There are myriad understandings of design that have evolved over time and vary by the industries and disciplines that practice it. In the engineering context, design is often described as a process or problem-solving ability. Through interviews with 12 experienced engineers, it was found that there are diverse understandings of the relationship…

It is crucial for engineers to anticipate the socio-ethical impacts of emerging technologies. Such acts of anticipation are thoroughly normative and should be cultivated in engineering ethics education. In this paper we ask: 'how do we anticipate the socio-ethical implications of emerging technologies responsibly?' And 'how can such responsible…

Interdisciplinary engineering education (IEE) is gaining traction as engineering practices increasingly acknowledge the need to transcend traditional boundaries given the complexities of globalised systems. IEE, however, faces challenges that underscore uncertainties and different perceptions about what interdisciplinarity means for engineering…

Strategies are proposed that promote use of an Integrated Applied Mathematics (IAM) approach to enhance teaching of advanced problem-solving and analysis skills. Three scenarios of 1-dimensional transport processes are presented that support using Error Function analyses when considering short time/small penetration depths in finite geometries.…

Background: Engineering problems are open-ended and complex, involving technical and social aspects, yet engineering education focuses on technical training and closed-ended problems. To prepare engineering students, curricula should foster sociotechnical thinking--the ability to consider the interplay of technical and social factors during…

In response to the criticism that theory-driven researcher-developed learning tools lack scalability and sustainability in the real world, the design-based implementation research (DBIR) approach was proposed. However, few empirical studies actually describe what a DBIR study looks like and how it can inform readers about learning tool design. We…

Contribution: Visual maps that illustrate how mathematics, physics, and electrical engineering classes are connected to each other during the first two years of the electrical engineering curriculum were developed. Key terminology and differences in presentation between fields are discussed. Background: Experience has shown that engineering…

Engineering students require nontechnical skill sets to combat the 21st century's complex engineering challenges in addition to possessing technical skills. To provide multidisciplinary experience to undergraduate engineering students and to study the formation of engineers, a research team at West Virginia University offered a multidisciplinary…

This article elucidates a nuanced methodology to embed the Sustainable Development Goals (SDGs) within engineering curricula, grounded in the tenets of the CDIO Standard 3 framework. Given the heightened emphasis on sustainability within contemporary industrial contexts, there is an imperative demand for engineers endowed with sophisticated…

Contribution: This study identifies the skills required by the faculty to mentor first-year interdisciplinary design projects. The findings are compiled as a set of themes that can act as a guide for engineering educators in mentoring interdisciplinary design projects. Background: The National Academy of Engineering's (NAE) Engineer of 2020 report…

Although some studies have incorporated poetry into engineering courses, no studies exist that explore the use of writing poetry about technical topics to develop creative thinking skills in undergraduate engineering education. This study explores engineering students' perceptions of incorporating poetry writing within an upper-level…

There is a notable shift towards prioritizing the teaching of engineering design within K-12 education, coupled with a strong recommendation for engineering design-based integrated STEM education. This approach underscores the sharing of science and engineering practices as a means to facilitate the learning of various STEM disciplines.…

The increasing complexity of societal problems and the need for more interdisciplinary problem-solving in the future raise new demands for future engineering competences. Consequently, competences related to management and leadership must be reconsidered and reflected in both engineering education and engineering education research. This leads to…

The purposes of the current study were to examine the 5C social engineering model-based training program on Surat Thani Rajabhat University students and Khun Thale Subdistrict residents' problem solving and adaptability and to examine the participants' satisfaction learning with the 5C social engineering model-based training program. A training…

To address global challenges such as climate change, we must prepare an engineering workforce of sustainability-minded engineers ready to tackle complex socio-technical problems with multiple stakeholders. Frameworks like the United Nations (UN) Sustainable Development Goals (SDGs) have begun to drive structural changes in engineering education,…