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1. ASYNCHRONOUS MATHEMATICS PD: DESIGN AND FACILITATION FORMAT EFFECTS ON TEACHER LEARNING

   Seago, N.; Knotts, A.; Neumayer DePiper, J. (January 2022, PME)

   In this paper, we share the design and effects on teacher learning of a set of two-hour online mathematics professional development modules adapted from face-to-face video-based materials. The modules are designed to be used in three facilitation formats: project staff- facilitated, district leader-facilitated, or structured independent. The modules aim to impact teachers’ mathematical knowledge for teaching linear functions and effective mathematics teaching practices (MTPs; NCTM, 2014). Analysis of teacher learning, as related to evidence of the MTPs in teachers’ written reflections, found teachers demonstrated learning of key MTPs, and in particular, there were not significant differences by facilitation format. Results and implications are discussed. 

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2. Asynchronous Mathematics PD: Design and facilitation format effects on teacher learning

   Seago, N.; Knotts, A.; & Neumayer DePiper, J. (January 2022, PME)

   In this paper, we share the design and effects on teacher learning of a set of two-hour online mathematics professional development modules adapted from face-to-face video-based materials. The modules are designed to be used in three facilitation formats: project staff- facilitated, district leader-facilitated, or structured independent. The modules aim to impact teachers’ mathematical knowledge for teaching linear functions and effective mathematics teaching practices (MTPs; NCTM, 2014). Analysis of teacher learning, as related to evidence of the MTPs in teachers’ written reflections, found teachers demonstrated learning of key MTPs, and in particular, there were not significant differences by facilitation format. Results and implications are discussed. 

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3. Advancing Hydroinformatics and Water Data Science Instruction: Community Perspectives and Online Learning Resources

   https://doi.org/10.3389/frwa.2022.901393  

   Jones, Amber Spackman; Horsburgh, Jeffery S.; Bastidas Pacheco, Camilo J.; Flint, Courtney G.; Lane, Belize A. (June 2022, Frontiers in Water)

   Hydroinformatics and water data science topics are increasingly common in university graduate settings through dedicated courses and programs as well as incorporation into traditional water science courses. The technical tools and techniques emphasized by hydroinformatics and water data science involve distinctive instructional styles, which may be facilitated by online formats and materials. In the broader hydrologic sciences, there has been a simultaneous push for instructors to develop, share, and reuse content and instructional modules, particularly as the COVID-19 pandemic necessitated a wide scale pivot to online instruction. The experiences of hydroinformatics and water data science instructors in the effectiveness of content formats, instructional tools and techniques, and key topics can inform educational practice not only for those subjects, but for water science generally. This paper reports the results of surveys and interviews with hydroinformatics and water data science instructors. We address the effectiveness of instructional tools, impacts of the pandemic on education, important hydroinformatics topics, and challenges and gaps in hydroinformatics education. Guided by lessons learned from the surveys and interviews and a review of existing online learning platforms, we developed four educational modules designed to address shared topics of interest and to demonstrate the effectiveness of available tools to help overcome identified challenges. The modules are community resources that can be incorporated into courses and modified to address specific class and institutional needs or different geographic locations. Our experience with module implementation can inform development of online educational resources, which will advance and enhance instruction for hydroinformatics and broader hydrologic sciences for which students increasingly need informatics experience and technical skills. 

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4. Technology-supported professional development for collaborative design of COVID-19 instructional materials

   Sadler, T. D.; Friedrichsen, P.; Zangori, L.; Ke, L. (July 2020, Journal of technology and teacher education)

   null (Ed.)

   Issue-based learning is a pedagogical approach that features learning opportunities contextualized in compelling, societal issues that face students in their lives beyond school. COVID-19 is a global health emergency and represents the kind of societal challenge that can serve as the basis for issue-based learning. In this project, we facilitated teacher professional development in the midst of the COVID-19 pandemic with the aim of collaboratively designing instructional activities to teach about COVID-19. We used videoconferencing technologies to carry out the professional development in the wake of school and university closures. Breakout rooms within the videoconferencing platform and an online collaborative space were particularly important for the successful enactment of this program. The group was able to design four instructional activities each of which incorporates different forms of technology. These activities include a computational simulation, tools for perspective taking, a mathematical model created through a spreadsheet, and media and information literacy tools. Implications for similar forms of professional development include teacher recruitment decisions, flexibility in the face of evolving circumstances, focusing on affordances of technology platforms, and responding to teacher concerns. 

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5. Evolving Cybersecurity Education: An Analysis of the GenCyber Teacher Academy's Progression from 2022 to 2023 and Beyond

   Radday, E; Mekni, M; Page, L; Sula, A; Brown, L (May 2024, Journal of computing sciences in colleges)

   Lu, Baochuan; Johnson, Jeremiah W (Ed.)

   The GenCyber Teacher Academy (GTA) stands as a pioneering professional development initiative, empowering Connecticut's high school educators in diverse STEM fields to explore and integrate cybersecurity concepts into their teaching. The inaugural 2022 edition facilitated inquiry-based learning and collaborative discourse on GenCyber Cybersecurity Concepts. However, program evaluation uncovered areas for curriculum enhancement. This paper delineates the evaluation process, curriculum revisions, and their implementation outcomes. Findings demonstrate that the revised 2023 GTA fostered improved teacher engagement with modules, enhancing their ability to integrate cybersecurity principles while prioritizing online safety. Notably, the revised GTA fortified the sustainable GenCyber Teacher Academy Teaching and Learning Community, bolstering a network of educators and practitioners destined to collectively mold Connecticut's cybersecurity landscape. 

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