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…

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…

The increasingly complex socio-technical and economic challenges of our time place considerable pressure on engineering programmes. To ensure that graduates are well-prepared to address these challenges requires curriculum developers to select the appropriate knowledge for the engineering programme. A number of key theorists, notably from the…

Entrepreneurial minded learning (EML) is a pedagogical technique that gives students the tools to identify opportunities, focus on impact, and to create value through their solutions. The entrepreneurial mindset builds upon three key elements: curiosity, connections, and creating value (3 Cs). A biomedical engineering course was developed using…

Mental health challenges have been rising across college campuses. To destigmatize wellness practices and promote student mental health, we present a novel technical project in an introductory bioengineering course that explores stress management techniques through physiology, biosensors, and design. We hypothesize that if students measure…

Digital Systems is one of the basic foundational courses in Electrical and Computer Engineering. The job market is increasingly in need of Electrical Engineers with knowledge of Hardware Description Languages (HDL). Yet most digital systems design curriculum, largely remains based on design using Transistor-Transistor-Logic (TTL) devices or…

Broadening participation in engineering is an important national priority and has led to increasing demands for engineering content to be integrated into traditional K-12 curriculum. However, expecting teachers to incorporate engineering into their classrooms without additional training or resources is unreasonable. Partnering teachers with…

In light of both social and ABET expectations, engineering educators need to consider how to effectively infuse engineering ethics education into current engineering curricula. This article describes our initial efforts in that realm. We considered how to improve ethics education in engineering through establishing an academic-industry…

To meet complex ethical challenges in the engineering profession, students need ethics learning experiences that are integrated systematically across the engineering curriculum. Sustaining systematic changes in the engineering curriculum also calls for processes that respect and engage the engineering faculty. This paper reports the work to date…

This paper reports on the use of teaching portfolios to assist in curriculum revision and the exploration of instructional practices used by middle school technology and engineering education teachers. Two new middle school technology and engineering education units were developed through the Engineering for All (EfA) project. One EfA unit focused…

Engineering offers new educational opportunities for students, yet also poses challenges about how to conceptualize the disciplinary core ideas, crosscutting concepts, and science and engineering practices of the disciplinary fields of engineering. In this paper, we draw from empirical studies of engineering in professional and school settings to…

The paper presents some results obtained through the implementation of the Erasmus LLP "SALEIE" (Strategic Alignment of Electrical and Information Engineering in European Higher Education Institutions). The aim of the project was to bring together experts from European universities to enhance the competitiveness of Electrical and…

Engineering competences form a potential basis for entrepreneurship. There are pressures to find new approaches to entrepreneurship education (EE) in engineering education, as the traditional analytical logic of engineering does not match the modern view of entrepreneurship. Since the previous models do not give tangible enough tools on how to…

Accredited engineering degrees call upon students to develop a wide range of knowledge and skills. These range from technical, scientific and mathematical knowledge, through to transferable skills such as communications, teamwork, business acumen and critical analysis. Through a faculty-wide curriculum development programme we have sought to…

In the shift to English-medium instruction (EMI) in European higher education, policy often runs ahead of research and curricular decisions are taken independent of evidence regarding their suitability for achieving broader educational goals, which may range from internationalisation as a general strategy to English language learning as a more…