There have been multiple uses of the term educational engineer. Some define an educational engineer as an educator who teaches engineering exclusively. Others define an educational engineer as a someone who works outside the classroom altogether, doing research and making decisions about curricula (Anderson, 1961; Charters, 1945; Rudinskiy et al.,…

Iteration and improvement are important attributes of design, tacitly indicating that failure is also a part of the process. There are different conceptions of failure in engineering contexts than in other academic settings. Therefore, for beginning designers, these failure experiences may be perceived as mishaps, lowering confidence or interest.…

While it has been recognized that science, technology, engineering, and mathematics (STEM) education requires an interdisciplinary approach, integrating multiple subjects in a meaningful way remains challenging for teachers. This study aimed to design a STEM curriculum, emphasizing explicit and continuous scaffolding of students' reflection on…

This study aims to examine the engineering and design-supported STEM (Science, Technology, Engineering, and Mathematics) experiences of students who participated in the "Design and Innovation Workshop" organized at the Science and Art Center (SAC) during the semester break. The experiences and perceptions of 17 students (10 males and 7…

Problem-solving is at the core of engineering design, being fundamental for systematic innovation. During their education, students are taught numerous methods and tools, despite that literature shows debatable results regarding their real impact. Consequently, this study aims to quantify the relative impact of design methods on undergraduate…

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…

Understanding how engineering design (ED) and design-based learning (DBL) are portrayed at various educational levels is essential in this transition to ascertain the state of the literature. We investigated ED and DBL studies in Web of Science and Scopus databases. Then we focused on educational levels, categorizing research based on participant…

Investigating students' thinking in classroom tasks, particularly in science and engineering, is essential for improving educational practices and advancing student learning. In this context, the notion of "Ways of Thinking" (WoT) has gained traction in STEM education, offering a framework to explore how students approach and solve…

Purpose: This research aims to examine the pre-service teachers' learning when using STEM tasks with middle school students in a lesson study. Design/methodology/approach: This research adopted a qualitative methodology with an interpretative orientation. The participants are three pre-service teachers involved in a lesson study that took place in…

Model-eliciting activities (MEAs) challenge students to interpret a problem and collaboratively create solutions using the engineering design process. This Innovation to Practice article describes how science, technology, engineering, and mathematics (STEM) teacher educators can use MEAs to build elementary teachers' understanding of computational…

There is a worldwide trend to include engineering design in high school curricula as a bridge course to higher-level STEM education and to increase high school students' interest in STEM fields. This study used a battlebot design curriculum to compare engineering design learning between high school and college first-year students and then proposed…

While issues of (in)justice in K12 STEM learning have garnered increasing attention, limited research has attended to learning as "social-spatial transformation." We draw upon a justice-oriented framework of equitably consequential learning to call attention to how learning and engagement in K12 STEM is rooted in the history and…

Self-regulation is crucial for student success in scientific inquiry and engineering design. However, it remains unclear how students dynamically engage in self-regulated learning (SRL) processes to achieve high performance. In this study, we investigated the temporal nature of self-regulation during engineering design by leveraging computer trace…

STEM is a field where gender stereotypes regarding men persist. Women are underrepresented compared to men in STEM fields. The social belief that engineering is only for men discourages young girls from pursuing such endeavors. Encouraging young girls to enter STEM fields is crucial to dispel these stereotypes. Therefore, one of the essential…

Sketching is considered a helpful activity in STEM design and education. Scholars have argued for including children in designing technology as it has been found to improve product design and leads to social and cognitive benefits for children. However, little is known about children's learning and sketching experiences when participating in…