Abstract
This article examines some of the complexities associated with developing financially literate, enterprising young Australians through school education. We aimed to explore what seems to influence students in pricing goods for sale within their school community. Data were collected from more than 300 years 5 and 6 students (10–12 years of age) in four government primary schools in urban Darwin. Students were asked to respond to problem contexts involving fundraising as an example of an enterprise activity. The findings reveal that familiarity with fundraising initiatives, personal values, and language and literacy skills shaped the responses students gave. Students who gave loss-making and break-even responses were price conscious, but also tended to confuse terminology influencing mathematisation—i.e., “cost”, “price” and “profit”. Students who gave profit-making responses applied reasoning that was mathematical, financial and entrepreneurial, giving explanations that distinguished between these terms. We argue that these insights contribute to our understanding how upper primary school students interpret and respond to financial problems, with useful implications for schools and teachers.
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References
Anderson, T., & Shattuck, J. (2012). Design-based research: a decade of progress in education research? Educational Researcher, 41(1), 16–25. https://doi.org/10.3102/0013189X11428813.
Appleyard, L., & Rowlingson, K. (2013). Children and financial education: challenges for developing financial capability in the classroom. Social Policy & Society, 12(4), 507–520.
Australian Curriculum, Assessment and Reporting Authority [ACARA] (2017). Australian Curriculum. Retrieved from http://www.australiancurriculum.edu.au/
Australian Securities & Investments Commission [ASIC] (2011). Report 229: National Financial Literacy Strategy. Retrieved from http://www.financialliteracy.gov.au/media/218312/national-financial-literacy-strategy.pdf
Australian Securities & Investments Commission [ASIC] (2014). National Financial Literacy Strategy 2014–2017. Retrieved from http://www.financialliteracy.gov.au/media/546585/report-403_national-financial-literacy-strategy-2014-17.pdf
Australian Securities & Investments Commission [ASIC] (2016). MoneySmart Teaching. Retrieved from https://www.moneysmart.gov.au/teaching
Blue, L. E., O’Brien, M., & Makar, K. (2017). Exploring classroom practices that may enable a compassionate approach to financial literacy education. Mathematics Education Research Journal. https://doi.org/10.1007/s13394-017-0223-5.
Blue, L. E., & Pinto, L. E. (2017). Other ways of being: Challenging dominant financial literacy discourses in aboriginal context. Australian Educational Researcher, 44(1), 55–70. https://doi.org/10.1007/s13384-017-0226-y.
Boaler, J. (1994). When do girls prefer football to fashion? An analysis of female underachievement in relation to 'realistic' mathematics context. British Educational Research Journal, 20, 551–564.
Chell, E. (2007). Social enterprise and entrepreneurship: Towards a convergent theory of the entrepreneurial process. International Small Business Journal, 25(1), 5–26. https://doi.org/10.1177/0266242607071779.
Cobb, P., Confrey, J., diSessa, A., Lehrer, R., & Schauble. (2003). Design experiments in education research. Educational Researcher, 32(1), 9–13.
Fayolle, A., & Gailly, B. (2008). From craft to science: Teaching models and learning processes in entrepreneurship education. Journal of European Industrial Training, 32(7), 569–593.
Foundation for Young Australians (2016). Enterprise skills and careers education in schools: Why Australia needs a national strategy. Retrieved from https://www.fya.org.au/wp-content/uploads/2015/11/Enterprise-skills-and-careers-education-why-Australia-needs-a-national-strategy_April2016.pdf
Foundation for Young Australians (2017). The new basics: Big data reveal the skills young people need for the new work order. Retrieved from https://www.fya.org.au/wp-content/uploads/2016/04/The-New-Basics_Update_Web.pdf
Homer, P. M., & Kahle, L. R. (1988). A structural equation test of the value-attitude-behaviour hierarchy. Journal of Personality and Social Psychology, 54(4), 638–646.
Kaplan, C. A., & Simon, H. A. (1990). In search of insight. Cognitive Psychology, 22(3), 374–419.
Kyttälä, M. & Björn, P. M. (2014). The role of literacy skills in adolescents’ mathematics word problem performance: Controlling for visuo-spatial ability and mathematics anxiety. Learning and Individual Differences, 29, 59–66.
Lappan, G., Fey, T., Fitzgerald, W. M., Friel, S., & Phillips, E. D. (2006). Connected mathematics 2: Implementing and teaching guide. Boston: Pearson, Prentice Hall.
Ministerial Council for Education, Early Childhood Development and Youth Affairs [MCEECDYA] (2011). National Consumer and Financial Literacy Framework (Revised 2009). Retrieved from http://www.curriculum.edu.au/verve/_resources/National_Consumer_Financial_Literacy_Framework_FINAL.pdf
MoneySmart Teaching (2017). Innovation and enterprising behaviours: A case study. Retrieved from https://www.moneysmart.gov.au/media/558470/innovationandenterprisingbehaviouscasestudyfinal.pdf
Organisation for Economic Cooperation and Development [OECD]. (2009). Learning mathematics for life: A perspective from PISA. Paris: Organisation for Economic Co-operation and Development.
Organisation for Economic Cooperation and Development [OECD]. (2016). PISA 2015 results (volume II): Policies and practices for successful schools. Paris: OECD Publishing. https://doi.org/10.1787/9789264267510-en.
Parkin, B., & Hayes, J. (2006). Scaffolding the language of maths. Literacy learning: The middle years, 14(1), 23–35.
Pimperton, H., & Nation, K. (2010). Understanding words, understanding numbers: An exploration of the mathematical profiles of poor comprehenders. British Journal of Educational Psychology, 80, 255–268.
