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1. Locking-It-In and Doubling: Mediating Second-Grade Students’ Activity with Multiplicative Thinking

   Shumway, Jessica F; Lund, Camille; Kozlowski, Joseph; Silvis, Deborah; Clarke-Midura, Jody; Ashineh, Anahita (April 2025, American Educational Research Association)

   Using activity theory as a lens, we aimed to understand what second-grade students’ interactions revealed about their thinking and what mediated students’ engagement with important multiplicative ideas. In this setting, students interacted with multiplicative thinking using a coding robot and other artifacts as mediating tools. Through qualitative analysis, we found that students interacted with three concepts related to multiplicative thinking (i.e., composite units, doubling, iterating), and the lead mediators in their interactions included the robot’s remote, dry erase marker and table, and peers/teacher. Students gravitated to artifacts that made sense to them, and the implication is that students need agency in opportunities to use artifacts and have interactions with rules and the community to make meaning of complex mathematical ideas. 

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2. “Science theatre makes you good at science”: Affordances of embodied performances in urban elementary science classrooms

   https://doi.org/10.1002/tea.21735  

   Varelas, Maria; Kotler, Rebecca_T; Natividad, Hannah_D; Phillips, Nathan_C; Tsachor, Rachelle_P; Woodard, Rebecca; Gutierrez, Marcie; Melchor, Miguel_A; Rosario, Maria (November 2021, Journal of Research in Science Teaching)

   Abstract School science continues to alienate students identifying with nondominant, non‐western cultures, and learners of color, and considers science as an enterprise where success necessitates divorcing the self and corporeal body from ideas and the mind. Resisting the colonizing pedagogy of the mind–body divide, we aimed at creating pedagogical spaces and places in science classes that sustain equitable opportunities for engagement and meaning making where body and mind are enmeshed. In the context of a partnership between school‐ and university‐based educators and researchers, we explored how multimodal literacies cultivated through the performing arts, provide students from minoritized communities opportunities to both create knowledge and to position themselves as science experts and brilliant and creative meaning makers. Four theoretical perspectives (social semiotics and multimodality; dramatizing and the embodied mind; dismantling master narratives for minoritized peoples; and the relationship of knowledge production and identity construction) framed this multiple case study of classes of elementary and middle school students who made sense of and communicated science concepts and practices through embodied performances. The study provided evidence that embodied science representations afford students abundant opportunities to construct science knowledge and positionings that support engagement with science, whether performed on a small scale in classrooms, or for the whole school through a large‐scale science play. Embodied dramatizing led to opportunities for collective meaning making as student‐performers coordinated across various movements and modes in order to represent ideas. Multiple enactments of the same concept nurtured the development of multi‐dimensional scientific, sociocultural, and sociopolitical meanings. During embodiments, students positioned themselves and others in ways that allowed expanded science identities to become possible, intertwined with other salient identities. By treating children's bodies as sites of knowledge, imagination, and expertise, integrating performing arts and science has the potential to facilitate the development of connections among ideas and between self and ideas. 

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3. Teachers creating mathematical models to fairly distribute school funding

   Jung, Hyunyi & (June 2023, The Journal of Mathematical Behavior)

   Our study aims to investigate what teachers do as they draw on their mathematical understanding and personal experiences to engage in social justice-oriented mathematical modeling. We analyze what ideas were expressed by teachers regarding their mathematical identities while they explore, wrestle with, and reconcile the underlying societal values that support mathematical models. We invited groups of teachers to make mathematical models for distributing school funding given real data from diverse, anonymized schools. Our results show that teachers created and refined diverse mathematical models to connect the mathematical world and societal space and these models reflected different societal values. Drawing on their own experiences, teachers expressed a sense of agency and critical consciousness while making decisions about school funding. This study delineates mathematical contents and processes necessary for advancing a societal goal of fairly distributing funds and we explore how teachers connect to this context as learners and members of society. 

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4. Connecting mathematics and sports in informal learning spaces

   https://doi.org/10.3389/feduc.2024.1456653  

   Turner, Erin; Buxner, Sanlyn; Miller, Seneca B; Baze, Christina; Valerdi, Ricardo (August 2024, Frontiers in Education)

   IntroductionThere is a critical need to develop innovative educational strategies that engage youth in meaningful mathematics learning, particularly students from groups that have been historically marginalized in science, technology, engineering, and mathematics (STEM). In this study, we explore youths’ participation in two collaborative projects from the Growing Mathletes curriculum which combines baseball contexts and mathematics. Our goal was to understand the potential of these projects to support youths’ engagement with mathematical ideas and practices, and the extent to which youth leveraged a range of resources, including prior experiences and funds of knowledge, to inform their decisions and understanding. MethodsThe Design a Stadium and Baseball Team Roster projects were implemented in two afterschool setting sites and two summer program sites with 102 youth of all genders in grades 3 to 8. Data sources included video recordings of youth participation in the project, project artifacts, and youth interviews. ResultsWe found the projects contained specific features that supported youths’ engagement in three specific mathematical practices: (1) make sense of problems and persevere in solving them, (2) reason abstractly and quantitatively, and (3) construct viable arguments and critique the reasoning of others. Additionally, there is evidence that while engaging in these projects youth drew on their own funds of knowledge to inform their decisions and understanding. ConclusionOur findings point to key implications for researchers, educators, and curriculum developers in informal STEM learning spaces. 

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5. Scaffolded self-explanation with visual representations promotes efficient learning in early algebra

   https://doi.org/10.31219/osf.io/sbwfj  

   Nagashima, T.; Bartel, A. N.; Tseng, S.; Vest, N. A.; Silla, E. M.; Alibali, M. W.; Aleven, V. (January 2021, Proceedings of the 43rd Annual Conference of the Cognitive Science Society)

   Fitch, T.; Lamm, C.; Leder, H.; Teßmar-Raible, K. (Ed.)

   Although visual representations are generally beneficial for learners, past research also suggests that often only a subset of learners benefits from visual representations. In this work, we designed and evaluated anticipatory diagrammatic self-explanation, a novel form of instructional scaffolding in which visual representations are used to guide learners’ inference generation as they solve algebra problems in an Intelligent Tutoring System. We conducted a classroom experiment with 84 students in grades 5-8 in the US to investigate the effectiveness of anticipatory diagrammatic self-explanation on algebra performance and learning. The results show that anticipatory diagrammatic self-explanation benefits learners on problem-solving performance and the acquisition of formal problem-solving strategies. These effects mostly did not depend on students’ prior knowledge. We analyze and discuss how performance with the visual representation may have influenced the enhanced problem-solving performance. 

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