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1. Engaging girls in learning engineering through building ubiquitous intelligent systems

   M. Yang, B. Tiwari (January 2022, Proc. IEEE Int’l Conf. Teaching, Assessment, and Learning (TALE))

   Women make up only 28% of the workforce in STEM fields. It’s important to engage more girls in learning STEM; however, girls’ interests in STEM careers keep declining. It is well studied that the lack of sense of belonging underlies gender differences in STEM differentiation and achievement. Researchers have found that secondary girls’ sense of belonging declines as they age. To enhance secondary female students’ interests and self-concept in computing and engineering fields, the UNLV ITEST project sets the focus on engaging Girls in Ubiquitous Intelligence and Computing (GUIC) through a constructivist learning environment. In the GUIC Summer Camp, 40 secondary female students will take three-week training courses in Arduino & Internet of Things and Robotics Design and conduct two-week engineering project development in tiered teams co-mentored by STEM teachers and college student mentors. Based on the active learning method, the training courses are designed with interactive lectures and hands-on labs/activities. The engineering projects in ubiquitous intelligent systems are designed to connect computing & engineering concepts with real-world problems. Project demo results and students’ feedbacks have confirmed the effectiveness of the project activities in enhancing female students’ interests and self-efficacy in learning engineering and STEM. The unique constructivist learning environment is helpful in improving female students’ sense of belonging in STEM. 

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2. The Influence of Connecting Funds of Knowledge to Beliefs about Performance, Classroom Belonging, and Graduation Certainty for First-Generation College Students

   https://doi.org/10.18260/1-2--35343  

   Verdín, Dina; Smith, Jessica; Lucena, Juan. (January 2020, American Society for Engineering Education)

   First-generation college students in engineering accumulate bodies of knowledge through their working-class families. In our ethnographic data of first-generation college students, we identified tinkering knowledge from home and from work, perspective taking, mediational ability, and connecting experiences as knowledge sources brought to engineering. The purpose of this paper was to understand how first-generation college students’ accumulated bodies of knowledge (i.e., funds of knowledge) support their beliefs about performing well in engineering coursework, feeling a sense of belonging in the classroom, and certainty of graduating. Data for this study came from a survey administered in the Fall of 2018 from ten universities across the US. In this study, only the sample of students who indicated their parents had less than a bachelor’s degree (n = 378) were used. A structural equation modeling technique was employed to examine several interconnected research questions pertaining to funds of knowledge, performance/competence beliefs, classroom belongingness, and certainty of graduating with an engineering degree. Our analysis demonstrates that the accumulated bodies of knowledge obtained through tinkering at home, tinkering at work, and the skill of being a mediator served to scaffold concepts that students were currently learning in engineering. There was a negative direct relationship between students’ ability to make connections between their home activities to scaffold what they are currently learning and their certainty of graduating with an engineering degree. However, first-generation college students’ perceptions of performing well in their engineering coursework and their sense of belonging in the classroom positively supported their certainty of graduating thus emphasizing the importance of connecting students’ funds of knowledge to engineering coursework and classroom instruction. Implications for possible approaches towards connecting first-generation college students’ funds of knowledge to engineering coursework and classroom culture are discussed. 

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3. Finding a Place to Belong: Understanding the Role of Place in Developing Learner Identity Among Students Returning to In-person Learning

   Horn, Catherine; de la Rosa-Pohl, Diana G. (January 2022, ASEE Annual Conference Proceedings)

