Multiple studies call for engineering education to integrate social justice into classroom instruction. Yet, there is uncertainty regarding whether integrating these social topics into engineering curriculum will support or detract from the learning of technical concepts. This study focuses on evaluating how reframing technical assessments to…

Speculative design is an emerging form of critical material engagement with possible futures. Designers working speculatively call attention to current and future sociotechnical dilemmas, and aim to provoke debate about the moral, political and ethical implications of sociotechnical innovation. Despite the popularity of speculative design and its…

Engineering curriculum often fails to connect content and decisions to impacts on diverse, particularly marginalized, communities. Given that integration of social justice ideas into curriculum is currently uncommon among most faculty, we provide resources in the form of a workshop to help catalyze these efforts by teaching faculty how to…

A challenge in building the biomedical engineering human factors course at Malawi University of Business and Applied Sciences was integrating meaningful direct experiences with medical products. The instructor also noticed a significant gap between the topics in the course and their surrounding clinical context, a low-income setting. Recognizing…

This paper presents a systematic review of the role of prompt engineering during interactions with Generative Artificial Intelligence (GenAI) in Higher Education (HE) to discover potential methods of improving educational outcomes. Drawing on a comprehensive search of academic databases and relevant literature, key trends, including multiple…

Background: The evolving transformations of our society at large, academic institutions, and engineering discipline in the 21st century have profound implications for the nature of experiential learning being offered in engineering education. However, what is experiential learning in the context of engineering education? Purpose: The introduction…

As the COVID-19 pandemic caused severe disruption to education enterprises throughout the world, the main response by educational institutions was to move to online learning environments. The purpose of this study was to understand better how instructors could improve online learning for a professional-level week-long short course in a highly…

Traditional engineering education (Eng. Ed) has received criticism for restricting student learning and experiences to practical skills development while ignoring the significance of fostering cognitive skills that encourage higher order thinking, criticality, and self-reflexivity. Imaginative education (IE) has emerged as a consideration for…

Biomedical engineering is critical in improving people's lives through innovative solutions to biological and medical challenges. In the face of today's rapidly evolving climate, the field of biomedical engineering encounters numerous pressures that demand up-to-date skills and competencies. The (re-)development of curricula aligning with industry…

Increasing diversity and broadening participation in engineering programs has been a persistent challenge due to various factors. Despite efforts to enhance engineering education, we have not seen a significant increase in matriculation, retention, and graduation rates in certain engineering fields. For decades, academic institutions have received…

Purpose: While sustainability experts point to interrelated social, economic and environmental goals, students may think about sustainability primarily as natural resources. To prepare students to tackle global challenges to well-being, this paper aims to show that educators need to assess and address students' shortcomings in considering…

Contribution: The integration of artificial intelligence (AI) in engineering higher education is becoming increasingly important nowadays. This article contributes to the Scholarship of Integration by providing a comprehensive review of current research on AI integration in engineering higher education and presenting a pilot AI introductory module…

This paper discusses engineering praxis ethos (EPE), a proposed framework for constructing a STEM learning environment embedding interrelated components of learner experience and design activity, which can support curriculum and instructional design and evaluation in STEM education. The authors propose that STEM is a meta-discipline that relies on…

Globally, the demand for people prepared to enter Science, Technology, Engineering and Math (STEM) careers is increasing. To help fill this demand, many formal and informal STEM educational interventions have been implemented in the K-12 domain. However, due to the lack of a clearly defined framework for documenting the nature and scope of the…

The competence to work together and co-create with others outside one's own scientific domain, culture or professional practice is a critical competence for engineers to respond to global challenges. In this context, boundary crossing (BC) competence is crucial. We reflect on a university-wide participatory action research educational innovation…