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1. Middle science computing integration with preservice teachers.

   Margulieux, Lauren; Yadav, Aman (January 2021, The Journal of computers in mathematics and science teaching)

   null (Ed.)

   We explored how preservice teachers in a middle school science methods course learned and applied computational thinking (CT) concepts and activities during a month-long intervention. In the intervention, preservice teachers learned about CT concepts through an hour-long lecture in their methods class, practiced a computing-integration activity for electromagnetic waves, and prepared and implemented a lesson plan based on the activity in student teaching. The intervention was in the early stages of design, and, therefore, the research is exploratory with primarily qualitative data. The data were collected at multiple points throughout the month to measure the development of knowledge and attitudes about CT and computing integration. We found that preservice teachers had little knowledge of computing before the intervention that gradually evolved into a deep understanding that they wanted to apply to computing-integrated activities science and other subjects. Though they had high levels of uncertainty after initial instruction and practicing the computing-integration activity, they found the student teaching experience rewarding and motivating to including computing in their future teaching practice. 

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2. Collaborative global learning within an integrated STEM professional development using children's literature

   https://doi.org/10.1111/ssm.18328  

   Asim, Sumreen; Haines, Sarah; Wieselmann, Jeanna; Menon, Deepika (January 2025, School Science and Mathematics)

   Elementary‐level teachers often express the need for assistance and support in teaching integrated science, technology, engineering, and mathematics (STEM) lessons. Many lack content knowledge in these disciplines, and many also report a lack of adequate opportunities to teach these subjects during their preservice programs or their in‐service careers. We addressed this need by offering online professional development (PD) opportunities in integrated STEM, using model lessons that are anchored in the BSCS 5E instructional model, also known as the learning cycle. Our broader goal is to establish a professional learning community for both preservice and in‐service elementary teachers focused on integrated STEM education. We based our design and implementation of an engineering‐focused PD sequence on research literature, integrating STEM content areas and emphasizing key factors for maximizing impact, such as active learning, content focus, coherence, duration, and participant engagement. In this article, we outline the structure and describe the activities we conducted over the summer, which included elements of collaboration, interaction, and reflection. Our team also chose to incorporate picture books featuring international STEM role models, like Zaha Hadid, in the book titled The World is not a Rectangle: A Portrait of Architect Zaha Hadid by Jeannette Winter. The insights gained from this iteration of the PD will inform the planning of future online PD offerings for elementary teachers. 

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3. Professional knowledge building within an elementary teacher professional development experience on computational thinking in science education

   Hestness, E; Ketelhut, D. J.; McGinnis, J. R.; Plane, J. (January 2018, Journal of technology and teacher education)

   Abstract. We investigated teacher learning within a professional development (PD) workshop series on computational thinking (CT) for elementary-level mentor teachers. The purpose of the PD was to prepare mentor teachers to support preservice teachers in integrating CT into their classroom practice, toward the broader goal of advancing CT for all in the early grades. We examined the ways in which participants collaboratively built on existing professional knowledge as they engaged in professional learning activities designed to introduce CT and related pedagogies for elementary science education. Our data sources were field notes, artifacts, drawings, written reflections, and focus group interviews. We describe how participants developed new understandings of CT integration and made connections to existing professional knowledge of their students, their curriculum, and their school contexts. We discuss implications for teacher learning and PD design relevant to CT, and make recommendations for future research. 

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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. One year in the classroom with ChatGPT: empirical insights and transformative impacts

   https://doi.org/10.3389/feduc.2025.1574477  

   Guo, Feng; Li, Tian; Cunningham, Christopher_J L (May 2025, Frontiers in Education)

   Generative Artificial Intelligence (GAI), such as OpenAI’s ChatGPT, has rapidly emerged as a transformative tool in higher education, offering opportunities to enhance teaching and learning. This paper describes the design and implementation of ChatGPT-integrated curriculum activities, featuring coding learning in psychology and conceptual discussions in physics, and presents the findings of a year-long experimental study in both types of classrooms. Our findings suggest that students generally found ChatGPT easy to use and beneficial to their learning, reporting improved confidence, motivation, and engagement. However, its ability to address individual needs or replace instructors was viewed less favorably. Comparative analyses showed that coding activities in psychology led to higher levels of activity satisfaction and perceived usefulness of ChatGPT compared to the more abstract discussion activities in physics. While graduate students were more enthusiastic about using ChatGPT for skill acquisition than undergraduates, demographic factors such as gender, race, and first-generation college status showed no significant influence on such perceptions. Meanwhile, instructors’ reflections emphasize the importance of thoughtful integration, technical support, and pedagogical balance to maximize GAI’s potential while mitigating its limitations. Recommendations for integrating GAI into teaching practices and future research directions are discussed, contributing to the evolving discourse on GAI’s role in transforming modern classrooms. 

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