Pinto, L. E., & Blue, L. E. (2016). Pushing the entrepreneurial prodigy: Canadian aboriginal entrepreneurship education initiatives. Critical Studies in Education, 57(3), 358–375.
Sawatzki, C. (2013). What financial dilemmas reveal about students' social and mathematical understandings. In V. Steinle, L. Ball, & C. Bardini (Eds.), Mathematics education: Yesterday, today and tomorrow, Proceedings of the 36th annual conference of the Mathematics Education Research Group of Australasia (pp. 602–609). Melbourne: MERGA.
Sawatzki, C. (2014). Connecting social and mathematical thinking: The use of “real life” contexts. In J. Anderson, M. Cavanagh, & A. Prescott (Eds.), Curriculum in Focus: Research Guided Practice, Proceedings of the 37th annual conference of the Mathematics Education Research Group of Australasia (pp. 557–564). Sydney: MERGA.
Sawatzki, C. (2017). Lessons in financial literacy task design: Authentic, imaginable, useful. Mathematics Education Research Journal, 29(1), 25–43. https://doi.org/10.1007/s13394-016-0184-0.
Sawatzki, C. & Sullivan, P. (2017). Shopping for shoes: Teaching students to apply and interpret mathematics in the real world. International Journal of Science and Mathematics Education. https://doi.org/10.1007/s10763-017-9833-.
Schoenfeld, A. H. (2006). Design experiments. In P. B. Elmore, G. Camilli, & J. Green (Eds.), Complementary methods for research in education. Washington, DC: American Educational Research Association.
Seah, W. T. (2016). Values in the mathematics classroom: Supporting cognitive and affective pedagogical ideas. Pedagogical Research, 1(2), 53. https://doi.org/10.20897/lectito.201653.
Sheldon, S., McAndrews, M. P., & Moscovitch, M. (2011). Episodic memory processes mediated by the medial temporal lobes contribute to open-ended problem-solving. Neuropsychologia, 49(9), 2439–2447.
Shim, S., Xiao, J. J., Barber, B. L., & Lyons, A. C. (2009). Pathways to life success: A conceptual model of financial well-being for young adults. Journal of Applied Developmental Psychology, 30, 708–723. https://doi.org/10.1016/j.appdev.2009.02.003.
Spike Innovation for the Office of the Chief Scientist (2015). Boosting high-impact entrepreneurship in Australia: A role for universities. Retrieved from http://www.chiefscientist.gov.au/2015/10/new-report-boosting-high-impact-entrepreneurship-in-australia/
Stacey, K. (2015). The real world and the mathematical world. In K. Stacey & R. Turner (Eds.), Assessing mathematical literacy. The PISA experience (pp. 57–84). Cham: Springer International Publishing.
Stillman, G. (1998). The emperor's new clothes? Teaching and assessment of mathematical applications at the senior level. In P. Galbraith, W. Blum, G. Booker, & D. Huntley (Eds.), Mathematical modelling: Teaching and assessment in a technology-rich world (pp. 243–253). Chichester: Horwood Publishing.
Strauss, A., & Corbin, J. (1990). Basics of qualitative research: Grounded theory procedures and techniques (2nd ed.). Newbury Park: Sage.
Sullivan, P., Askew, M., Cheeseman, J., Clarke, D., Mornane, A., Roche, A., & Walker, N. (2014). Supporting teachers in structuring mathematics lessons involving challenging tasks. Journal of Mathematics Teacher Education. https://doi.org/10.1007/s10857-014-9279-2.
Sullivan, P., Borcek, C., Walker, N., & Rennie, M. (2016). Exploring a structure for mathematics lessons that initiate learning by activating cognition on challenging tasks. The Journal of Mathematical Behavior, 41, 159–170.
Sullivan, P., Mousley, J., & Zevenbergen, R. (2006). Teacher actions to maximise mathematics learning opportunities in heterogeneous classrooms. International Journal of Science and Mathematics Education, 4(1), 117–143. https://doi.org/10.1007/s10763-005-9002-y.
Thomson, S., & de Bortoli, L. (2017). PISA 2015: Financial literacy in Australia. Camberwell: ACER.
Tulving, E. (1985). Memory and consciousness. Canadian Psychology, 26(1), 1–12.
Vale, C., Atweh, B., Averill, R., & Skourdoumbis, A. (2016). Equity, social justice and ethics in mathematics education. In K. Makar, S. Dole, J. Visnovska, M. Goos, A. Bennison, & K. Fry (Eds.), Research in mathematics education in Australasia (pp. 2012–2015). Singapore: Springer.
Van den Heuvel-Panhuizen, M. (2005). The role of contexts in assessment problems in mathematics. For the Learning of Mathematics, 25(2), 2–9.
Verschaffel, L., deCorte, E., & Lasure, S. (1994). Realistic considerations in mathematical modeling of school arithmetic word problems. Learning and Instruction, 4, 273–294.
Vilenius-Tuohimaa, P., Aunola, K., & Nurmi, J.-E. (2008). The association between mathematical word problems and reading comprehension. Educational Psychology, 28, 409–426.
Zevenbergen, R. (2000). Language Implications for Numeracy: A Study of Language Use of Disadvantaged Students. Paper presented at the ACER Research Conference ‘Improving Numeracy Learning: What does the research tell us?’ Melbourne.
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The project acknowledges the generous participation of the project schools. The views expressed are those of the authors.
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The EPMC project was funded through an Australian Research Council Discovery Project (DP110101027).
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Sawatzki, C., Goos, M. Cost, price and profit: what influences students’ decisions about fundraising?. Math Ed Res J 30, 525–544 (2018). https://doi.org/10.1007/s13394-018-0241-y
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DOI: https://doi.org/10.1007/s13394-018-0241-y