Impact of integrating computation into undergraduate curriculum: New modules and long-term trends

G. M. Lu, D. R. Trinkle, A. Schleife, C. Leal, J. Krogstad, R. Maass, P. Bellon, P. Y. Huang, N. H. Perry, M. West, T. Bretl, and G. L. Herman

in Proceedings of the 2020 American Society for Engineering Education Virtual Annual Conference (ASEE 2020), 2020.

Computational methods have become increasingly used in both academia and industry. At the University of Illinois Urbana Champaign, the Department of Materials Science and Engineering (MSE), as part of a university-funded educational innovation program, has integrated computation throughout its undergraduate courses since 2014. Within this curriculum, students are asked to solve practical problems related to their coursework using computational tools in all required courses and some electives. Partly in response to feedback from students, we have expanded our current curriculum to include more computational modules. A computational module was added to the freshman Introduction to Materials Science and Engineering class; thus, students will be expected to use computational tools from their first year onwards. In this paper, we survey students who are currently taking courses with integrated computation to explore the effects of gradually introducing students to programming as well as both macro- and micro-scale simulations over multiple years. We investigate the improving confidence level of students, their attitude towards computational tools, and their satisfaction with our curriculum reform. We also updated our survey to be more detailed and consistent between classes to aid in further improvements of our MSE curriculum.

DOI: 10.18260/1-2--34754

Full text: LuTrScLeKrMaEtAl2020.pdf