Abstract
Whilst students in Shanghai were top-ranked internationally in the 2009 and 2012 PISA (Programme for International Student Assessment) studies, much less is known about Shanghai students’ attitudes towards mathematics and how this varies across the 11–15 age range. This chapter reports on a study of attitudes towards mathematics of Shanghai students in lower secondary schools, in terms of their emotional disposition towards mathematics and their perceived competence in mathematics. Data were obtained from 4,236 students across grades 6 to 9 in eleven schools across four school districts in SH. Our study found that across the grades an increasing proportion of Shanghai students reported a positive disposition towards mathematics, with only slight drop in Grade 8. We also found that the combinations “I like it although I can’t do it” and “I can do it but I dislike it” were not rare. Interestingly, in seven out of the eleven schools surveyed, more than half of the students who disliked mathematics conveyed that they could do it. Noticeably, the seven schools were all top or above-average achieving schools (according to school district and city-level examinations). Our study also found that more boys expressed a positive emotional disposition than girls. Nevertheless, there was no difference between boys’ and girls’ perceived competence in mathematics.
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References
Ajzen, I. (1988). Attitudes, personality and behaviour. Milton Keynes: Open University Press.
Allport, G. W. (1935). Attitudes. In C. Murchison (Ed.), Handbook of social psychology (pp. 798–844). Worcester: Clark University Press.
Brown, M., Hodgen, J., Küchemann, D., Coe, R., & Pepper, D. (2010). Attitudes, gender and attainment: Evidence from a large-scale survey in England. In Proceedings of the 34th conference of the international group for the psychology of mathematics education (Vol. 1, pp. 217–224). Belo Horizonte: PME.
Cai, J. (2004). Why do U.S. and Chinese students think differently in mathematical problem solving? Impact of early algebra learning and teachers’ beliefs. Journal of Mathematical Behavior, 23, 135–167.
Chen, Q. (2010). Teachers’ beliefs and mathematics curriculum reform: A comparative study of Hong Kong and Chongqing. Doctoral thesis at the University of Hong Kong, Hong Kong.
Chen, X., Yu, Y., Wu, J., Yuan, Y., Shao, J., Yu, J., & Huang, J. (2011). An investigation of middle school students’ learning affection in mathematics. Journal of Mathematics Education, 20(4) (Chinese Version). [陈熙仁, 庾艳昭, 吴佳荣, 袁月明, 邵继勇, 余娟, 黄俊华 (2011 年8 月). 初中生数学学习情感的调查研究. 数学教育学报, 第 20 卷第 4 期]
Coughlan, S. (2012, May 9). China: The world’s cleverest country? BBC News online. http://www.bbc.co.uk/news/business-17585201. Accessed 29 Jan 2014.
DeBellis, V., & Goldin, G. A. (1999). Aspects of affect: Mathematical intimacy, mathematical integrity. In Proceedings of the 25th conference of the international group for the psychology of mathematics education (Vol. 2, pp. 249–256). Haifa: PME.
Di Martino, P., & Zan, R. (2010). ‘Me and maths’: Towards a definition of attitude grounded on students’ narratives. Journal of Mathematics Teacher Education, 13, 27–48.
Ding, L., Jones, K., & Pepin, B. (2013). Task design in a school-based professional development programme. In A. Watson et al. (Eds.), Task design in mathematics education. Proceedings of ICMI study 22 (pp. 447–455). Oxford: University of Oxford.
Fan, L., & Zhu, Y. (2004). How have Chinese students performed in mathematics? A perspective from large-scale international comparisons. In L. Fan, N. Wong, J. Cai, & S. Li (Eds.), How Chinese learn mathematics: Perspectives from insiders. River Edge: World Scientific.
Fan, L., Wong, N., Cai, J., & Li, S. (Eds.). (2004). How Chinese learn mathematics: Perspectives from insiders. River Edge: World Scientific.
Hart, L. (1989). Describing the affective domain: Saying what we mean. In D. B. McLeod & V. M. Adams (Eds.), Affect and mathematical problem solving (pp. 37–45). New York: Springer.
Hodgen, J., Küchemann, D., Brown, M., & Coe, R. (2009). Lower secondary school students’ attitudes to mathematics: Evidence from a large-scale survey in England. Proceedings of the British Society for Research into Learning Mathematics, 29(3), 49–54.
Huang, Y. (2002). State-of-art in conception of mathematics research. Journal of Mathematics Education (Chinese Version), 1, 1–8.
Huang, R., & Bao, J. (2006). Towards a model for teacher professional development in China: Introducing Keli. Journal of Mathematics Teacher Education, 9, 279–298.
Lester, F. K. (1996). Implications of research on students’ beliefs for classroom practice. In G. C. Leder, E. Pehkohnen, & G. Törner (Eds.), Beliefs: A hidden variable in mathematics education? (pp. 345–353). Dordrecht: Kluwer.
Leung, F. K. S. (2001). In search of an East Asian identity in mathematics education. Educational Studies in Mathematics, 47, 35–51.
Li, S. (1999). Communications: Does practice make perfect? For the Learning of Mathematics, 19(3), 33–35.
Li, J. (2004). A Chinese cultural model of learning. In L. Fan, N. Wong, J. Cai, & S. Li (Eds.), How Chinese learn mathematics: Perspectives from insiders. River Edge: World Scientific.
Liu, R., & Chen, H. (2004). Conception of mathematics in primary and secondary school students. Journal of Beijing Normal University (Social Science), 5, 39–43.