   This research paper describes the experiences of freshman STEM students arriving on a college campus for the first time after nearly a year and a half of online learning in high school. Fall 2021 marked the return of in-person learning in higher education, grown from a belief in and commitment to the value of interactions only achieved in such context (Sabella, 2021). First-year programs across the country welcomed first-time-in-college (FTIC) freshmen, many of whom experienced lower levels of social, emotional, and academic well-being due to extended periods of online learning in their final years of high school (Duckworth, et al., 2021). This reality, for some students, represented an unfamiliar learning environment to be negotiated in understanding their multiplying and evolving spaces as learners (e.g., Sequeira & Dacey, 2020). This qualitative study sought to understand the aspects and ways in which FTIC freshmen in a STEM student success program experienced a face-to-face first semester of college following an extended period of online learning, and how these experiences shaped a sense of belonging toward identity development, both as a college student in general and as a STEM major in particular. To explore these ideas, longitudinal qualitative data were collected through a series of focus groups in the fall of 2021. Participating students had substantial identified financial need and received scholarship support as part of the program. They also had the opportunity to participate as a cohort in intentionally designed curricular and co-curricular activities aimed at supporting their academic journey toward successful completion of a STEM degree. Findings suggest that physical space (e.g., the library and other specific locations on campus) played a disproportionate role in creating a sense of belonging for students. The results of this project add important nuance to the sense of belonging and identity development literature by expanding our understanding of the ways place, context, and prior experiences may uniquely intersect to ultimately influence belonging and identity in college. Keywords: STEM Identity, COVID, First-Year Experience, Sense of Belonging 

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4. Work in Progress: Developing an Engineering Community in a Fablab

   https://doi.org/10.18260/1-2--41084  

   Edwards, Jan; Pizano, Ana (August 2022, ASEE Conferences)

   The observations to date for an NSF S-STEM Research project will be shared as a work in progress. The NSF S-STEM program has enabled academically talented lower income scholars at a community college to receive scholarships and intentional advising since 2006. This support resulted in higher success rates based on GPA as well as higher graduation and transfer rates. In addition, the percentage of students who are historically underrepresented in the engineering and computer science fields was greater among these NSF scholars in comparison to the overall program comparison group. Starting in 2020, a research component was added to the scholarship program with a desire to better understand the development of student self-efficacy and sense of belonging. In particular, the impact of enhanced community building activities at the college using the Fablab as a central hub was of interest. The lab was developed in part to encourage commuter students to engage in more experiential learning and social collaboration between classes. While considerable research has been conducted on self-efficacy, sense of belonging and student success, there is limited data available on connections to a Fablab / makerspace environment and even less in a community college context. For the last four semesters, the NSF engineering and computer science scholars and a comparison student population have completed a survey to provide a measure of their self-efficacy relative to engineering, tinkering and design, sense of belonging, and inclusion. Observations and survey results to date will be shared. Since the timing of these surveys is such that only one occurred prior to the pandemic, there will be an attempt to disentangle the effects of the remote learning experience and discussion of the virtual approach to support services. In addition, the self-efficacy and sense of belonging measures will be analyzed for different student populations including the NSF scholars and overall comparison group as well as exploring underrepresented status in terms of gender and ethnicity. Next steps will be discussed for the following three years of the research program. 

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5. “That Was the Biggest Help”: The Importance of Familial Support for Science, Technology, Engineering, and Math Community College Students

   https://doi.org/10.3389/feduc.2022.768547  

   Bueno, Elia; Velasquez, Selena M.; Deil-Amen, Regina; & Jones, Candace (April 2022, Frontiers in education)

   This analysis reveals the informal instrumental and socio-emotional support that non-traditional (e.g. Latinx, Black, Indigenous, lower-income, and first-generation) college students receive from family members to combat experiences of marginalization and contribute towards their self-efficacy. Family support can be particularly important for underrepresented undergraduate Science, Technology, Engineering, and Math (STEM) students who have been shown to have higher risks of dropping out of their program and experience lower levels of success indicators (e.g. sense of belonging, self-concept, and STEM identity) compared to their white and Asian peers. Therefore, it is important to further investigate the nuances of family support contributing to non-traditional student retention and success. Utilizing a phenomenological approach, we used open-ended questions during focus groups with community college transfer students to gain their experiences with challenges and feelings of belonging in college and STEM. This article investigates the value family support holds for students in surviving STEM challenges by extending family to include romantic partners and extended family as well as applying the funds of knowledge framework to community college transfer students. 

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