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1. Engaging elementary mathematics specialists: Strengthening the connections between university coursework and practice

   https://doi.org/10.1111/ssm.12689  

   Cannon, Susan O; Castanheira, Brittney; Keese, Jeffrey; Welji, Shaffiq (June 2024, School Science and Mathematics)

   Abstract Elementary teachers are underprepared to teach mathematics, and there is a lack of field‐based support for mathematics‐specific pedagogies in the elementary grades. To address this theory to practice gap, we developed an innovative model of fieldwork that draws on the expertise of in‐service teachers (elementary mathematics specialists [EMSs]) who had recently completed a K–5 mathematics endorsement to work in the role of university supervisors supporting beginning teachers (BTs) in initial fieldwork. We argue that this model has three key aspects that will support BTs bridging the theory to practice gap: (1) as in‐service teachers the EMSs are keenly connected to the context of schools; (2) recent experience in university coursework in mathematics while serving as in‐service teachers required the EMSs to navigate the theory to practice gap themselves; (3) one‐on‐one mentorship supports strong and trusting relationships. Drawing on data from a 3‐year study we found that EMSs brought intimate knowledge of the school context and knowledge of the mathematics‐specific pedagogies taught at the university. These connections to the field and the university allowed EMSs to support BTs in implementing research‐based practices in their mathematics lessons that went against the norms of their school settings. 

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2. Teacher Perspectives on a Narrative-Centered Learning Environment to Promote Computationally-Rich Science Learning through Digital Storytelling

   Houchins, J and (January 2021, Proceedings of Society for Information Technology & Teacher Education International Conference)

   null (Ed.)

   Elementary school teachers are increasingly looking to incorporate computational thinking (CT) into their practice. Unlike middle and high school where CT is often integrated into a single subject, elementary school teachers have the unique opportunity to integrate CT across multiple content areas. However, there is little research on the in-platform supports elementary teachers need to accomplish this integration successfully. To investigate this integration, we are iteratively developing a narrative-centered learning environment to facilitate learning outcomes in physical science via the creation of digital narratives that elicit CT. The learning environment enables students to use their science understanding to propose a solution to a problem through story creation using custom narrative-centered programming blocks that set a story’s scene, selects characters, and controls the story’s unfolding dialogue and actions. We have engaged with four upper elementary teachers to gather their perspectives on the usability of the learning environment and input on future design iterations. In this paper, we report results from a focus group study with the teachers that examines their perceptions on whether and how the learning environment facilitates story creation and if the learning environment provides learning supports for integrated science, language arts, and CT. Initial results suggest that teachers found the environment to be engaging and supportive of students’ creativity. 

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3. Teacher Perspectives on a Narrative-Centered Learning Environment to Promote Computationally-Rich Science Learning through Digital Storytelling

   Houchins, J; Cully, K.; Boulden, D.C.; Oliver, K.; Smith, A.; Minogue, J.; Mott, B.; Elsayed, R.; Cheuoua, A.H.; Ringstaff, C. (March 2021, Proceedings of Society for Information Technology & Teacher Education International Conference)

   null (Ed.)

   Elementary school teachers are increasingly looking to incorporate computational thinking (CT) into their practice. Unlike middle and high school where CT is often integrated into a single subject, elementary school teachers have the unique opportunity to integrate CT across multiple content areas. However, there is little research on the in-platform supports elementary teachers need to accomplish this integration successfully. To investigate this integration, we are iteratively developing a narrative-centered learning environment to facilitate learning outcomes in physical science via the creation of digital narratives that elicit CT. The learning environment enables students to use their science understanding to propose a solution to a problem through story creation using custom narrative-centered programming blocks that set a story’s scene, selects characters, and controls the story’s unfolding dialogue and actions. We have engaged with four upper elementary teachers to gather their perspectives on the usability of the learning environment and input on future design iterations. In this paper, we report results from a focus group study with the teachers that examines their perceptions on whether and how the learning environment facilitates story creation and if the learning environment provides learning supports for integrated science, language arts, and CT. Initial results suggest that teachers found the environment to be engaging and supportive of students’ creativity. 

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4. Development of prospective elementary teachers' mathematical modelling competencies and conceptions

   https://doi.org/10.1080/0020739X.2021.2005170  

   Tidwell, W.; Anhalt, C. O.; Cortez, R.; Kohler, B. R. (December 2021, International Journal of Mathematical Education in Science and Technology)

   This study examines prospective elementary teachers’ growth and development of competencies, conceptions, and perceptions of mathematical modelling in a mathematics content course for ele- mentary teachers. A series of lessons were implemented that engaged students in the modelling process through modelling tasks. The goal was to capture prospective teachers’ thoughts and per- ceptions on the meaning of mathematical modelling and their conceptions of teaching and learning modelling at the elementary and middle school level. The research questions were: (1) How do prospective teachers translate the mathematical modelling cycle into their practice of doing modelling? and (2) How do prospective teachers’ conceptions of modelling and teaching and learning modelling evolve throughout the implementation of a series of mathematical modelling lessons? Data sources included posters, modelling reports, responses to a pre- and post-intervention questionnaire, and semi-structured interview dialogue. Data analyses included mixed methods using provisional coding, open coding, and a categorical rubric. Findings from this study indicate that (1)Prospective elementary teachers translated the modelling cycle into their practice by developing their range of modelling competencies including multiple components of the modelling cycle, and (2) They developed a professionally appro- priate conception of mathematical modelling along with productive perceptions of the benefits of teaching and learning modelling. 

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5. Examining elementary students’ attitudes and interests toward computational thinking in the context of teacher professional development

   Mathayas, Nitasha; Mead, Hilary; Mouza, Chrystalla; Ospina-Tabaras, Santiago; Pollock, Lori; Cruz-Cordero, Tania Maria (September 2025, American Educational Research Association (AERA))

   This study investigates the coding attitudes of elementary students’ (K-5) following their participation in lessons that integrated computational thinking (CT) and culturally responsive pedagogy (CRP) in content area instruction. Their teachers attended a professional development program in the summer to develop these integrated lessons for the school year. A total of 149 upper elementary students (grades 3-5) completed the Elementary Students Coding Attitudes survey (Mason & Rich, 2020) both before and after the lessons, while a subset of 58 students spread across K-5 classrooms were interviewed after the lesson implementation. Survey results find a decline in students’ coding interest and perception of coding from pretest to posttest. Conversely, qualitative analysis of interview data, conducted through abductive coding, summary development, and peer debriefing, demonstrated that most students enjoyed the lessons and expressed interest in pursuing coding in the future. The mixed results from this study highlight critical considerations for supporting elementary educators in successfully integrating CT and culturally responsive practices. Additionally, the findings point to opportunities for strengthening professional development and refining our research methods to better capture data within elementary classrooms, particularly in the lower grades. 

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