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1. Are there metacognitive benefits of learner‐ and instructor‐generated visualizations?

   https://doi.org/10.1002/acp.4135  

   Fiorella, Logan; Jaeger, Allison J. (September 2023, Applied Cognitive Psychology)

   Abstract This study explored how different formats of instructional visuals affect the accuracy of students' metacognitive judgments. Undergraduates (n = 133) studied a series of five biology texts and made judgments of learning. Students were assigned randomly to study the texts only (text only), study the texts with provided visuals (provided visuals group), study the texts and generate their own visuals (learner‐generated visuals group), or study the texts and observe animations of instructor‐generated visuals (instructor‐generated visuals group). After studying the texts and making judgments of learning, all students completed multiple‐choice comprehension tests on each text. The learner‐generated and instructor‐generated visuals groups exhibited significantly higher relative judgment accuracy than the text only and provided visuals groups, though this effect was relatively small. The learner‐generated visuals group also required more study time and was more likely to report the use of visual cues when making their judgments of learning. 

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2. DECOR: The Database of Educational Crystallographic Online Resources, Updates and Prospectus

   Zdilla, M. J. (August 2020, American Crystallographic Association National Meeting 2020)

   The Database of Educational Crystallographic Online Resources (DECOR) is the worlds first repository for educational resources for the teaching of crystallography and diffraction. The site, available at decor.cst.temple.edu, permits the sharing and downloading of educational resources such as practice problems, visual aids, animations, and more. The site is currently organized into three basic resource layouts: 1) Resources by Type, where visitors can browse for homework problems, presentations slides, or animations across topics. 2) Resources by Topic, where visitors can look for resources relating to particular subject matter such as the reciprocal lattice, scattering, or symmetry. 3) Links, which sends visitors to other sites that provide convenient resources for crystallographic education. The purpose of the poster is to make attendees aware of this teaching resource, and to present the current state of the site, and plans to upgrade and enhance it in the near future. 

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3. January 2025 Atmospheric Dynamics over the Gulf Stream Radiosonde Campaign with High Temporal Resolution

   https://doi.org/10.31274/ahac.20413  

   Teall, Grace; Ibrahim, Tarek; QIU, CHONG (September 2025, Iowa State University Digital Press)

   Climatology archive and accurate weather forecasts depend strongly on availability of observed properties of the atmosphere and can benefit significantly from higher temporal resolution of measurements on atmospheric temperature, pressure, relative humidity, wind speed and direction. Weather ballooning with radiosonde payloads can provide these data with relatively low initial capital costs while providing educational benefits for students, especially undergraduates in STEM majors. For example, recently we conducted a field campaign, Atmospheric Dynamics over the Gulf Stream (ADOGS), by launching radiosondes hourly during January 6 – 9, 2025 from New Haven, Connecticut. We observed rapid changes in the troposphere during that week and provided a great weather ballooning educational platform for students from Northeastern US, especially those at Primarily Undergraduate Institutions (PUIs) and Emerging Research Institutions (ERIs). Our results provide practical field experiences that may benefit the planning of future radiosonde campaigns, especially those with ballooning education and student engagement focuses, by the high-altitude ballooning (HAB) community. 

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4. Animation Analytics in an Interactive Textbook for Material and Energy Balances

   Stone, S. J.; Crockett, B.; Xu, Kevin S.; Liberatore, M. W. (August 2022, ASEE Annual Conference proceedings)

   Interactive textbooks generate big data through student reading participation, including animations, question sets, and auto-graded homework. Animations are multi-step, dynamic visuals with text captions. By dividing new content into smaller chunks of information, student engagement is expected to be high, which aligns with tenets of cognitive load theory. Specifically, students’ clicks are recorded and measure usage, completion, and view time per step and for entire animations. Animation usage data from an interactive textbook for a chemical engineering course in Material and Energy Balances accounts for 60,000 animation views across 140+ unique animations. Data collected across five cohorts between 2016 and 2020 used various metrics to capture animation usage including watch and re-watch rates as well as the length of animation views. Variations in view rate and time were examined across content, parsed by book chapter, and five animation characterizations (Concept, Derivation, Figures and Plots, Physical World, and Spreadsheets). Important findings include: 1) Animation views were at or above 100% for all chapters and cohorts, 2) Median view time varies from 22 s (2-step) to 59 s (6-step) - a reasonable attention span for students and cognitive load, 3) Median view time for animations characterized as Derivation was the longest (40 s) compared to Physical World animations, which resulted in the shortest time (20 s). 

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5. Bridging IoT Education Through Activities: A Game-Oriented Approach with Real-time Data Visualization

   https://doi.org/10.1109/ISEC61299.2024.10665136  

   Ahmed, Nurzaman; Esposito, Flavio; Shakoor, Nadia (March 2024, IEEE)

   The rapid evolution of the Internet of Things (IoT) has underscored the importance of comprehensive educational strategies to impart IoT concepts and applications to a diverse audience. Given IoT’s pervasive impact, there is hence a pressing need for effective education in this area. Currently, there is a significant gap between existing educational strategies for IoT and the dynamic, engaging approaches needed to captivate a diverse audience, particularly young learners. The challenge lies in developing a methodology that not only educates but also motivates students e.g., from Grade 2 to Grade 12. To address this need, we developed an innovative, activity-based educational framework, integrating interactive and immersive learning methods, aimed at simplifying complex IoT concepts with smart agricultural application in mind for early learners. We outline this novel pedagogical approach, detailing how specific IoT components are taught through targeted activities. The paper should serve as a guide for educators to implement this framework and encourage readers to recognize the importance of adopting new teaching strategies for IoT. Through the imple- mentation of this framework, exemplified in a case study of a plant care game, we have observed an increased engagement and understanding of IoT concepts among our target students. These findings indicate the effectiveness of our approach in real-world educational settings. 

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