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1. Place-Based Environmental Civic Science: Urban Students Using STEM for Public Good

   https://doi.org/10.3389/feduc.2021.693455  

   Gallay, Erin; Flanagan, Constance; Parker, Betsy (August 2021, Frontiers in Education)

   In the United States, Black and Latinx students are underrepresented in STEM courses and careers due to a dearth of culturally relevant opportunities, which in turn are connected to broader issues of social justice. Place-based environmental civic science offers potential for addressing these issues by enabling students to apply their STEM learning to mitigate local environmental problems. By civic science we refer to science in which all citizens, not just experts, engage for the public good. In this paper, we report on a study in which we followed middle-and high-school science and math classes in urban schools serving racial/ethnic minoritized students as they engaged in an innovative contextualized curriculum—a place-based civic science model in which students work with STEM community partners to address an environmental issue in their community. We draw from students’ open-ended reflections on what they learned from participating in place-based environmental civic science projects that could help their communities. Thematic analyses of reflections collected from 291 students point to beliefs in the usefulness of science to effect community change. Students articulated the science they learned or used in the project and how it could affect their community; they made references to real world applications of science in their project work and made links between STEM and civic contributions. In their own words, the majority of students noted ways that STEM was relevant to their communities now or in the future; in addition, a subset of students expressed changes in their thinking about how they personally could apply science to positively impact their communities and the ties between STEM and social justice. Analyses also point to a sense of confidence and purpose students gained from using STEM learning for their goals of community contribution. Results of this study suggest that focusing on local place as a foundation for students’ STEM learning and linking that learning to the civic contributions they can make, cultivates students’ perceptions of how they can use science to benefit their communities. Findings also suggest that engaging students in place-based civic science work provides effective foundations for nurturing STEM interest and addressing the underrepresentation of youth of color in STEM. 

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2. The Design of a Course to Train STEM Pre-Service Teachers (Work-in-progress)

   Crosby, Garh V; Alaqra, Maram H; Simmons-Brooks, Pamela; Krauss, Morgan; Tornquist, Shelly; Yalvac, Bugrahan (June 2024, ASEE)

   In pre-college levels, integrated science, technology, engineering, and mathematics (STEM) are often taught by science or mathematics teachers. These teachers lack the engineering and technology background and they do not necessarily use project-based and inquiry-oriented instructional strategies. To close the gap in the qualified STEM education teacher workforce, the authors developed and piloted a novel course to train preservice STEM teachers to effectively employ project-based and inquiry-oriented teaching strategies at pre-college levels. This 3-credit research and design experience course was piloted in the Spring 2023 semester. The preservice STEM teachers, enrolled in the course, engaged in hands-on activities, engineering project-based training, inquiry-based learning techniques through research training, makerspace training, field experience, and mentorship. The course comprised two parts. In part I, the students received research training. In part II, the students engaged in engineering design and makerspace professional development. In this paper, we report on the course design elements and the impact of the course activities on students’ self-efficacy in teaching STEM subjects using emerging technology, as well as their teaching approaches and understanding of student learning. The authors conducted a mixed methods study and collected both qualitative and quantitative data. Preliminary results of the multiyear study are presented. Initial findings indicate a heightened confidence of the students in their ability to deliver STEM content in secondary classrooms. Students improved their teaching approaches and reported positive experiences with the course. 

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3. “Making” to the Future: An Innovative Approach to Undergraduate Science Education

   Key, S. Catherine; Bradley, Tanina; Reid, Aileen; Saliim, Eric T. (August 2022, Zone 1 Conference of the American Society for Engineering Education)

   Gentry, Susan (Ed.)

   “Making’ - a hands-on practice of creating technology-based artifacts typically involves integrating electronics, programming, or 3D printing. This paper describes the targeted infusion of “making” into undergraduate STEM education as an approach to encourage innovation while building capacity in the 21st-century technical STEM skills of engineering and design. “Making’ has the potential to impact self-efficacy and building capacity in technical STEM skills among underrepresented and underserved science majors. To investigate how “making” experiences are received by Underrepresented Minority (URM) students at an Historically Black College or University (HBCU), we applied and received funding through the National Science Foundation HBCU-UP Targeted Infusion Project (TIP) mechanism. The infusion included “making” instructional practices and Course-based Undergraduate Research Experiences (CUREs) into two undergraduate biology courses. Assessment data indicates the targeted - infusion courses were well-received by these communities with females exceling in iteration and communication of engineered designs. 

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4. The Billion Oyster Project and Curriculum and Community Enterprise for Restoration Science Curriculum Impact on Teacher Engagement

   https://doi.org/10.5430/jct.v11n4p53  

   Birney, Lauren B.; Evans, Brian R.; Kong, Joyce; Solanki, Vibhakumari; Mojica, Elmer-Rico; Scharff, Christelle (April 2022, Journal of Curriculum and Teaching)

   The Billion Oyster Project and Curriculum and Community Enterprise for the Restoration of New York Harbor with New York City Public Schools (BOP-CCERS) program is a National Science Foundation (NSF) supported initiative and collaboration of multiple institutions and organizations led by Pace University. The NSF project, Innovative Technology Experiences for Students and Teachers (ITEST), had generated a large amount of data through engagement with teachers and students throughout New York City public schools. This article presents the second part to a large data collection study with focus on Underrepresented Minority (URM) student interest in STEM and engagement with teachers to support them in teaching science through experiential learning and lessons that connect science to the real world, particularly through science in the New York Harbor. The first component of the study focused on URM student interest in STEM. This second component of the study focuses on teacher engagement in the program, and what the researchers had learned in the process. Overall, teachers reported very favorable options on the impact of the BOP-CCERS activities as ways to generate student interest in STEM majors and careers. Teacher participants were generally positive about the amount of support and resources they received as members of the project, as well as the oyster-related knowledge and practices they learned to use with their own students in oyster field research. Data from the study provided evidence that the teacher activities were successful and met the project’s goals to provide support and resources for teachers to engage students in oyster restoration research. 

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5. The STEM Center to Promote Undergraduate Education and Research at Sam Houston State University

   Yildiz, F.; Villalta-Cerdas, A.; Thompson, D. E.; Martin, T. E.; Swarthout, M. B. (January 2022, 2022 ASEE Virtual Annual Conference Content Access)

   The STEM Center at Sam Houston State University (SHSU) has received funding from the National Science Foundation (NSF - IUSE) and was established in 2017. The STEM Center seeks to increase the number and quality of STEM graduates by establishing a strong foundation for learning using innovative teaching practices, supporting students in finding research and internship opportunities, and building lifelong skills needed for advancement and leadership in STEM careers. The center is in one of the STEM buildings with two fully equipped classrooms and office space for full-time staff members. The center staff collaborates with university-wide programs to promote STEM education and contribute to the university’s quality enhancement plan (QEP). The paper shares details regarding faculty and student involvement, the development of preparatory courses, institution-wide resources, and student outcomes from the project with the academic community. 

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