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Public agencies and other funding organizations have often defined rural in reference to “urban” and using parameters such as population density, access to cities, and distance to market areas. Using such definitions of rurality within the context of K-12 education as a way to support these systems is challenging because of the diverse geographic and socio-cultural identities of these places despite a common “rural” designation. This study aims to analyze elementary teachers’ perceptions of their school context and role within that context to better understand the diversity of what it means to be rural. Semi-structured interviews with 3rd–5th-grade teachers (n = 35) were used. Data sources also included identity and community walk slides created by these teachers. Structured interview prompts were tailored to these activities. A priori and emergent coding analyses were used to examine teachers’ conception of their rural context and their role within that context. The results show that rural, as defined by teachers, is a diverse and connected place in which diverse community assets support teachers in their instruction in unique ways. By better understanding the diversity of what it means to be rural, we begin to understand the ways in which context shapes experience and best determine how to support rural educational experiences for both teachers and students. 

Despite the intent to advance engineering education with the NGSS, teachers across all grade levels lack confidence in their engineering content knowledge and pedagogy (Hammack & Ivey, 2019). This dilemma is exacerbated by a lack of quality NGSS-aligned curricular materials that integrate science and engineering at the elementary grades— currently, only one elementary unit reviewed by Achieve has received an NGSS Design Badge that includes engineering (NextGenScience, 2020), and these materials are especially unavailable in schools serving high-needs students (Banilower, 2019). Implementation research now acknowledges that contexts and conditions can, and often do, affect the enactment of innovations and that “improving education requires processes for changing individuals, organizations, and systems” (Century & Cassata, 2016, p. 172). Due to geographic location and, often, smaller collegial networks of teachers who teach science, and engineering, rural schools encounter acute challenges in recruiting and retaining teachers (Arnold et al., 2005) and providing content-specific Professional Learning (PL) (Harmon & Smith, 2007). The goal of this NSF DRK12 multi-institution project is to longitudinally investigate the impacts, sustainability, and costs of NGSS implementation, especially in rural contexts. Our approach differs from most interventions in that it is tailored to rural educators in grades 3–5 and offers curriculum-agnostic, fully online PL that supports teachers in utilizing resources and phenomena found in their local contexts to develop and implement engaging, NGSS-aligned engineering instruction. Our intervention began with a five-day (i.e., weeklong) online PL experience in the summer of 2023 for grades 3–5 teachers in each of four western states. Examples of PL sessions provided include: (1) an overview of three-dimensional learning and phenomena-based instruction; (2) a deep dive into the NGSS Science and Engineering Practices (SEPs); (3) instructional practices that encourage equitable student participation and epistemic agency; and (4) building understanding and comfort with NGSS-aligned engineering and design-based instruction for the elementary grades. The initial intensive PL experience had immediate positive impacts on grades 3–5 teachers’ attitudes and efficacy for teaching engineering. We are now exploring how modest supports influence the sustainability of these changes. Over the 2023-2024 academic year, we are providing teachers with a menu of modest supports including: three 90-minute-long online PL meetings each semester, materials for teaching a locally focused engineering design task, and access to a variety of electronic supports (e.g., Google Classroom Site, shared resources). The fall semester online meetings have focused on supporting teachers to identify connections to science and engineering in their school’s community and how to develop NGSS-aligned engineering design tasks that connect to their local communities. Teachers will be implementing their engineering lessons during December 2023 and January 2024. 

This study explores undergraduate engineering and education students’ perspectives on their interdisciplinary teams throughout the rapid transition to online learning and instruction from a face-to-face to a virtual format. In this qualitative study, students’ reflections and focus groups from three interdisciplinary collaborations were analyzed using the lens of Social Cognitive Theory. COVID-19 created a dramatic change in the environment such that the most immediate and direct impact on students’ experiences was on the environmental aspects of Bandura’s triadic reciprocal determinism model, which then triggered behavioral and personal responses to adapt to the new environment. Subsequent evidence of reciprocal effects between environmental, behavioral, and personal factors took place as students continued to adapt. Results suggest that the modifications made to transition the project fully online were meaningful experiences for students’ learning and teaching of engineering through teams. This interdisciplinary partnership provided both pre-service teachers and undergraduate engineering students with the opportunity to learn and practice content and professional skills that will be essential for success in future work environments.