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1. Understanding the educators’ practices in makerspaces for the design of education tools

   Turakhia, D; Ludgin, D; Mueller, S; Desportes, K (November 2023, Educational technology research and development)

   Makerspaces persist as formal and informal spaces of learning for youth, promoting continued interest in studying how design can support the variety of learning opportunities within these spaces. However, much of the current research examining learning in makerspaces neglects the perspectives of educators. This not only hinders our understanding of educators’ goals and how educators navigate makerspaces but also constrains how we frame the design space of the learning experiences and environments. To address this, we engaged in a set of semi-structured interviews to examine the contexts, goals, values, and practices of seven educators across five makerspaces. A thematic analysis of the data identified six key categories of competencies that these educators prioritize including a range of skills, practices, and knowledge, such as technical proficiency, communication, and contextual reflection. The analysis also identified five categories of strategies to accomplish certain goals, such as scaffolding, collaboration, and relationship building. Last, it also shed light on three categories of challenges faced at the student-level, teacher-level, and institutional level. We conclude with a discussion on our insights into how we can broaden the problem space in the design of educational technologies to support learning in makerspaces. 

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2. Engineering Faculty Members’ Perceptions of University Makerspaces: Potential Affordances for Curriculum, Instructional Practices, and Student Learning

   Lenhart, C. st (October 2020, IJEE International Journal of Engineering Education)

   null (Ed.)

   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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3. 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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4. Bipartite Network Analysis Utilizing Survey Data to Determine Student and Tool Interactions in a Makerspace

   https://doi.org/10.18260/1-2--36750  

   Blair, Samuel; Banks, Henry; Linsey, Julie; Layton, Astrid (July 2021, 2021 ASEE Virtual Annual Conference)

   There has been dramatic growth in the number of makerspaces at educational institutions. More research is needed to understand student interactions in these spaces and how these spaces should be designed to support student learning. This project uses network analysis techniques to study the network of activities in a makerspace that lead to successful student experiences. The proposed analyses will model a makerspace as a network of interactions between equipment, staff, and students. Results from this study will help educators to 1) identify and remove previously unknown hurdles for students who rarely use the space, 2) design an effective space using limited resources, 3) understand the impact of new equipment or staff, and 4) create learning opportunities such as workshops and curriculum integration that increase student learning. The new knowledge produced by this project may be useful for maximizing equipment and support infrastructure, and for guiding new equipment purchases. Thus, the results will support further development of effective makerspaces. This project hypothesizes that network-level analyses and metrics can provide valuable insights into student learning in makerspaces and will support what-if scenarios for proposed changes in spaces. Systems modeling and analysis have been used successfully to understand complex human and biological networks. In the context of makerspaces, this technique will provide measures of interaction between system components such as students, staff, and equipment. The analyses will identify the system components that are frequently used when students work in the makerspace over multiple visits. The project will allow for the comparison of makerspaces that have different levels of integration with the curriculum and methods of student introduction (pop-up classes, tours, extra-curricular competitions, advertising, and bring a friend). Demonstration of the effectiveness of the analyses in characterizing makerspaces and the ease of data collection will help support the use of this approach in future work that compares makerspaces nationwide. Current results explore the order in which students choose to learn and use the tools in the space, which tools/features are used most frequently and how the data from the daily entry/exit surveys compares to the end-of-semester self-reports. A key question in this research, especially for making it adoptable by other universities, is if end-of-semester, self-reported data is accurate enough to create informative, actionable guidance from the network models without requiring the daily tool usage data. 

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5. A Typology for Learning: Examining How Academic Makerspaces Support Learning for Students

   https://doi.org/10.1115/1.4062701  

   Tomko, Megan; Alemán, Melissa; Nagel, Robert; Newstetter, Wendy; Linsey, Julie (July 2023, Journal of Mechanical Design)

   While advances have been made in studying engineering design learning in the classroom, to date, such advances have not addressed hands-on, real-world learning experiences in university makerspaces. Our particular interest was how such spaces support women engineers as designers, learners, makers, and community members. To investigate this, we initially completed two qualitative interview studies: (1) a three-series in-depth phenomenologically based interview methodology with five women students and (2) a targeted, single interview protocol with 15 women students. The in-depth interviews were analyzed using grounded theory techniques and coding methods as a means to develop a typology. To explore the broader applicability of the findings, 19 additional interviews (five women and five men at Big City U.; four women and five men at Comprehensive U.) were also completed. Overall, makerspaces are confirmed to help provide women students with a diverse skillset that engages design, manufacturing, cultural knowledge, failure, collaboration, confidence, resilience, communication management, and ingenuity. 

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