TEACHING DESIGN: FROM DUELING TO ‘DUALING’ THRESHOLD CONCEPTS

TEACHING DESIGN: FROM DUELING TO ‘DUALING’ THRESHOLD CONCEPTS

N. Nelson, R. Brennan (2022).  TEACHING DESIGN: FROM DUELING TO ‘DUALING’ THRESHOLD CONCEPTS. 956-965.

Engineering students encounter many threshold concepts as they learn the design process. These troublesome yet transformative concepts can hinder learners as they transition from novice to informed designers. A parallel and dueling effect can occur as engineering design educators learn to surmount their own threshold concepts in their journey toward proficient and expert teaching. Until educators develop Design Pedagogical Content Knowledge (DPCK), their students may continue to struggle as they work to overcome the troublesome elements of design. This paper proposes a framework to support the professional learning of engineering educators as they develop D-PCK. Acquiring this competency helps facilitate a shift from dueling to ’dualing’ threshold concepts where educators who make the effort to overcome their own teaching-related threshold concepts become better equipped to support learners as they become better informed designers.

Authors (New): 
Nancy Nelson
Robert W. Brennan
Pages: 
956-965
Affiliations: 
University of Calgary, Canada
Keywords: 
Engineering education
threshold concepts
design education
Educational development
evidence-informed teaching
CDIO Standard 10
Year: 
2022
Reference: 
Adler-Kassner, L., & Wardle, E. (2015). Naming what we know: Threshold concepts of writing studies. University Press of Colorado.: 
Azam, S. (2019). Distinguishing topic-specific professional knowledge from topic-specific PCK: A conceptual framework. International Journal of Environmental and Science Education, 14(5), 281–296.: 
Buchanan, R. (1992). Wicked problems in design thinking. Design Issues, 8(2), 5–21.: 
Crismond, D. P., & Adams, R. S. (2012). The Informed Design Teaching and Learning Matrix. Ournal of Engineering Education, 101(4), 738–797.: 
Dym, C. L., Agogino, A. M., Eris, O., Frey, D. D., & Leifer, L. J. (2005). Engineering design thinking, teaching, and learning. Journal of Engineering Education, 94(1), 103–120.: 
Felder, R., Brent, R., & Prince, M. J. (2011). Engineering Instructional Development: Programs, Best Practices, and Recommendations. Changes, 100(1), 1–28.: 
Flanagan, M. T. (2020). Threshold Concepts: Undergraduate Teaching, Postgraduate Training, Professional Development and School Education. Retrieved December 29, 2021, from https://www.ee.ucl.ac.uk/~mflanaga/thresholdsE.html#engo: 
Frayling, C. (1994). Research in Art and Design. Royal College of Art, 1(1), 1–5.: 
Henkin, B. (2007). The Learner’s Path: Practices for Recovering Knowers. Pegasus Communications.: 
Heywood, J. (2005). Design. In Engineering education: Research and development in curriculum and instruction. John Wiley and Sons.: 
Koehler, M., & Mishra, P. (2013). What is Technological Pedagogical Content Knowledge (TPACK)? Journal of Education, 193(3).: 
Lönngren, J. (2017). Wicked problems in engineering education: Preparing future engineers to work for sustainability. Chalmers University of Technology.: 
Male, S. (2012). Integrated engineering foundation concept inventory. Sydney. Retrieved from http://www.ecm.uwa.edu.au/__data/assets/pdf_file/0005/2323049/PP10_1607_Baillie_Threshold_con cept_2012.pdf: 
Meyer, J. H. F., & Land, R. (2003). Threshold concepts and troublesome knowledge: Linkages to ways of thinking and practising within the disciplines. Enhancing Teaching-Learning Environments in Undergraduate Courses Project, Occasional Report 4 (Vol. 4). Edinburgh.: 
https://doi.org/10.1007/978- 3-8348-9837-1
Micheli, P., Wilner, S. J. S., Bhatti, S. H., Mura, M., & Beverland, M. B. (2019). Doing design thinking: Conceptual review, synthesis, and research agenda. Journal of Product Innovation Management, 36(2), 124–148.: 
Nelson, N., & Brennan, R. (2018). Snapshot of engineering education in Canada. CEEA Conference Proceedings 2018, 1–10.: 
Nelson, N., & Brennan, R. (2019). Effective Learning Environments: Is there alignment between the ideal, the actual, and the students’ perspective? In CEEA Conference Proceedings 2019 (p. 7). Ottawa, ON.: 
Nelson, N., & Brennan, R. (2021a). COVID-19: A motivator for change in engineering education? Proceedings of the Canadian Engineering Education Association.: 
Nelson, N., & Brennan, R. (2021b). LENS: A Model for Engineering Faculty Development. Proceedings of the REES Conference (Online).: 
Nelson, N., & Brennan, R. (2021c). Threshold Concepts in the Engineering Educator’s Journey: A Systematic Review. REES Conference Proceedings 2021.: 
O’Brien, M. (2013). Portraits of pedagogical thinking : Theories of difficulty within university teachers’ understandings of student learning. In S. Garvis & R. Dwyer (Eds.), Whisperings from the corridors: Stories of teachers in higher education. Springer Science & Business Media.: 
Osmond, J., & Turner, A. (2010). The threshold concept journey in design: From identity to application. In Threshold concepts and transformational learning (pp. 347–363). Brill Sense.: 
Ream, T. C., Braxton, J. M., Boyer, E. L., & Moser, D. (2016). Scholarship Reconsidered: Priorities of the Professoriate (Expanded). San Francisco, CA: John Wiley & Sons.: 
Shulman, L. S. (1986). Those Who Understand: Knowledge Growth in Teaching. Educational Researcher, 15(2), 4–14.: 
Waks, L. (2001). Donald Schon’s philosophy of design and design education. International Journal of Technology and Design Education, 11(1), 37–51.: 
Woods, D. R. (1996). On being a coach/facilitator. In Problem-based Learning: helping your students gain the most from PBL: An Instructor’s guide to problem-based learning: How to gain the most from PBL. Self-published.: 
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