References
- Scanlan JO. The role of mathematics in engineering education: an engineer's view. Int J Math Educ Sci Technol. 1985;16:445–451.
- Williams J, Black L, Davis P, Pepin B, Wake G. Mathematics learning, identity and educational practice: the transition into higher education. ESRC End of Award Report, RES-062-23-1213. Swindon: Economic and Social Research Council; 2010. Available from http://www.esrc.ac.uk/my-esrc/grants/RES-062-23-1213/outputs/Read/b38673f3-47fb-4d63-a2a4-a8504f22f69b
- Pampaka M, Williams J, Hutcheson G. Measuring students’ transition into university and its association with learning outcomes. Br Educ Res J. 2012;38;1041–1071.
- Britton S, New PB, Sharma MD, Yardley D. A case study of the transfer of mathematics skills by university students. Int J Math Educ Sci Technol. 2005;36:1–13.
- Hirst C, Williamson S, Bishop P. A holistic approach to mathematics support for engineering. In: Baillie C, Moore I, editors. Effective learning and teaching in engineering. Abingdon: Routledge; 2004. p. 100–122.
- Fadali M, Velasquez-Bryant N, Robinson M. Work in progress – is attitude toward mathematics a major obstacle to engineering education? Paper presented at: The ASEE/IEEE Frontiers in Education Conference. 34th Annual Meeting; 20–24 October -2004; Savannah, GA. Available from: http://fie-conference.org/fie2004/papers/1090.pdf
- Gynnild V, Tyssedal J, Lorentzen L. Approaches to study and the quality of learning: some empirical evidence from engineering education. Int J Math Educ Sci Technol. 2005;3:587–607.
- Cobb P. Contexts, goals, beliefs and learning mathematics. For Learn Math. 1986;6:2–10.
- Walkerdine V. Difference, cognition and mathematics education. For Learn Math. 1990;10:51–56.
- Pampaka M, Williams J, Hutcheson G, Wake G, Black L, Davis P, Hernandez-Martinez P. The association between mathematics pedagogy and learners’ dispositions for university study. Br Educ Res J. 2012;38:473–496.
- Boaler J. Exploring situated insights into research and learning. J Res Math Educ. 2000;39:113–119.
- Putnam R, Borko H. What do new views of knowledge and thinking have to say about research on teacher learning? Educ Res. 2000;29:4–15.
- Williams J, Goos M. Modelling with mathematics and technologies. In: Clements K, Bishop A, Keitel C, Kilpatrick J, Leung F, editors. Third international handbook of mathematics education. London: Springer; 2013. p. 549–571.
- Bingolbali E, Ozmantar MF. Factors shaping mathematics lecturers’ service teaching in different departments. Int J Math Educ Sci Technol. 2009;40:597–617.
- Leinhardt G, Smith DA. Expertise in mathematics instruction: subject matter knowledge. J Educ Psychol. 1985;3:247–271.
- Askew M, Brown M, Rhodes V, Wiliam D, Johnson D. Effective teachers of numeracy: report of a study carried out for the Teacher Training Agency. London: King's College, University of London; 1997.
- Skemp RR. Relational understanding and instrumental understanding. Arithmetic Teach. 1978;26:9–15.
- Swan M. Improving learning in mathematics: challenges and strategies. London: Department for Education and Skills Standards Unit; 2005.
- TLRP research briefing 38: keeping open the door to mathematically demanding programmes in further and higher education. London: Teaching and Learning Research Programme; 2008. Available from: http://www.tlrp.org/pub/documents/Williams%20RB%2038%20FINAL.pdf
- Williams J, Black L, Davis P, Hernandez-Martinez P, Hutcheson G, Nicholson S, Pampaka M, Wake G. Keeping open the doors to mathematically demanding programmes in further and higher education: a cultural model of value. In: David M, editor. Improving learning by widening participation in higher education. ‘improving learning gateway’ – teaching & learning research programme. London: Routledge; 2009, p. 109–124.
- Flegg J, Mallet D, Lupton M. Students’ perceptions of the relevance of mathematics in engineering. Int J Math Educ Sci Technol. 2012;43:1–12.
- Biggs JB. Enhancing teaching through constructive alignment. Higher Educ. 1996;32:1–18.
- Biggs JB. Teaching for quality learning at university. 2nd ed. Buckingham: Open University Press/Society for Research into Higher Education; 2003.
- Hoyles C, Newman K, Noss R. Changing patterns of transition from school to university mathematics. Int J Math Educ Sci Technol. 2001;32:829–845.
- Black L, Williams J, Hernandez-Martinez P, Davis P, Wake G. Developing a ‘leading identity’: the relationship between students’ mathematical identities and their career and higher education aspirations. Educ Stud Math. 2010;73:55–72.
- Gibbins P. Use-value and exchange-value. Theory Decis. 1976;7:171–179.
- Williams J. Toward a political economic theory of education: use and exchange values of enhanced labor power. Mind Cult Activity. 2011;18:276–292.
- Castle S. Shortage of engineers a strain on Britain's economy. New York Times [Internet]. 2013 Feb 3 [cited 2013 May 13]; Research:[about 4 screens]. Available from: http://www.nytimes.com/2013/02/04/business/global/04iht-ukskills04.html?pagewanted=all&_r=0.