Abstract
Interdisciplinary science and mathematics learning can be enhanced via the dynamics of drama in the form of creative and body-based learning (CBL). This pedagogical approach allows pre-service teachers to be engaged personally, to express their own ideas and to help students discover meaningful connections to mathematical and science concepts. A professional learning program that was generated through collaboration between a group of South Australian and Texan academics in the areas of mathematics and arts highlighted the potential of CBL to provide new and innovative pedagogical approaches to the teaching of science and mathematics curriculum. This chapter documents strategies in which science and mathematical concepts form the basis of interactive scenarios, role-plays and drama games that offer pedagogical alternatives for teachers and pre-service teachers to engage their own students in developing conceptual understanding. Practical strategies which have been modelled with pre-service teachers, primary teachers and their classes are described. These strategies include: ‘The Truth about Me’; ‘Alphabet Relay’; ‘People, Shelter, Storm’; and the sum of internal angles through the ‘Human Geoboard’ and the ‘Sir Cumference Quest’. Dramatising gears, electrical circuits, dichotomous keys and equitable distribution of world resources allows a focus on particular science and mathematics concepts.
This is a preview of subscription content, log in via an institution to check access.
Access this chapter
Tax calculation will be finalised at checkout
Purchases are for personal use only
References
Australian Academy of Science. (2020). Primary connections: Linking science with literacy. Canberra, ACT: AAS. Retrieved from https://primaryconnections.org.au/
Australian Association for Mathematics Teachers. (n.d.). Maths300. Retrieved from https://aamt.edu.au/teachers/resources/maths-300/
Australian Curriculum, Assessment and Reporting Authority [ACARA]. (2017). Foundation to year 10 curriculum: Science. Retrieved from https://www.australiancurriculum.edu.au/f-10-curriculum/science/
Baker, A., & Baker J. (2019). Natural maths. Retrieved from https://naturalmaths.com.au/
Ball, D. L. (2000). Bridging practices: Intertwining content and pedagogy in teaching and learning to teach: Knowing and using mathematics. Journal of Teacher Education, 51(3), 241–247. https://doi.org/10.1177/0022487100051003013
Berdayes, V. (2004). The body and educational practice: Some themes in the work of Paolo Freire. In V. Berdayes, L. Esposito, & J. W. Murphy (Eds.), The body in human inquiry: Interdisciplinary explorations of embodiment (pp. 217–231). Hampton Press.
Boal, A. (1974). The theatre of the oppressed. Pluto Press.
Bresler, L. (Ed.). (2004). Knowing bodies, moving minds: Toward embodied teaching and learning. Kluwer Academic.
Brown, L., O’Keeffe, L., & Paige, K. (2017). The colour is velvet: A transdisciplinary approach to connecting students, from a refugee background, to the natural world. Teaching Science: THe Journal of the Australian Science Teachers Association, 63(4), 20–32.
Callow, J., & Orlando, J. (2015). Enabling exemplary teaching: A framework of student engagement for students from low socio-economic backgrounds with implications for technology and literacy practices. Pedagogies: An International Journal, 10(4), 349–371.
Chartres, M. (2008). Are my students engaged in critical mathematics education? In J. F. Matos, P. Valero, & K. Yasukawa (Eds.), Proceedings of the Fifth International Mathematics Education and Society Conference (pp. 23–45). Lisbon, Portugal: Centro de Investigação em Educação.
Chubb, I. (2013, November 18). Keynote address by the Chief Scientist. Presented at the 17th National Engineering Heritage Conference, National Portrait Gallery, Canberra.
Dawson, K., & Kiger Lee, B. K. (2018). Drama-based pedagogy: Activating learning across the curriculum. Intellect.
Dewey, J. (1938). Experience and education. MacMillan.
Duatepe-Paksu, A., & Ubuz, B. (2009). Effects of drama-based geometry instruction on student achievement, attitudes, and thinking levels. Journal of Educational Research, 102(4), 272–286.
Fleming, M., Merrell, C., & Tymms, P. (2004). The impact of drama on pupils’ language, mathematics, and attitude in two primary schools. Research in Drama Education: THe Journal of Applied Theatre and Performance, 9(2), 177–197.
Frankenstein, M. (1983). Critical mathematics education: An application of Paulo Freire’s epistemology. Journal of Education, 165(4), 315–339.
Frankenstein, M. (2001). Reading the world with Math: Goals for a critical mathematical literacy curriculum. In Mathematics shaping Australia, Proceedings of the 18th Biennial conference of the Australian association of mathematics teachers. Canberra, ACT: AAMT.
Freire, P. (1996). Pedagogy of the oppressed (rev). Penguin.
Garrett, R., Dawson, K., Meiners, J., & Wrench, A. (2018). Creative and body-based learning: Redesigning pedagogies in mathematics. Journal for Learning through the Arts, 14(1). https://doi.org/10.21977/D914136982
Garrett, R., & McGill, B. (2019). Fostering inclusion through creative and body-based learning. International Journal of Inclusive Education (Advance online publication), 1–15.
Garrett, R., & Wrench, A. (2016). ‘If they can say it they can write it’: Inclusive pedagogies for senior secondary physical educational. International Journal of Inclusive Education, 20(5), 486–502.
Hardiman, M., Rinne, L., & Yarmolinskaya, J. (2014). The effects of arts integration on long-term retention of academic content. Mind, Brain, and Education, 8(3), 144–148.
Hirsh, R. A. (2010). Creativity: Cultural capital in the mathematics classroom. Creative Education, 1(3), 154–161.
