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1. Student Development at the Boundaries: Makerspaces as Affordances for Engineering Students’ Development

   https://doi.org/10.3390/su13063058  

   Choi, Yoon Ha ; Bouwma-Gearhart, Jana ; Lenhart, Cindy A. ; Villanueva, Idalis ; Nadelson, Louis S. ( March 2021 , Sustainability)

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   University-based makerspaces are receiving increasing attention as promising innovations that may contribute to the development of future engineers. Using a theory of social boundary spaces, we investigated whether the diverse experiences offered at university-based makerspaces may contribute to students’ learning and development of various “soft” or “21st century” skills that go beyond engineering-specific content knowledge. Through interviews with undergraduate student users at two university-based makerspaces in the United States we identified seven different types of boundary spaces (where multiple communities, and the individuals and activities affiliated with those communities, come together). We identified students engaging in the processes of identification, reflection, and coordination, which allowed them to make sense of, and navigate, the various boundary spaces they encountered in the makerspaces. These processes provided students with opportunities to engage with, and learn from, individuals and practices affiliated with various communities and disciplines. These opportunities can lead to students’ development of necessary skills to creatively and collaboratively address interdisciplinary socio-scientific problems. We suggest that university-based makerspaces can offer important developmental experiences for a diverse body of students that may be challenging for a single university department, program, or course to offer. Based on these findings, we recommend university programs and faculty intentionally integrate makerspace activities into undergraduate curricula to support students’ development of skills, knowledge, and practices relevant for engineering as well as 21st century skills more broadly. 

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2. Student development at the boundaries: Makerspaces as affordances for engineering students’ development.

   *Choi, Y. H. ; Bouwma-Gearhart, J. ; Lenhart, C. A. ; & Nadelson, L. S. ( January 2021 , Sustainability)

   University-based makerspaces are receiving increasing attention as promising innovations that may contribute to the development of future engineers. Using a theory of social boundary spaces, we investigated whether the diverse experiences offered at university-based makerspaces may contribute to students’ learning and development of various “soft” or “21st century” skills that go beyond engineering-specific content knowledge. Through interviews with undergraduate student users at two university-based makerspaces in the United States we identified seven different types of boundary spaces (where multiple communities, and the individuals and activities affiliated with those communities, come together). We identified students engaging in the processes of identification, reflection, and coordination, which allowed them to make sense of, and navigate, the various boundary spaces they encountered in the makerspaces. These processes provided students with opportunities to engage with, and learn from, individuals and practices affiliated with various communities and disciplines. These opportunities can lead to students’ development of necessary skills to creatively and collaboratively address interdisciplinary socio-scientific problems. We suggest that universitybased makerspaces can offer important developmental experiences for a diverse body of students that may be challenging for a single university department, program, or course to offer. Based on these findings, we recommend university programs and faculty intentionally integrate makerspace activities into undergraduate curricula to support students’ development of skills, knowledge, and practices relevant for engineering as well as 21st century skills more broadly. 

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3. Research Engineer Network: A Network Analysis of Graduate Student Relationships

   Vogiatzis, Chysafis ; Teixeira-Poit, Stephanie M. ; Walton, Tobin N. ; Gowdy, Grace ; Ram, Bala ( January 2021 , Zone 1 Conference of the American Society for Engineering Education)

   The Graduate Research Identity Development program (GRID) is an initiative in the College of Engineering at North Carolina A&T State University, sponsored by the National Science Foundation since 2019. The program offers seminar-type lectures supplemented with activities designed to help graduate students develop critical skills for research-based careers. The program is focused on graduate engineering students but is open to graduate students from all programs. Students also choose mentors from within and outside the university with the goal of increasing their sense of belonging to the field and their identities as research engineers. As part of this program, a pilot study is in progress, aimed at performing a full-scale network analysis of student interactions. A web-based survey was administered to collect information about students in and outside the College of Engineering who participate in the GRID program sessions. The survey was designed to collect information on the relationship networks (or lack thereof) that students are involved in as they matriculate through their graduate program. It assesses things such as how and where the students interact with one another, members of faculty and staff, and with contacts from intramural and extramural organizations. Several items are also used to assess students’ perceptions of themselves as research engineers. In this paper, we focus on the interactions of students in the classroom. More specifically, we form networks based on the student answers about the classes they have taken in different departments. We then analyze the resultant networks and contrast certain graph theoretic properties to students’ scores on the research engineer identity items. Do students that are in the periphery, or students that have more connections attain higher research engineer identity scores? Do students that form complete subnetworks (cliques) or core-periphery structures (induced stars) have higher scores than others? This paper presents the findings from this pilot study from the network analysis on this cohort of students. In summary, we find that students with high eigenvector centrality scores and those who form larger cliques possess significantly higher research engineer identity scores. 

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4. Connection and alienation during the COVID ‐19 pandemic: The narratives of four engineering students

   https://doi.org/10.1002/jee.20519  

   McIntyre, Brianna Benedict ; Rohde, Jacqueline ; Clements, Herman Ronald ; Godwin, Allison ( March 2023 , Journal of Engineering Education)

   The COVID‐19 pandemic has highlighted, exacerbated, and caused many challenges within engineering education. At the same time, the pandemic provided opportunities for engineering educators to learn from forced change to promote strategic efforts to improve classroom engagement and connection to better support engineering students.

   We leveraged students' stories to discuss ways university administrators, faculty, and instructors can better support their students during times of global crisis and beyond the current pandemic.

   We conducted longitudinal narrative interviews with four White women engineering students from different universities in their third and fourth years. The students were selected from a larger research project because their rich and reflective stories resonated with other participant narratives, the research team, and ongoing conversations about educating during and after the COVID‐19 pandemic. Through narrative inquiry, we constructed “restoryed” vignettes and identified patterns within the four students' distinctive stories by drawing on a theoretical framework designed to examine connection and alienation.

   The findings provided insights into how students were stressed and disconnected from their education in undesirable ways. The findings also provide insight into how those same students received support and maintained a connection to their institution, advisors, and instructors that educators could emulate.

   Our theoretical framework of connection and alienation proved helpful for understanding the experiences of four engineering students. Additionally, these stories provide practical examples of how faculty and staff can support student connections beyond the pandemic.

    

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5. Engineering faculty perceptions of university makerspaces: Potential affordances for curriculum, instructional practices, and student learning.

   Lenhart, C. ; Bouwma-Gearhart, J. ; Villanueva, I. ; & Nadelson, L. ( January 2020 , IJEE International Journal of Engineering Education)

   We detail an exploratory study of faculty members’ perceptions of activities associated with undergraduate engineering programs in university-based makerspaces. Our study examines the affordances and constraints faculty perceive regarding teaching and learning in these spaces and, specifically, how makerspaces support engineering faculty members in accomplishing the goals and expectations they have for undergraduate students’ learning and development. We found that makerspaces inspired faculty members’ curricular and instructional innovations, including design of new courses and implementation of practices meant to result in more team-based and active learning. Faculty perceived student activities in makerspaces as fostering of student agency and development of engineering skills, knowledge, and affect. Faculty also identified concerns related to the teaching of engineering in these spaces, including the need to change their instructional practices to more fully engage students and to balance the sophisticated tools and resources with the rigor of completing complex engineering tasks. We use structuration theory to illuminate how faculty act, rationalize, and reflect on their teaching practices and goals in relation to structures present in university-based makerspace. Our study is intended to inform faculty and administrators working to engage students through interactions in makerspaces or similar innovations, and to consider how access to and impact of these structures support undergraduate engineering education. 

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