Abstract
In this paper, we argue that classics reading, a traditional way of implementing general education, can be effective in nurturing epistemic insight in a multidisciplinary class setting in the higher education context. We think that epistemic insight is at the core of scientific literacy. The General Education Foundation Programme of The Chinese University of Hong Kong, which requires students to read science-related classics, was studied. The ways in which such classics are used to nurture epistemic insight are explained. Evaluation results show that the programme is, in general, well received by the students and is effective in nurturing scientific literacy through epistemic insight. We hypothesized that the success is due to the underlying presence of the nature-knowledge-value framework. Such a framework helps students to become aware of the different views about science (the first level of epistemic insight) and to reflect on the origin, the inter-relationship, the complexity and the limitations of such diverse views (the second level of epistemic insight). This second level is what we propose to be suitable for nurturing scientific literacy in tertiary students. We expect that the present reflection will be useful for developing innovative pedagogies for nurturing epistemic insight and for guiding in-depth studies on their effectiveness.
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References
Astin, A. W. (2012). Assessment for excellence: The philosophy and practice of assessment and evaluation in higher education (2nd ed.). Lanham: Rowman & Littlefield Publishers.
Billingsley, B., Taber, K., Riga, F., & Newdick, H. (2013). Secondary school students epistemic insight into the relationships between science and Religion—A preliminary enquiry. Research in Science Education, 43, 1715–1732.
Billingsley, B. (2017). Teaching and learning about epistemic insight. School Science Review, 365, 59–64.
Billingsley, B., & Hardman, M. (2017). Epistemic insight: teaching and learning about the nature of science in real-world and multidisciplinary arenas. School Science Review, 365, 57–58.
Carson, R. N. (1997). Science and the ideals of liberal education. Science & Education, 6, 225–238.
Chan, C. W., Szeto, W. M., & Wong, W. H. (2012). In Dialogue with Nature (2nd ed.). Office of University General Education, the Chinese University of Hong Kong.
Chesky, N. Z., & Wolfmeyer, M. R. (2015). STEM’s what, why, and how? Ontology, axiology, and epistemology. Philosophy of STEM education: A critical investigation (pp. 17–43). New York: Palgrave Pivot.
Chiu, J., Ho, W. M., Leung, M. Y., & Yeung, Y. (2016). In Dialogue with Humanity (4th ed.). Office of University General Education, the Chinese University of Hong Kong.
Colanero, K. (2014). The nature of scientific knowledge and its relevance for our choice of interventions on Nature. In L. Fiorani (Ed.), Proceedings of the conference Relazionalità naturale e coscienza ambientale, ENEA, Castel Gandolfo: 53–60.
Colanero, K. (2015). Two dialogues for a foundation beyond the two cultures dichotomy. In General Education International Conference 2015—Foundations of General Education, June 12–13, 2015. The Chinese University of Hong Kong.
Colanero, K., & Redaelli, S. (2016). Le Due Culture: Due approcci oltre la dicotomia (The Two Cultures: two approaches beyond the dichotomy). Roma: Aracne.
DeBoer, G. E. (2000). Scientific literacy: Another look at its historical and contemporary meanings and its relationship to science education reform. Journal of Research in Science Teaching, 37(6), 582–601.
Dinther, M., Dochy, F., Segers, M., & Braeken, J. (2014). Student perceptions of assessment and student self-efficacy in competence-based education. Educational Studies, 40(3), 330–351.
Eames, S. M. (1977). Pragmatic naturalism: An introduction (1st ed.). Southern Illinois University Press.
Engle, E. (2008). Ontology, epistemology, axiology: Bases for a comprehensive theory of law. SSRN Scholarly Paper, ID 1268528, Social Science Research Network, September 15, 2008.
GEFP. (2018). “Background” and “Mission & Vision”. General education foundation programme. Retrieved February 26, 2018 from http://www5.cuhk.edu.hk/oge/index.php/en/gef.
Gellner, E. (1974). Legitimation of belief. Cambridge University Press.
Giroux, H. A. (1979). Review of ideology and curriculum. The Journal of Education, 161(4), 88–91.
Gjertsen, D. (1984). The classics of science. New York: Lilia Barber Press.
Goodney, D. E., & Long, C. S. (2003). The collective classic a case for the reading of science. Science & Education, 12, 167–184.
