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1. “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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2. Apt Epistemic Practices in a High School Science Classroom: A Contrastive Case Study

   Hussain-Abidi, Huma; Chinn, Clark A; Yoon, Susan A; Cottone, Amanda M; Noushad, Noora F; Richman, Thomas (June 2022, International Society of the Learning Sciences)

   In the current “post-truth” era, there is a growing need to promote apt epistemic practices in science education. In this study, we investigated two high-school biology students’ epistemic practices during a modeling unit and appraised them for aptness using the Apt-AIR framework. Additionally, we analyzed their responses to a post-implementation focus group interview, designed to elicit their metacognition regarding epistemic practices, as they answered probing questions about practices within the curriculum and reflected on video clips of other students engaging with the units. We document the epistemic practices that students engage in during a modeling unit and evaluate the extent to which they are apt. Findings suggest a disassociation between students’ cognitive engagement in modeling practices and their metacognitive understanding. 

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3. POSSIBILITIES AND PROMISES OF USING ARGUMENTATION IN THE TEACHING OF MATHEMATICS, SCIENCE, AND CODING

   Menke, J. (January 2021, Annual meeting program American Educational Research Association)

   In this presentation, the research team discussed teachers' facilitation of argumentation in teaching computer programming (or coding) and how it related to their epistemic beliefs about mathematics and science. The preliminary results showed that teachers engaged their students in both justificatory and inquiry arguments when teaching coding. This was not the case with respect to mathematics and science, in which teachers described engaging students either in justificatory or inquiry argumentation exclusively. The team proposes that these siloed uses of argumentation in mathematics and science relate to the teachers' epistemic beliefs about the disciplines, and their use of argumentation in coding builds on and goes beyond their experiences with argumentation in teaching mathematics and science. 

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4. Teacher strategies to support student navigation of uncertainty: Considering the dynamic nature of scientific uncertainty throughout phases of sensemaking

   https://doi.org/10.1002/sce.21857  

   Ha, Heesoo; Chen, Ying‐Chih; Park, Jongchan (May 2024, Science Education)

   Abstract Sensemaking has been advocated as a core practice of science education to support students in constructing their own understanding through a prolonged trajectory. However, the field lacks a discussion of teaching strategies that can better support students as they develop in the trajectory of sensemaking, which includes four phases: initial engagement with a driving question related to a target phenomenon; identification of incoherence and insufficiency in existing understanding; exploration of multiple resources to help develop plausible explanations; and synthesis of solutions and application of new understanding to interpret the target phenomenon. With the view that students' scientific uncertainty, including conceptual and epistemic uncertainties, can motivate or drive the trajectory of sensemaking coherent with students' understanding, this multiple case study examined how two science teachers, one from South Korea and one from the USA, supported students to navigate their scientific uncertainties to shape a trajectory of sensemaking that is coherent to them. Transcripts of video recordings of classroom discourses and student‐created artifacts were analyzed. We identified the dynamic nature of students' scientific uncertainties in the four phases and the teaching strategies in each phase. Three main findings emerged from this study: (1) student uncertainty as a key not only to initiate the trajectory of sensemaking meaningfully but also to continuously develop the trajectory along a coherent pathway, (2) conceptual and epistemic uncertainties having different roles in building different phases of sensemaking, and (3) teaching strategies that support student navigation of scientific uncertainty that drives the trajectory of sensemaking. 

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5. Troubleshooting as an Inquiry Activity: Recognizing and Supporting the Mangle in the Classroom

   https://doi.org/10.1002/sce.21979  

   Stephens, A Lynn (June 2025, Science Education)

   ABSTRACT Although there is a push to provide more student agency in science classrooms, teachers and students may become frustrated when inquiry activities and equipment do not work as planned—teachers because of the time crunch to “cover” topics and students because of the perceived lack of value in activities that are “off task.” In classroom implementations of a data‐rich high school physics activity sequence as part of the InquirySpace 2 (IS2) project, numerous episodes of equipment troubleshooting were observed. Teachers questioned whether the time spent had disciplinary value. Students expressed concern regarding what, if anything, they were learning. This qualitative case study of one such episode considers students' activity in terms of their engagement with the “mangle of practice” and misalignments between their conceptual and material worlds, their exercise of epistemic agency in recognizing and repairing those misalignments, and their epistemic affect during and after the activity. Video analysis revealed all three aspects deeply intertwined with evidence of student engagement in multiple science practices. The students expressed their feelings about the episode immediately afterward and the teacher and IS2 observer when interviewed much later, at the end of the project. One reason for the negative perceptions of teacher and students may be that the alignments being explored were related to the instrumentation more than to the target phenomenon. This study argues that in such situations, students may not recognize or value science practices that emerge, and may need explicit support to reframe their activity as valid scientific practice. 

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