Luan, Q., & Tao, Q. (2008, March). An investigation and analysis of middle school students’ affect in mathematics. Education Academic Monthly. [栾庆芳, 陶琼 (2008). 初中生数学 情感现状的调查与分析. 教育学术月刊, 2008年, 3月]. [In Chinese]
Ma, L. (1999). Knowing and teaching elementary mathematics: Teachers’ understanding of fundamental mathematics in China and the United States. Mahwah: Lawrence Erlbaum.
Ma, X., & Kishor, N. (1997). Assessing the relationship between attitude toward mathematics and achievement in mathematics: A meta-analysis. Journal for Research in Mathematics Education, 28(1), 26–47.
McLeod, D. (1992). Research on affect in mathematics education: A reconceptualization. In D. Grows (Ed.), Handbook of research on mathematics teaching and learning (pp. 575–596). New York: McMillan.
Ministry of Education of People’s Republic of China. (2011). Mathematics curriculum standards of the compulsory education. Beijing: Beijing Normal University Press. [中华人民 共和国教育部制订,义务教育数学课程标准(2011 版). 北京:北京师范大学出版社]
Mullis, I. V. S., Martin, M. O., & Foy, P. (with Olson, J. F., Preuschoff, C., Erberber, E., Arora, A., & Galia, J.). (2008). TIMSS 2007 international mathematics report: Findings from IEA’s trends in international mathematics and science study at the fourth and eighth grades. Chestnut Hill: TIMSS & PIRLS International Study Center, Boston College.
OECD. (2004). Learning for tomorrow’s world: First results from PISA 2003. http://www.oecd.org/education/school/programmeforinternationalstudentassessmentpisa/34002216.pdf. Accessed 29 Jan 2014.
OECD. (2010a). PISA 2009 results: What students know and can do – Student performance in reading, mathematics and science (Vol. I). http://dx.doi.org/10.1787/9789264091450-en. Accessed 29 Jan 2014.
OECD. (2010b). Strong performers and successful reformers in education: Lessons from PISA for the United States. http://www.oecd.org/pisa/46623978.pdf. Accessed 29 Jan 2014.
OECD. (2013a). PISA 2012 results: What 15-year-olds know and what they can do with what they know (Vol. I). Paris: OECD. http://www.oecd.org/pisa/keyfindings/pisa-2012-results-overview.pdf. Accessed 17 Feb 2014.
OECD. (2013b). PISA 2012 results: Ready to learn: Students’ engagement, drive and self-beliefs (Vol. III). Paris: OECD. http://www.oecd.org/pisa/keyfindings/pisa-2012-results-volume-iii.htm
Op’t Eynde, P., De Corte, E., & Verschaffel, L. (2006). “Accepting emotional complexity”: A socio-constructivist perspective on the role of emotions in the mathematics classroom. Educational Studies in Mathematics, 63, 193–207.
Paine, L. W. (1990). The teacher as virtuoso: A Chinese model for teaching. Teachers College Record, 92(1), 49–81.
Pepin, B. (2011). Pupils’ attitude towards mathematics: A comparative study of Norwegian and English secondary students. In B. Bösken, G. Törner, & B. Pepin (Eds.), Beliefs and beyond: Affecting the teaching and learning of mathematics. ZDM – The International Journal on Mathematics Education, 43(4), 535–546.
Ruffell, M., Mason, J., & Allen, B. (1998). Studying attitude to mathematics. Educational Studies in Mathematics, 35(1), 1–18.
Sun, X. (2011). “Variation problems” and their roles in the topic of fraction division in Chinese mathematics textbook examples. Education Study in Mathematics, 76, 65–85.
Triandis, H. C. (1971). Attitude and attitude change. New York: Wiley.
Watkins, D. A., & Biggs, J. B. (Eds.). (1996). The Chinese learner. Hong Kong: Comparative Education Research Centre.
Xie, X. (2011, March 4). The golden reward Shanghai students attained in PISA: What does it tell? [PISA 测试上海夺冠回答了什么?] Chinese Youth News [中国青年报]. (In Chinese). http://zqb.cyol.com/html/2011-03/04/nw.D110000zgqnb_20110304_5-08.htm. Accessed 29 Jan 2014.
Yang, Y. (2009). How a Chinese teacher improved classroom teaching in Teaching Research Group: A case study on Pythagoras theorem teaching in Shanghai. ZDM – The International Journal on Mathematics Education, 41, 279–296.
Zan, R., & Di Martino, P. (2007). Attitude toward mathematics: Overcoming the positive/negative dichotomy. The Montana Mathematics Enthusiast, Monograph 3, 157–168.
Zheng, Y. (2006). Mathematics education in China: From a cultural perspective. In F. K. S. Leung, K. Graf, & F. J. Lopez-Real (Eds.), Mathematics education in different cultural traditions (pp. 381–390). New York: Springer.
Zhou, Y., Tan, D., & Zhu, Y. (2011). A study on the development of students’ epistemological beliefs about mathematics. Journal of Mathematics Education, 4(2), 115–129.
Acknowledgements
As authors of this paper we would like to acknowledge the support of China Welfare Institute and Shanghai Soong Ching Ling School for funding this study in Shanghai. We also recognize the contributions made by MS Yihong Zhu in Shanghai Soong Ching Ling Child Development Research Centre and by teachers Wenjie Pu, Ruyi Jin, Yunzhu Liu, Huilin Hu and Zhouyi Yao in Shanghai Soong Ching Ling School in the data analysis.
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Ding, L., Pepin, B., Jones, K. (2015). Students’ Attitudes Towards Mathematics Across Lower Secondary Schools in Shanghai. In: Pepin, B., Roesken-Winter, B. (eds) From beliefs to dynamic affect systems in mathematics education. Advances in Mathematics Education. Springer, Cham. https://doi.org/10.1007/978-3-319-06808-4_8
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