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…

Background: Existing research points to the role of Eurocentric epistemic values - scientific objectivity, value-neutrality, depoliticization, and technical rationality - as a cornerstone of engineering ways of thinking, knowing, and doing. However, less is known about the role of Eurocentric epistemologies in team communication and decision…

Background: Community-engaged learning initiatives in engineering often struggle to achieve equitable outcomes for community partners because students in such programs often possess a design-for-charity mindset, which is characterized by an uncritical desire to help and the design of solutions that address symptoms of inequity without meaningful…

Background: Laboratory studies explore the norms and characteristics of scientific practice and explain the constructive nature of knowledge production. However, how learning and research are sustained in engineering research laboratories at the graduate level requires further investigation. Purpose: We explored the cultural characteristics of an…

Background: Modeling and simulation practices have become commonplace in modern engineering, but in-depth research on the development of modeling and simulation expertise is needed to identify the learning processes involved in successfully acquiring these skills. Purpose: This study investigated student dimensions of expertise when engaged in…

Background: Conceptual change is a process in which an individual's understanding and the basis of this understanding change over time. Vosniadou's framework theory explains conceptual change in terms of how students learn to relate the observable and unobservable in everyday phenomena. As a result, courses that relate physical phenomena to…

Background: We have developed several interactive virtual laboratories (IVLs) based on a sequence of agent-based molecular simulations designed to target specific threshold concepts to help students learn thermodynamics. We previously analyzed learning in the IVLs from a cognitive perspective, seeking to repair students' misconceptions; however,…

Background: The use of metacognition is critical to learning, especially in fields such as engineering that involve problem-solving and difficult conceptual material. Due to limitations with current methodological approaches, new methods are needed to investigate engineering students' metacognitive engagement in learning situations that are…

Background: Design thinking, with its emphasis on iterative prototyping and mantra of "fail early and often," stands in stark contrast to the typical one-and-done, failure-averse culture of the classroom. Iterative prototyping and fail-forward mindsets could promote valuable iterative practices and positive reactions to failure, but…

Background: As the maker movement is increasingly adopted into K-12 schools, students are developing new competences in exploration and fabrication technologies. This study assesses learning with these technologies in K-12 makerspaces and FabLabs. Purpose: Our study describes the iterative process of developing an assessment instrument for this…

Background: We tested the effects of an intervention on the learning of introductory thermodynamics principles. This intervention, OEM-Thermo, is designed to prompt the cognitive operations of meaningful learning: organization, elaboration, and monitoring. We also sought evidence to show that execution of these operations was associated with…