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1. Developing Math Knowledge and Computational Thinking Through Game Play and Design: A Professional Development Program.

   Smith, H. (October 2020, Contemporary issues in technology and teacher education)

   null (Ed.)

   The Game Play and Design Framework is a project-based instructional method to engage teachers and students with mathematics content by utilizing technology as a vehicle for game play and creation. In the authors’ prior work, they created a technology tool and game editing platform, the Wearable Learning Cloud Platform (WLCP), which enables teachers and students to play, create, and experience technology-augmented learning activities. This paper describes a 14-week Game Play and Design professional development program in which middle school teachers played, designed, tested, and implemented mathematics games in the classroom with their own students. Examples are included of teacher-created games, feedback from the students’ experience designing games, and evidence of student learning gains from playing teacher-created games. This work provides a pedagogical approach for educators and students that utilizes the benefits of mobile technologies and collaborative learning through games to develop students’ higher-level thinking in STEM classrooms. 

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2. Developing mathematics knowledge and computational thinking through game play and design: A professional development program.

   Smith, H. (October 2020, Contemporary issues in technology and teacher education)

   null (Ed.)

   The Game Play and Design Framework is a project-based instructional method to engage teachers and students with mathematics content by utilizing technology as a vehicle for game play and creation. In the authors’ prior work, they created a technology tool and game editing platform, the Wearable Learning Cloud Platform (WLCP), which enables teachers and students to play, create, and experience technology-augmented learning activities. This paper describes a 14-week Game Play and Design professional development program in which middle school teachers played, designed, tested, and implemented mathematics games in the classroom with their own students. Examples are included of teacher-created games, feedback from the students’ experience designing games, and evidence of student learning gains from playing teacher-created games. This work provides a pedagogical approach for educators and students that utilizes the benefits of mobile technologies and collaborative learning through games to develop students’ higher-level thinking in STEM classrooms. 

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3. Pre- and Post-Scores for Teacher Candidates on TPACK Levels and MCOP2 Rubrics

   https://doi.org/10.17632/f6757wv8bw.1  

   Rakes, Christopher (January 2022, Mendeley)

   These data are for 17 secondary mathematics teacher candidates (TCs) in four university teacher preparation programs, who implemented technology in their classrooms to teach for conceptual understanding in online, hybrid, and face-to-face classes during COVID-19. Using the Professional Development: Research, Implementation, and Evaluation (PrimeD) framework, a Networked Improvement Community (NIC) was formed by teacher candidates, classroom mentor teachers, field experience supervisors, and university faculty to discuss a commonly agreed upon problem of practice and a change idea to implement in the classroom. Through Plan-Do-Study-Act cycles, participants documented their improvement efforts and refinements to the change idea and then reported back to the NIC at the subsequent monthly meeting. The Technology Pedagogical Content Knowledge framework (TPACK) and the TPACK levels rubric (Lyublinskaya & Tournaki, 2011) were used to examine how teacher candidates implemented technology for Mathematics conceptual understanding. The Mathematics Classroom Observation Protocol for Practices (MCOP^2; Gleason, Livers, & Zelkowski, 2015) was used to further examine how effective mathematics teaching practices (e.g., student engagement) were implemented by TCs. 

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4. Mathematics Discourse in Secondary Teacher Candidates’ Lessons: A Mixed Methods Analysis

   https://doi.org/10.3390/educsci14121286  

   Schmidt, Ashley; Rakes, Christopher R; Bush, Sarah B; Ronau, Robert N; Soni, Siddhi; Fisher, Molly; Amick, Lisa; Viera, Julian; Safi, Farshid (December 2024, Education Sciences)

   Meaningful discourse in the mathematics classroom involves creating a learning community that empowers students to articulate their reasoning and make sense of the contributions of their peers while advancing the learning of mathematics for the entire class. This study assessed the degree to which secondary mathematics (Grades 7–12) teacher candidates incorporated discourse into their lessons and the factors influencing their decisions. An explanatory mixed methods design was used, in which data were collected sequentially. Lesson videos were analyzed, followed by interviews of teacher candidates with high-discourse lessons. This study found that participants showed significant growth in their use of effective teaching practices from the beginning of the semester to the end of the semester, including mathematics discourse. The interviews revealed four contributing factors: intentional effort, learning experiences, professional relationships, and pedagogical knowledge. Understanding the experiences of teacher candidates during their own learning of mathematics, their mathematical identities, and beliefs about mathematics could help generate knowledge regarding the implementation of mathematics discourse and other reform-based practices in teacher instruction. 

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5. Biologically Inspired Design: High School Students' Engagement in BID Integrated Learning in Engineering Classrooms

   https://doi.org/10.1109/FIE58773.2023.10342982  

   Rehmat, Abeera P; Alemdar, Meltem; Helms, Micheal; Baptiste-Porter, Dyanne; Rosen, Jeffery; Weissburg, Marc (October 2023, Applied Electronics)

   NA (Ed.)

   This Research paper explores the activities within the biologically inspired design-focused engineering curriculum to determine if they fostered students’ engagement in learning. This work builds on concurrent research exploring students' application of BID in engineering and teachers’ implementation of BID within their respective engineering classrooms. Participants comprised ninth-grade high school students (n=12) enrolled in the first-year engineering course across two high schools. Qualitative content analysis was conducted on classroom observation field notes, student focus groups, teacher curriculum enactment surveys, and teacher interviews. The finding revealed that student engagement varied across the seven-week-long unit. In the initial week, engagement was relatively low since the activities were static and required learning to be scaffolded via worksheets. However, during weeks three through six, engagement positively shifted due to the activities being more dynamic, requiring students to engage in inquiry and design learning. Furthermore, students’ academic engagement was fostered due to hands-on experiences and workbased authentic problems presented in the unit, which encouraged collaboration. 

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