Purpose: Student engagement has become increasingly significant in sustainability education for engineers because it enables future engineers to develop competencies, knowledge and values relevant to acting for sustainability. Therefore, this paper aims to examine characteristics of student engineer engagement with sustainability and to discuss…

Gamification has emerged in recent years as an application of game mechanics to improve learning processes through increased motivation and engagement. Civil engineering is a suitable field for gamification because it encompasses a variety of areas involving both management and fieldwork tasks. To gain insight into the use of gamified approaches…

Out in the west Texas town of El Paso … is found the first ABET accredited engineering leadership degree program in the USA.

Science, Technology, Engineering and Mathematics (STEM) disciplines recognize the need for leadership development, but the lack of a professionally endorsed model has led to a patchwork of programmes across the nation, each with its unique brand of skills development. Leadership programmes in six diverse STEM fields are included.

Background: Complexity theory (CT) has been used in response to the need for a different mindset than the classical engineering paradigm. The engineering education research (EER) community may benefit from the knowledge of how CT has been used in the field. Purpose: Aiming to provide a broad view of CT in EER, the following research questions…

Using the Parental Socialization Framework, this research provides a detailed analysis of how early STEM exposure, parental confidence in abilities, and gender-neutral upbringing contribute to the development of STEM identities among women. Employing a hermeneutic phenomenological approach, six undergraduate women engineering majors were…

Many studies have investigated students' attitudes toward engineering (ATE), but few have examined the changes in attitudes after attending an engineering design curriculum. This study analyzes these attitudinal changes in students attending an engineering-focused science, technology, engineering, and mathematics (EF-STEM) curriculum and…

An increased interest in expanding engineering education with youth brings with it a multitude of approaches toward developing engineering programming. In this article, I explore how developing programming for the purpose of fostering liberatory design offers a means of supporting young people in both personally consequential and technically…

One of the issues at the heart of transfer is the mobility of credits across institutions--moving credits from one institution to another is a crucial process for the transfer pathway to be a viable option. Credit loss is a critical issue for transfer students enrolled in highly sequential degrees, such as engineering. A student could be set back…

Background: Visual representations are pervasive in electrical engineering instruction in various instructional settings. Further, electrical engineering instruction often requires students to extend simple visual representations to learn about more complex visualization in subsequent instruction. Yet, students often struggle to understand…

A concept-heavy engineering module was offered to introduce the experience of solving full-scale real-world energy-related engineering problems within a classroom environment and prepare students to be professionally ready for the industry. The widely practiced hybrid problem-based learning (h-PBL) pedagogical approach was adopted for the first 2…

Recent curricular interventions in engineering education have focused on encouraging students to develop an entrepreneurial mindset (EM) to equip them with the skills needed to generate innovative ideas and address complex global problems upon entering the workforce. Methods to evaluate these interventions have been inconsistent due to the lack of…

In this article, we preliminarily discuss the limitations of current video conferencing platforms in online synchronous learning. Research has shown that while the involved technologies are appropriate for collaborative video calls, they often fail to replicate the rich nature of face-to-face interactions among students and between students and…

Background: Engineering students will be responsible for building new technologies that either mitigate or exacerbate future sustainability problems. Engineering educators are thus tasked with educating engineering students on the knowledge, attitudes, and behaviors that will make them change makers of the future. Purpose: The purpose of this…

Teamwork is crucial in software engineering. However, recent literature concludes that software engineering graduates have underdeveloped teamwork skills. Instructors wishing to develop teamwork skills are faced with many teamwork models and a lack of empirical studies that examine their utility in higher education. We conducted an exploratory…