We have implemented a jigsaw framework in our biomedical engineering capstone design course by overlaying strategic consideration groups across our design teams. Collaboration in design courses is usually focused within a design team with some peer feedback, but opportunities to work across teams are often limited. The purpose of this teaching tip…

Purpose: Upon graduating from university, many engineers will work in new product development and/or technology adoption for continuous improvement and production optimization. These jobs require employees to be cognizant of ethical practices and implications for design. However, little engineering coursework, outside the traditional ABET…

Background: Despite the prevalence and potential of K-12 engineering outreach programs, the moment-to-moment dynamics of outreach educators' facilitation of engineering learning experiences are understudied. There is a need to identify outreach educators' teaching moves and to explore the implications of these moves. Purpose/Hypothesis: We offer a…

This article aims to expand our knowledge on interdisciplinary design education by focusing on team development, which has remained a less explored aspect of interdisciplinary collaboration so far. An interdisciplinary design studio course, Collaborative Design, for food engineering and industrial design students in higher education provides the…

Purpose: The purpose of the article is to develop an innovative pedagogic tool: an escape room board game to be played in-class, targeting an introduction to an ethics course for engineering students. The design is student-centred and aims to increase students' appreciation, commitment and motivation to learning ethics, a challenging endeavour for…

The lack of diversity in engineering is a persistent problem with few signs of pending improvement. Efforts to promote diversity in engineering schools have produced modest gains. Based on a commitment to be a change leader and fueled by recent updates in ABET criteria to include diversity, equity, inclusion, and justice (DEI-J) as tenets of…

This paper describes applying a new brain-based instructional approach called "Tailored Instructions and Engineered Delivery using Protocols" (TIED UP) in an engineering classroom. Brain-based strategies leverage our knowledge about the functioning of the human brain to deliver the course information effectively. Although brain-based…

Active learning pedagogical practices are more effective than instructor-centered teaching in building students' knowledge, skills, and understanding of engineering content and concepts. As such, a large-scale professional development (PD) program was created to move faculty toward the use of active learning. The project aimed to engage faculty in…

Engineering thinking enhances real-world learning; it emphasises system thinking, problem finding and creative problem solving as well as visualising, improving, and adapting products and processes. Several studies have investigated how pre-service preschool teachers acquire their knowledge of technology and engineering; however, a clear…

It is difficult for research in Mathematics Education to have any real impact on teaching practice in the classroom. Conscious of this, we have developed a research model for curricular innovation, involving the teachers responsible for its implementation, improving their training, and providing scientific information whilst maintaining the…

Stanford has always embraced educational change, but not for its own sake. Instead, we have pursued reforms in response to specific problems or to realize definite possibilities. In that sense, our curricular innovations seek to move purposefully from "what is" to "what might be." Such purposeful change is guided by underlying…

Background: The National Science Foundation (NSF) and other organizations have spent millions of dollars each year supporting well-designed educational innovations that positively impact the undergraduate engineering students who encounter them. However, many of these pedagogical innovations never experience widespread adoption. To further the…

Improving the mathematical skills of undergraduate Engineering and Information Technology (EIT) students has been an enduring challenge for educators. Lecturers continually implement new strategies that try to overcome the challenges encountered in teaching university students with varying levels of success being encountered. This paper provides…

Prior research indicates that empathy can help engineers achieve better outcomes in team-based, design, entrepreneurial, and humanitarian environments. We describe an educational innovation designed to teach engineering students empathic communication skills. Written in the spirit of a propagation (versus dissemination) paradigm, we focus on how…

Creativity is a task-specific construct that exhibits diverse characteristics depending on the context it operates in. Currently, there is little consensus on how creativity can be defined and taught within STEM education. In this study, mathematics teachers' beliefs about STEM creativity and their pedagogical approaches to teaching creativity…