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1. Classroom Connections: A Social Network Analysis of STEM Students at a Regional University

   https://doi.org/10.1177/15210251231215787  

   Ramsey, Laura R.; Yu, Wanchunzi; Kling, Thomas; Kling, Audrey (December 2023, Journal of College Student Retention: Research, Theory & Practice)

   Previous research has established that peer relationships are important for student success, yet little research has examined connections made in the classroom, as opposed to residence life or extracurricular activities. This project utilized social network analysis in two cohorts of science and mathematics majors to investigate the degree to which students take multiple courses with the same peers. Results showed (1) wide variability in student networks, (2) course selection by students included more repeated connections than random course selection, (3) networks did not vary much by demographic variables (gender, race, first-generation status, and income), and (4) student networks significantly predicted graduation and grades. This correlational research provides a foundation for future experimental research testing the causal impact of classroom-based student networks. This research also serves as a model for how other institutions may analyze institutional data to understand patterns of peer connections and course enrollment at their institution. 

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2. Increasing Minority Youths' Participation in Computing through Near-Peer Mentorship

   Lee, Michael J (October 2019, Journal of computing sciences in colleges)

   It is critical to focus on diversity and increasing participation of underrepresented groups in computing. To address this need, we must better understand minorities' access to role models and mentors, especially at a young age, as research and practice shows that these relationships can affect students' self-efficacy and motivation in the educational fields and careers they choose to pursue. We provided a 9-Saturday programming camp to middle school students in Newark, New Jersey with near-peer mentors (first year, college student instructors) to learn more about the younger students' initial access to role-models and mentors, and how an intervention might change this. Our camp served a total of 28 minority students (17 males and 11 females; grades 5-7) from a low-income, urban area. We found that when asked at the beginning of the camp, our middle students largely reported that they did not have any role-models or mentors in computing. However, at the conclusion of the camp, these same students indicated that they developed strong connections with their near-peer mentors and even saw them as role-models. These findings highlight the need for more mentorship opportunities for students of all ages, and the importance of providing resources and support to help develop and nurture these connections. 

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3. Creating Opportunities to Help Students Be Prepared for Careers in a STEM Field

   https://doi.org/10.18260/1-2--36874  

   Reilly, Edel (July 2021, 2021 ASEE Virtual Annual Conference Content Access)

   This presentation reports on an ongoing National Science Foundation's (NSF's) Division of Undergraduate Education (DUE) funded project in the Department of Mathematical and Computer Sciences at Indiana University of Pennsylvania (IUP). The goals of the project include increasing the number of students graduating with a major, minor, or Master’s degree in mathematics; strengthening the academic culture in the department; and strengthening the relationships within the broader STEM community within and beyond the university. The project aims to achieve these goals by providing financial assistance to students in need to pursue their degree and developing a series of activities each semester designed to strengthen relationships within the academic and STEM communities. Ways in which the goals of the project are being met will be shared including: recruiting strategies used to get students into the program; offering of activities in the form of presentations and workshops to help students prepare for careers the STEM industry; peer-led tutoring sessions to help with academic success in mathematics classes, and monthly meetings in which participants present original research. Data collected from student surveys at the end of each semester will be reported. Finally, the impact of transitioning to online learning as a result of COVID-19 in the middle of a semester on a project that focuses on community development will be shared. In addition, to students’ responses to online learning data collected from faculty teaching in STEM disciplines will also be shared. The following sources of information were used for this presentation; quantitative and qualitative data gathered from End of Semester surveys, student reflection narratives concerning their small group activities, and reports that summarizes and evaluates the peer-led team learning sessions. 

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4. Mentoring for Making: Peer Mentors Working with Learners in a Making-Focused Engineering Course

   https://doi.org/10.18260/1-2--47770  

   Nadelson, Louis; Dickrell, Pamela; DeJesus, Katherine (June 2024, ASEE Conferences)

   eer mentoring in college programs of study is not uncommon. However, most of the time, peer mentoring is focused on supporting students in traditional solving problems they are assigned as part of the coursework. Our work extends beyond examining conventional forms of peer mentoring by examining the work of peer mentors supporting students' work in a first-year engineering design course based in a makerspace classroom. The problems students solve in the makerspace classroom-based course typically have a wide array of possible solutions, which differs from many problems students solve in traditional courses with peer mentor support in which there is a single solution. Further, students in the makerspace classroom-based course are also expected to work in teams, which adds another layer of complexity to the role of the peer mentors working in the course. Our research goal was to empirically document the peer mentors' interactions with students and the students learning gains and development due to working with the peer mentors. To gather data from the students working with the peer mentors, we added a series of additional questions to their end-of-semester course evaluations. Note that the university's Institutional Review Board reviewed and approved this process. The questions we added included, "Please share how the peer mentors influenced your sense of belonging within the College of Engineering." "Please share how the peer mentors helped your group function as teams." and "Please share how the peer mentors helped you develop confidence in your abilities to do engineering." We also included companion Likert scale items such as "The peer mentors helped our team work together." and "The peer mentors helped us resolve conflicts in our group." We found that peer mentors tended to be perceived as a resource, supportive and reassuring to the students and meeting the students where they are. Thus, the mentors provided students with emotional, personal, and technical support to influence the students' sense of belonging to the college. The mentors helped the students function in teams by encouraging them to collaborate and include all. In their efforts to help students develop confidence in their abilities, the mentors worked to meet the students where they were at and reassured the students' capacity to succeed. They were also likely to encourage students to seek help, support their technical skill development, and encourage the students to apply their knowledge. The final focus of our research was on the mentors engaging in helping students feel part of the engineering community. We found the mentors encouraged the students to join an engineering club or attend engineering events. In our final report, we provide details of our data, both quantitative and qualitative, examples of the student's responses, the implications of our findings, and ideas for using our research to support mentor preparation programs to maximize the benefits of peer mentoring in maker spaces and other non-traditional engineering learning environments. 

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5. Identifying Faculty and Peer Interaction Patterns of First-Year Biology Doctoral Students: A Latent Class Analysis

   https://doi.org/10.1187/cbe.19-05-0089  

   Jeong, Soojeong; Blaney, Jennifer M.; Feldon, David F.; Braun, Derek (December 2019, CBE—Life Sciences Education)

   Faculty and peer interactions play a key role in shaping graduate student socialization. Yet, within the literature on graduate student socialization, researchers have primarily focused on understanding the nature and impact of faculty alone, and much less is known about how peer interactions also contribute to graduate student outcomes. Using a national sample of first-year biology doctoral students, this study reveals distinct categories that classify patterns of faculty and peer interaction. Further, we document inequities such that certain groups (e.g., underrepresented minority students) report constrained types of interactions with faculty and peers. Finally, we connect faculty and peer interaction patterns to student outcomes. Our findings reveal that, while the classification of faculty and peer interactions predicted affective and experiential outcomes (e.g., sense of belonging, satisfaction with academic development), it was not a consistent predictor of more central outcomes of the doctoral socialization process (e.g., research skills, commitment to degree). These and other findings are discussed, focusing on implications for future research, theory, and practice related to graduate training. 

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