Ivinson, G. (2012). The body and pedagogy: Beyond absent, moving bodies in pedagogic practice. British Journal of Sociology of Education, 33(4), 489–506.
Koch, S. C. (2006). Interdisciplinary embodiment approaches: Implications for creative arts therapies. In S. Koch & I. Brauninger (Eds.), Advances in dance movement therapy: Theoretical perspective and empirical findings (pp. 17–29). Berlin, Germany: Logos Verla.
Leonard, A. (2009, April 22). The story of stuff project [Streaming video]. Retrieved from https://www.youtube.com/watch?v=9GorqroigqM
Massumi, B. (2002). Politics of affect. Polity Press.
Master Communications. (2010, May 12). If the world was a village of 100 people [Streaming video]. Retrieved from https://www.youtube.com/watch?v=FtYjUv2x65g
McClintock Collective. (1988). Getting into gear: Gender-inclusive teaching strategies in science developed by the McClintock Collective. Canberra, ACT: Curriculum Development Centre.
Meloney, D. (2016, May 23). A body-based approach to teaching maths. Teacher. Retrieved from https://www.teachermagazine.com.au/article/a-body-based-approach-to-teaching-maths
Neuschwander, C. (2001). Sir cumference and the Great Knight of Angleland. Watertown, MA: Charlesbridge.
Nguyen, D., & Larson, J. (2015). Don’t forget about the body: Exploring the curricular possibilities of embodied pedagogy. Innovative Higher Education, 40(4), 331–344.
O’Keeffe, L., & Paige, K. (2019). Re-highlighting the potential of critical numeracy. Mathematics Education Research Journal (advance Online Publication). https://doi.org/10.1007/s13394-019-00297-8
Osler, J. (2007), A guide for integrating issues of social and economic justice into mathematics curriculum. Radical Math. Retrieved from http://radicalmath.org/main.php?id=resourc
Paige, K., Lloyd, D., & Smith, R. (2019). Intergenerational education for adolescents towards liveable futures. Newcastle-upon-Tyne, UK: Cambridge Scholars.
Paige, K., & Lloyd, D. (2002). Rocks, leaves, water and bark: An environmental art experience. Investigating Primary and Junior Primary Science Journal, 18(2), 23.
Paige, K., & Whitney, J. (2008). Vanishing boundaries between science and art: Modelling effective middle years of schooling practice in pre-service science education. Teaching Science, 54(1), 42–44.
Robinson, A. H. (2013). Arts integration and the success of disadvantaged students: A research evaluation. Arts Education Policy Review, 114(4), 191–204.
Sherman, H. J., Richardson, L. I., & Yard, G. J. (2015). Teaching learners who struggle with mathematics: Systematic intervention and remediation (3rd ed.). Pearson.
Siemon, D., Bleckly, J., & Neal, D. (2012). Working with the big ideas in number and the Australian curriculum: Mathematics. In B. Atweh, M. Goos, R. Jorgensen, & D. Siemon (Eds.), Engaging the Australian national curriculum: Mathematics—Perspectives from the field (pp. 19–45). Wahroonga, NSW: MERGA.
Sleeter, C. E. (2012). Confronting the marginalization of culturally responsive pedagogy. Urban Education, 47, 562–584.
Stevens, R. (2012). The missing bodies of mathematical thinking and learning have been found. Journal of the Learning Sciences, 21(2), 337–346.
Van de Walle, J., Karp, K., & Bay-Williams, J. (2015). Elementary and middle school mathematics: Teaching developmentally (9th ed.). Pearson.
van Kraayenoord, C. E. (2007). School and classroom practices in inclusive education in Australia. Journal of Childhood Education, 83(6), 390–394.
Walker, E., Tabone, C., & Weltsek, G. (2011). When achievement data meet drama and arts integration. Language Arts, 88(5), 365–372.
Whitney, J., Sellar, S., & Paige, K. (2004). Science, art and teaching: Making connections. Teaching Science, 50(4), 25–29.
Yoo, J., & Loch, S. (2016). Learning bodies: What do teachers learn from embodied practice? Issues in Educational Research, 26(3), 528–542.
Zevenbergen, R. (2000). ‘Cracking the code’ of mathematics: School success as a function of linguistic, social and cultural background. In J. Boaler (Ed.), Multiple perspectives on mathematics teaching and learning (pp. 201–223). JAI/Ablex.
Acknowledgements
We would like to acknowledge the artist John Whitney, who constructed the drawings to help visualise the learning experiences that have been described in the text. As they say, a picture is worth a thousand words. Thank you, John.
Author information
Authors and Affiliations
Corresponding author
Editor information
Editors and Affiliations
Rights and permissions
Copyright information
© 2021 The Author(s), under exclusive license to Springer Nature Switzerland AG
About this chapter
Cite this chapter
Paige, K., Brown, L., O’Keeffe, L., Garrett, R. (2021). Dramatising the S and M in STEM. In: White, P.J., Raphael, J., van Cuylenburg, K. (eds) Science and Drama: Contemporary and Creative Approaches to Teaching and Learning. Springer, Cham. https://doi.org/10.1007/978-3-030-84401-1_5
Download citation
DOI: https://doi.org/10.1007/978-3-030-84401-1_5
Published:
Publisher Name: Springer, Cham
Print ISBN: 978-3-030-84400-4
Online ISBN: 978-3-030-84401-1
eBook Packages: EducationEducation (R0)