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1. Confronting Frame Alignment in CT Infused STEM Classrooms

   Bain, C.; Dabholkar, S.; Wilensky, U. (April 2020, International Conference on Computational Thinking Education 2020)

   Kong, S.C. (Ed.)

   While the Next Generation Science Standards (NGSS) have presented computational thinking(CT)as an integral part of scientific inquiry, little work has been done to explicitly enable this connection in classrooms. We report on the efforts of one such design-based implementation research project which, with participation from local teachers, has been implementing CT infused STEM units in biology and chemistry classrooms. Using teacher reflections facilitated by an external evaluator, research field notes, and interviews, we identify possible issues of frame alignment in our implementations–that CT practices, particularly using computational models, were valued but would not enable students to gain a deeper understanding of scientific content. We then use this analysis and Schulman’s definition of teacher case knowledge to design a new element of the project that aims to enable teachers to promote collaborative scientific practice using computational models in the classroom that we call Lesson 0. We conclude with the discussion of a pilot implementation of this new lesson. 

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2. Ontological Alignment: Investigating the Role of the Teacher in Supporting Computational Modeling in Science Classrooms

   Wagh, A.; Fuhrmann, T.; Rosenbaum, L.; Eloy, A.; Blikstein, P.; Wilkerson, M. (January 2023, Proceedings of the 2023 Annual Meeting of the International Society for the Learning Sciences)

   Blikstein, P.; Brennan, K; Kiziko, R.; van Aalst, J. (Ed.)

   Though the medium of computational modeling presents unique opportunities and challenges for science learning, little research examines how teachers can effectively support students in this work. To address this gap, we investigate how an experienced 6th grade teacher guides her students through programming computational, agent-based models of diffusion. Using interaction analysis of whole-class videos, we define a construct we call ontological alignment in which the teacher facilitates discourse to surface, highlight, connect and seek supporting or contradictory evidence for student ideas in ways that align with the level of analysis available in the modeling tool. We identify two practices reflecting this construct; the teacher 1. primes students to orient to interactions between particles and 2. strategically selects evidence to help discern between student theories. We discuss the pedagogical value of ontological alignment and suggest the identified practices as exemplary for supporting students’ learning through computational modeling. 

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3. Scaffolding Coding Instruction Through Literacy via the Compose and Code Digital Platform and Curriculum

   https://doi.org/10.1111/jcal.13115  

   Hutchison, Amy; Si, Qi; Colwell, Jamie; Kaya, Erdogan; Jakeway, Eileen; Miller, Brittany; Gutierrez, Kristie; Regan, Kelly; Evmenova, Anna (February 2025, Journal of Computer Assisted Learning)

   ABSTRACT BackgroundIn recent years, computer science education has emerged as a necessary part of school curricula for students of all ages. With such momentum in this direction, it is essential that program designers, educators, and researchers ensure that computer science education is designed to be inclusive, effective, and engaging for all students. ObjectiveAccordingly, this paper reports on the design and implementation of an inclusive digital learning platform and accompanying curriculum for scaffolding and integrating coding into writing instruction for elementary‐aged students (approximately ages 9–12). In this paper, we report on teachers' uses of the Compose and Code (CoCo) platform and curriculum, how students used its features, and its influence on students' computational thinking skills and attitudes about coding. MethodData analysed in this mixed‐methods study come from 11 teachers and 595 students in Grades 3–6. Data sources included teacher reflections and interviews, an assessment of computational thinking for students, and a coding attitudes survey for students. Quantitative data were analysed descriptively and using paired samplet‐tests. Qualitative data were analysed inductively using open coding to determine emergent categories. Results and ConclusionFindings indicate that (1) a majority of students effectively used the CoCo platform to plan their work and code in Scratch, with a smaller percentage using the self‐evaluation and self‐monitoring features, (2) teachers indicated overall positive perceptions of the CoCo platform and curriculum, with strong support for using it in the future, (3) students' computational thinking skills improved over the course of the project, with results indicating a large effect size (g = 1.24), and (4) student attitudinal results were mixed, providing insights to the barriers that students face when learning to code. Overall, this study indicates that the CoCo platform and curriculum show promise as a scaffolded, structured, and integrated tool for teaching elementary computer science to elementary grade students. 

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4. “Well that's how the kids feel!”—Epistemic empathy as a driver of responsive teaching

   https://doi.org/10.1002/tea.21726  

   Jaber, Lama_Z; Dini, Vesal; Hammer, David (August 2021, Journal of Research in Science Teaching)

   Abstract While research shows that responsive teaching fosters students' disciplinary learning and equitable opportunities for participation, there is yet much to know about how teachers come to be responsive to their students' experiences in the science classroom. In this work, we set out to examine whether and how engaging teachersas learnersin doing science may support responsive instructional practices. We draw on data from a year‐long blended‐online science professional development (PD) program that began with an emphasis on teachers' doing science and progressed to supporting their attention to their students' doing science. By analyzing videos from teachers' classrooms collected throughout the PD, we found that teachers became more stable in attending and responding to their students' thinking. In this article, we present evidence from teachers' reflections that this stability was supported by the teachers' intellectual and emotional experiences as learners. Specifically, we argue that engaging in extended scientific inquiry provided a basis for the teachers havingepistemic empathyfor their students—their tuning into and appreciating their students'intellectualandemotionalexperiences in science, which in turn supported teachers' responsiveness in the classroom. 

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5. Expanding Preservice Teachers’ Conceptions of Science Teaching and Learning

   https://doi.org/10.22318/icls2023.103082  

   Metcalf, Allison; Jaber, Lama; Davidson, Shannon (October 2023, Proceedings of the 17th International Conference of the Learning Sciences - ICLS 2023)

   To support students’ sense of belonging in science classrooms, K-12 teachers should recognize and appreciate learners’ diverse experiential, cultural, and linguistic repertoires as valuable resources for sensemaking in science. This approach to teaching necessarily entails expanding what has been traditionally considered as ontologically and epistemologically valid and valued in disciplinary learning spaces so that students’ diverse ways of thinking, talking, and feeling are honored and built upon, rather than dismissed. This study explores the emergence of such expansiveness in the context of STEM preservice teacher education. Using preservice teachers (PSTs)’ written reflections and in-class discussions, we identified different ways in which such expansiveness manifested in PSTs’ discourse. We end with some implications for supporting teachers’ expanding conceptions of science teaching and learning. 

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