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1. Enhancing Preservice Teachers’ Intention to Integrate Engineering through a Multi-Disciplinary Partnership (Evaluation)

   Cima, F; Pazos, P; Kidd, JJ; Gutierrez, KS; Ringleb, SI; Ayala, OM; Kaipa, K (January 2021, 2021 ASEE Annual Conference)

   null (Ed.)

   Though elementary educators recognize the importance of integrating engineering in their classrooms, many feel challenged and unprepared to teach engineering content. The absence of effective engineering instruction in teacher preparation programs leaves future educators unprepared for this challenge. Ed+gineering is an NSF-funded partnership between education and engineering aimed at increasing preservice teacher (PST) preparation, confidence, and intention to integrate engineering into their teaching. Ed+gineering partners education and engineering students in multidisciplinary teams within the context of their respective university courses. As part of their coursework, the teams plan and deliver culturally responsive engineering lessons to elementary school students under the guidance of one engineering and one education faculty. This paper investigates the impact of Ed+gineering on PSTs’ knowledge of engineering practices, engineering pedagogical knowledge, self-efficacy to integrate engineering, and beliefs about engineering integration. The impact of Ed+gineering on participating PSTs was assessed using three collaborations involving students in engineering and education during Fall 2019 and Spring 2020. Preliminary results suggest that the Ed+gineering partnership positively impacted engineering-pedagogical knowledge, knowledge of engineering practices, and self efficacy for integrating engineering. The specific magnitude of the impact and its implications are discussed. 

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2. Using Critical Integrative Argumentation to Assess Socioscientific Argumentation across Decision-Making Contexts

   https://doi.org/10.3390/educsci12100644  

   Sparks, Rachel A.; Jimenez, P. Citlally; Kirby, Caitlin K.; Dauer, Jenny M. (October 2022, Education Sciences)

   Socioscientific issues (SSI) are often used to facilitate students’ engagement in multiple scientific practices such as decision-making and argumentation, both of which are goals of STEM literacy, science literacy, and integrated STEM education. Literature often emphasizes scientific argumentation over socioscientific argumentation, which involves considering social factors in addition to scientific frameworks. Analyzing students’ socioscientific arguments may reveal how students construct such arguments and evaluate pedagogical tools supporting these skills. In this study, we examined students’ socioscientific arguments regarding three SSI on pre- and post-assessments in the context of a course emphasizing SSI-based structured decision-making. We employed critical integrative argumentation (CIA) as a theoretical and analytical framework, which integrates arguments and counterarguments with stronger arguments characterized by identifying and refuting counterarguments. We hypothesized that engaging in structured decision-making, in which students integrate multidisciplinary perspectives and consider tradeoffs of various solutions based upon valued criteria, may facilitate students’ development of integrated socioscientific arguments. Findings suggest that students’ arguments vary among SSI contexts and may relate to students’ identities and perspectives regarding the SSI. We conclude that engaging in structured decision-making regarding personally relevant SSI may foster more integrated argumentation skills, which are critical to engaging in information-laden democratic societies. 

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3. Wind River Reservation: Culturally Responsive Elementary Coding Curriculum

   O'Leary, J.; Wilson, JP. (April 2021, TIE21)

   null (Ed.)

   Fort Washakie, Fremont County School District #38, and Wyoming Indian Schools, are partnering to develop a curriculum that integrates Computer Science education standards with Indian Education for All standards. The project goal is to increase teachers’ self-efficacy for teaching computer science standards and increase pedagogical and content knowledge. Project members will share how their teams are developing, piloting, and refining curriculum units that integrate computer science with Indian Education for All standards in their unique school communities. We’ll discuss our process as well as hear from educators about successes and challenges so far. This is a partnership with American Institutes for Research, the WY Department of Education, and the nonprofit BootUp and funded by the National Science Foundation’s CSforAll RPP. 

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4. Co-Constructing and Sharing STEAM Knowledge through a Culturally Relevant Literacy-Based Early Childhood School-University Partnership

   Caudle, Lori; Harper, Frances K.; Quinn, Margaret; Greene, Darelene (January 2021, Proceedings of the 2nd International Conference of the Journal Scuola Democratica)

   null (Ed.)

   Through school-university partnerships that situate learning within culturally relevant educational experiences, faculty, preservice teachers, and school-based educators are able to co-construct and share scientific knowledge. This knowledge consists of pedagogical content knowledge and funds of knowledge that include both knowledge and skills developed in cultural context that have evolved historically. In early childhood education, culturally relevant Science, Technology, Engineering, Arts, and Mathematics (STEAM) learning experiences are particularly important for young children's cognitive and social emotional development. This paper describes how intentional co-planning and collaboration to celebrate the US Read across America Day provided over 100 preschool children in eight classrooms with access to STEAM lessons virtually led by university preservice teachers in partnership with educators in the school. These activities engaged children in exploring art, computer science, physical science, engineering, and mathematics within the context of a culturally relevant version of the fairy tale Goldilocks and the Three Bears. Lessons implemented as part of school-university partnerships support Black and Latinx children's development of a sense of belonging in STEAM. Further, these experiences enhance teacher candidates' abilities to engage in culturally responsive STEAM teaching while receiving ongoing guidance and education from university faculty and school-based educators. Teacher education programs within higher education institutions should embrace school- university partnerships as contexts for the development of shared scientific knowledge and discourse since the benefits are twofold. First, children and teachers gain access to, and engage with, innovative STEAM experiences. Second, preservice teachers learn culturally relevant research-based instructional strategies through university coursework situated in authentic learning experiences; thus, their learning as teacher candidates is enhanced through planning, implementation, evaluation, and critical reflection. 

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5. Integrating Math and Science Through Engineering: Illustrative Examples From Curricula Implementation in Middle School Engineering Classrooms

   https://doi.org/10.1111/ssm.18370  

   Gale, Jessica; Baptiste_Porter, Dyanne; Alemdar, Meltem; Newton, Sunni; Choi, Jasmine; Rehmat, Abeera; Moore, Roxanne (June 2025, School Science and Mathematics)

   ABSTRACT Engineering has emerged as a promising context for STEM integration in K‐12 schools. In the previous decade, the field has seen an increase in curricular resources and pedagogical approaches that invite students to utilize mathematics and science as they engage in engineering practices. This Innovation to Practice paper highlights one effort to meaningfully integrate mathematics and science through engineering in middle school classrooms. The STEM‐ID engineering course sequence consists of three 18‐week middle school engineering courses. Each of the 6th, 7th, and 8th grade courses integrate science and math with engineering design, enabling students to explore and practice foundational math and science skills in a low‐risk, non‐high‐stakes‐tested environment. This Innovation to Practice paper provides illustrative examples of STEM‐integration through the STEM‐ID curricula, focusing on four key areas: data analysis, measurement, experimental design, and force and motion concepts. Drawing on our project's implementation data, we highlight illustrative examples of STEM integration, in practice, and lessons learned by educators and researchers involved in the project. 

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