for secondary chemical education, including the context of the teaching of periodic law through argumentation, will be visited (e.g. Erduran, Foundations of Chemistry 9(3):247–263, 2007). Fourth, the chapter will argue that there is developing potential for reciprocal interplay between philosophy of chemistry and chemical education. While philosophy of chemistry has the potential to influence chemistry education, chemistry education in turn can influences philosophy of chemistry, particularly in relation to empirical foundations of chemical reasoning. The paper will conclude with some recommendations on the future directions of research in chemical education that is informed by philosophy of chemistry.

DOI: 10.1007/978-94-007-7654-8_10

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