Hurd, P. D. (2000). Science education for the 21st century. School Science and Mathematics, 100(6), 282–288.
Kiang, K. M., Ng, A. K. L., & Cheung, D. H. C. (2015). Teaching science to non-science students with science classics. American Journal of Educational Research, 3(10), 1291–1297.
Kiang, K. M., Chan, H. Y., Ng, A. K. L., & Cheung, D. H. C. (2016). Effectiveness of micro-modules in a science classics course. American Journal of Educational Research, 4(13), 917–926.
Kiang, K. M., Cheung, D. H. C., & Ng, A. K. L. (2018). Nurturing scientific literacy for all undergraduates via science classics. In Proceedings of the International Science Education Conference, June 19–21, 2018. Singapore: National Institute of Education.
Konnemann, C., Höger, C., Asshoff, R., Hammann, M., & Rieß, W. (2018). A role for epistemic insight in attiutde and belief change? Lessons from a Cross-curricular Course on Evolution and Creation, Research in Science Education, 48(6), 1187–1204.
Kuhn, T. S. (1962). The structure of scientific revolutions. University of Chicago Press.
Lindberg, D. C. (2007). The beginnings of western science, the European scientific tradition in philosophical, religious, and institutional context, prehistory to A.D. 1450 (2nd ed.). the University of Chicago Press.
Martin, L. (2010). Relationship between teacher preparedness and inquiry-based instructional practices to students’ science achievement: Evidence from TIMSS 2007. (Doctoral Dissertation). Indiana Univeristy of Pennsylvania, Pennsylvania, USA.
Ng, A. K. L., Kiang, K. M., & Cheung, D. H. C. (2016). Assessing students’ attainment in learning outcomes: A comparison of course-end evaluation and entry-exit surveys. World Journal of Education, 6(3), 56–65.
Nichols, J., Mauldin, R., & Gaff, J. (2015). Improving learning in general education: An AGLS guide to assessment and program review. Association for General and Liberal Studies.
Norris, S. P., & Phillips, L. M. (2003). How literacy in its fundamental sense is central to scientific literacy. Science Education, 87, 224–240.
Odom, A., Stoddard, E., & LaNasa, S. (2007). Teacher practices and middle-school science achievements. International Journal of Science Education, 29(11), 1329–1346.
Organisation for Economic Co-operation and Development. (2007). Programme for International Student Assessment (PISA) 2006 Volume 1: Science Competencies for Tomorrow’s World, PISA. Paris: OECD Publishing.
Organisation for Economic Co-operation and Development. (2016). Programme for International Student Assessment (PISA) 2015 Volume 1: Excellence and Equity in Education, PISA. Paris: OECD Publishing.
Owens, D. C., Pear, R. S. A., Alexander, H. A., Reiss, M. J., & Tal, T. (2018). Scientific and religious perspectives on evolution in the curriculum: An approach based on pedagogy of difference. Research in Science Education, 48(6), 1171–1186.
Popper, K. (1963). Conjectures and refutations. London: Routledge and Keagan Paul.
Preti, G. (1968). Retorica e logica. Le due culture (Rhetoric and logic. The two cultures). Einaudi: Torino.
Roberts, D. A. (2007). Scientific literacy/Science literacy. Handbook of research on science education (pp. 729–780). National Association for Research in Science Teaching.
Schunk, D. H., & Meece, J. L. (1992). Students perception in the classroom (1st ed.). Routledge.
Shipman, H. L., Brickhouse, N. W., Dagher, Z., & Letts, W. J. (2002). Changes in student views of religion and science in a college astronomy course. Science Education, 86, 526–547.
Wong, W. H., & Chiu, J. (2010). 進入對話的傳統:香港中文大學的通識教育基礎課程 (Entering the tradition of Dialogues—The General Education Foundation Programme of the Chinese University of Hong Kong). 大學通識報 (University General Education Bulletin), 6, 113–134.
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We gratefully acknowledge the support we received from the colleagues in the Office of University General Education for this research.
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Kiang, K.M., Colanero, K. (2020). A Classics Reading Approach to Nurture Epistemic Insight in a Multidisciplinary and Higher Education Context. In: Teo, T.W., Tan, AL., Ong, Y.S. (eds) Science Education in the 21st Century. Springer, Singapore. https://doi.org/10.1007/978-981-15-5155-0_4
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