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1. Using evidence of student thinking as resources in a digital collaborative platform

   Park, Sunyoung; Edson, Alden J (August 2024, Mathematics education research and practice)

   Learning mathematics in a student-centered, problem-based classroom requires students to develop mathematical understanding and reasoning collaboratively with others. Despite its critical role in students’ collaborative learning in groups and classrooms, evidence of student thinking has rarely been perceived and utilized as a resource for planning and teaching. This is in part because teachers have limited access to student work in paper-and-pencil classrooms. As an alternative approach to making student thinking visible and accessible, a digital collaborative platform embedded with a problem-based middle school mathematics curriculum is developed through an ongoing design-based research project (Edson & Phillips, 2021). Drawing from a subset of data collected for the larger research project, we investigated how students generated mathematical inscriptions during small group work, and how teachers used evidence of students’ solution strategies inscribed on student digital workspaces. Findings show that digital flexibility and mobility allowed students to easily explore different strategies and focus on developing mathematical big ideas, and teachers to foreground student thinking when facilitating whole-class discussions and planning for the next lesson. This study provides insights into understanding mathematics teachers’ interactions with digital curriculum resources in the pursuit of students’ meaningful engagement in making sense of mathematical ideas. 

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2. Harnessing Asynchronous Digital Simulations of Problem-based Lessons to Support Mathematics Teachers’ Professional Development: A Design-based Approach

   https://doi.org/10.1007/s10763-024-10514-x  

   Schwarts, Gil; Herbst, Patricio; Brown, Amanda M (October 2024, International Journal of Science and Mathematics Education)

   Abstract The complexity of mathematics teaching is especially evident in lessons where teachers build on students’ genuine ideas, such as problem-based lessons. To enhance teachers’ capacity for rich discussions in problem-based instruction, we have developed a unique approximation of practice: digital asynchronous simulations where teachers make subject-specific decisions for a virtual teacher avatar. The simulations are based on materials and principles from a practice-based professional development (PD) program, implemented with small groups of teachers. The self-paced simulation model offers flexibility and scalability, allowing more teachers to participate on their own schedules, but it lacks key affordances of collaborative PD. To examine how to leverage the affordances of collaborative, practice-based PD, this paper uses a design-based research approach to explicate the mechanisms in which digital simulations can support mathematics teachers’ learning about problem-based lessons. We focus on two cycles of design, implementation, analysis, and revisions of the simulation model, drawing on data from focus groups with mathematics teacher educators, prospective teachers’ performance, and teachers’ reflective assignments. The analysis illustrates how two design principles –Authenticity to the teacher’s work, andNuanced feedback– were transformed to better reflect aspects of practice-based teacher learning. We argue that self-paced, asynchronous simulations with indirect feedback can effectively emulate aspects of collaborative, practice-based PD in supporting teachers’ growth. The paper also contributes to the literature on mathematics teachers’ noticing and decision-making, examining how the two interact in simulated environments. We suggest implications for designing practice-based asynchronous digital simulations, drawing on emerging technologies. 

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3. Teachers’ collaborative reflections and planning on using digital and non-digital resources

   Park, Sunyoung; Edson, Alden J (November 2024, Kent State University)

   This study investigates how two middle school teachers of mathematics reflected on and planned for the use of a digital collaborative platform embedded with a problem-based curriculum. As digital resources can help teachers enact mathematics problems that are responsive to the needs of their students, more empirical work is needed to understand and inform relevant teaching practices that leverage evidence of student thinking (Pepin et al., 2017). Drawing on a documentational approach to didactics (Gueudet & Trouche, 2009), we examine the influences of collaborative reflections on teachers’ decisions about the use of digital resources. Our preliminary findings show that based on their reflective conversation, teachers considered the affordances and constraints of both digital and non-digital resources in their planning. Our findings suggest collaborative reflections help teachers critically examine digital resources. 

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4. The Billion Oyster Project and Curriculum and Community Enterprise for Restoration Science Curriculum: The Digital Platform and Student Symposium Presentations

   https://doi.org/10.5430/jct.v11n8p53  

   Birney, Lauren B.; Evans, Brian R.; Kong, Joyce; Solanki, Vibhakumari; Mojica, Elmer-Rico (October 2022, Journal of Curriculum and Teaching)

   The Billion Oyster Project and Curriculum and Community Enterprise for the Restoration of New York Harbor (BOP-CCERS) program is a National Science Foundation (NSF) supported initiative and collaboration of multiple institutions and organizations led by Pace University and is in collaboration with New York City Public Schools. This large-scale project, Innovative Technology Experiences for Students and Teachers (ITEST), generated a large amount of data through programming that engaged both teachers and students. This article presents the third part to the study with focus on the Digital Platform and results from the student Symposium presentations. Part 1 focused on Underrepresented Minority (URM) student interest in STEM as motivated by the original project. Part 2 focused on URM student engagement with teachers to support students in teaching science through experiential learning and lessons that connect science to the real world, particularly through science in the New York Harbor. Moreover, the second part of the study focused on teacher engagement in the program, and what the researchers had learned in the process. The third aspect of the study, and primary focus on this paper, had found additional positive results cited by the teachers in the study both using the Digital Platform and after the project outcomes from the student Symposium presentations. 

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5. An Exploration of a Mathematics Teachers Concerns Enacting Project-Based Instruction.

   Shockey, Tod (April 2020, SITE)

   null (Ed.)

   We present a case of one teacher’s engagement in project-based learning for algebra I students. This teacher was a member of a cohort of mathematics teachers and career technical educators who participated in a two-week intensive summer institute investigating autonomous vehicles. During the academic year, the follow up support for these educators includes classroom support and monthly meetings where teachers give a formal presentation on their lessons. This paper presents the first of nine presentations that will be given by the mathematics educators during the 2020-2021 academic year. While her students loved the lesson, she reveals that the lesson will have to serve as an algebra I curriculum add-on as she does not perceive that this activity will adequately prepare her students for the state mandated algebra I examination. 

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