This study examined the effects of the engineering design-based activities developed in the context of aircraft engineering on the engineering design process (EDP) skills of students. Through the notebooks that the students provided during the implementation process, their EDP skills for each engineering design phase (identification of the…

Teamwork has been described as a leadership-coupled professional competency in postsecondary engineering education. It has been listed among the most critical professional skills by engineering industries and professional organizations. Here, a mixed-method case study is reported, which used Visual Thinking Strategies alongside a group project in…

Chemical engineers must learn to connect concepts across vastly different scales, spanning from molecular structures to industrial processes. Here, we explore the use of a virtual-reality simulation with a companion video of an experiment to help undergraduate students connect nanoscale fundamentals to macroscale engineering observations.

Background: For engineers who aim to address sustainability challenges, participating in transdisciplinary teams is key. Yet developing transdisciplinary knowledge, including systems thinking, metacognition, and empathic thinking, is not well supported in traditional engineering programs. Purpose: The extent to which selected learning activities…

Background: The complexity and diversity of problems and concepts in different engineering subjects represent a great challenge for students. Traditional approaches to teaching statics are ineffective in helping some students overcome the learning barriers that underlie learning statics and developing problem-solving skills. Purpose: This article…

Engineering design practices in STEM education focus on reflecting the discipline-specific work of engineers in a manner that is suitable for the student level and course learning objectives. Using an engineering design context also facilitates student identification of global problems and feasible solutions to address such problems. In this…

The purpose of this qualitative case study was to explore how youth's engineering identity has changed in the process of productive struggle in Making activities in the Midwestern U.S in a summer program. The researchers conducted focus-group interviews, and also administered an Engineering Identity survey as well as the Draw an Engineer Test to…

The aim of this study is to present the implementation steps of an engineering design process-based activity. The activity was implemented with 6th-grade students; 21 students were involved. Various visuals were used to attract the students' attention during the introduction of the activity, and discussions were held about engineers and…

Contribution: This article presents a comprehensive overview of characteristics of educational designs of collaborative engineering design activities found in literature and how these characteristics mediate students' collaboration. Background: Engineers have to solve complex problems that require collaboration. In education, various collaborative…

Contribution: This article defines "curricular hackathons" and describes the features, challenges, and opportunities of adopting the hackathon format into engineering curricula. It is based on experience implementing a series of curricular hackathons which provide students with formative design experiences as they address ill-structured…

This study addressed whether combining tinkering with digital storytelling (i.e., narrating and reflecting about experiences to an imagined audience) can engender engineering learning opportunities. Eighty-four families with 5- to 10-year-old (M = 7.69) children (48% female children; 57% White, 11% Asian, 6% Black) watched a video introducing a…

Metacognitive strategies play a crucial role in Computer-Based Learning Environments (CBLEs). However, students often struggle to apply these strategies spontaneously during learning. Research demonstrates that metacognitive prompts can effectively guide students' awareness and help them monitor their learning progress, leading to improved…

This study explored the utilisation of GeoGebra as a modelling tool to develop undergraduate engineering mathematics students' conceptual and procedural knowledge of complex numbers. This mission was accomplished by implementing GeoGebra-enriched activities, which provided carefully designed representational support to mediate between students'…

Appreciative Advising is applied in the creation and delivery of an "Appreciative Mentorship" course for University of Cincinnati undergraduate peer mentors. The article explores course content, learning activities, and assignments. A former peer mentor shares examples of applying the phases when mentoring pre-professional engineering…

For students to gain the most out of education, they need to form long-term memories from experiences gained through active learning. The greatest distinction between active learning and traditional approaches involves the types of tasks and problems the students are challenged to solve. Active learning activities should be structured with student…