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1. Increasing Student Engagement, Fraction Knowledge, and STEM Interest Through Game-Based Intervention

   Hunt, J; Taub; M; Marino, M; Holman, K; Womack-Adams, K (January 2025, Journal of Special Education Technology)

   In this study, we evaluate the impact of a game-based supplemental fraction curriculum on student engagement, fraction knowledge, and STEM interest in inclusive elementary mathematics classrooms. Utilizing a robust experimental design, the research explores how a game-based interventions can augment traditional fraction instruction and promote STEM interest among students, including those with disabilities. The curriculum, grounded in Scheme Theory and Learning Trajectories, significantly improved students’ fraction understanding and STEM interest. These findings highlight the potential of integrating game-based learning into mathematics education to address foundational STEM concepts and advocate for further research to explore scalability and broader applicability. The results of the study underscore the potential of innovative educational strategies to enhance learning outcomes and fostering interest in STEM careers among diverse student populations. 

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2. Do Badges Increase Student Engagement and Motivation?

   https://doi.org/10.1145/3368308.3415393  

   Dicheva, Darina; Caldwell, Rebecca; Guy, Breonte (October 2020, 21st Annual Conference on Information Technology Education)

   null (Ed.)

   Gamification – using game mechanics for affording gameful experiences in non-game contexts – is getting increased attention in the educational field. However, its motivational mechanisms, intended to enhance student learning, are still not sufficiently understood. In this paper, we present an empirical study on the use of one of the most popular gamification elements, badges. The goal is to shed some light on their impact on student engagement and motivation. The study results suggest that while the badges improve student engagement and academic performance, they do not affect the student’s intrinsic motivation. However, we speculate that they foster internalization of the learning-related extrinsic motivators’ values, which results in increased engagement in the learning activities. 

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3. Educational Game Design: An Empirical Study of the Effects of Narrative

   Jemmali, C.; Bunian, S.; Mambretti, A.; Seif El-Nasr, M. (August 2018, Foundations of Digital Games)

   Integrating narrative elements into a game is a key element in de- signing an immersive experience. Narrative has been hypothesized to improve engagement, motivation, and learning within educational environments. While empirical results have been produced to show that narrative enhances engagement and motivation, its effects on learning were shown to either be insignificant or negative. We, there- fore, aim to address the question of how to integrate narrative in a game to improve learning. We address this through the design of May’s Journey, an educational game that teaches basic programming concepts where a story is integrated. The game design seamlessly integrates learning goals, core mechanic and narrative elements. In this paper, we discuss the game design as well as a study we con- ducted to compare two game versions, one with rich narrative and the other with light narrative. Results demonstrate that participants who interacted with the rich narrative version had fewer program- ming errors and increased engagement within the game. We present our contributions in the form of educational design principles for narrative integration supported by our study and results. 

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4. Student interaction discourse moves: characterizing and visualizing student discourse patterns

   https://doi.org/10.1186/s43031-022-00068-9  

   Nennig, Hannah T.; States, Nicole E.; Montgomery, Marika T.; Spurgeon, Sidney G.; Cole, Renée S. (January 2023, Disciplinary and Interdisciplinary Science Education Research)

   Abstract Student-centered instruction allows students to take ownership over their learning in the classroom. However, these settings do not always promote productive engagement. Using discourse analysis, student engagement can be analyzed based on how they are interacting with each other while completing in-class group activities. Previous analyses of student engagement in science settings have used methods that do not capture the intricacies of student group interactions such as the flow of conversation and nature of student utterances outside of argumentation or reasoning. However, these features are important to accurately assess student engagement. This study proposes a tiered analytical framework and visualization scheme for analyzing group discussion patterns that allow for a detailed analysis of student discourse moves while discussing scientific topics. This framework allows a researcher to see the flow of an entire conversation within a single schematic. The Student Interaction Discourse Moves framework can be used to extend studies using discourse analysis to determine how student groups work through problems. 

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5. Exploring the Relationships Among Middle School Students’ Peer Interactions, Task Efficiency, and Learning Engagement in Game-Based Learning

   https://doi.org/10.1177/1046878120907940  

   Moon, Jewoong; Ke, Fengfeng (March 2020, Simulation & Gaming)

   Background. Middle school students’ math anxiety and low engagement have been major issues in math education. In order to reduce their anxiety and support their math learning, game-based learning (GBL) has been implemented. GBL research has underscored the role of social dynamics to facilitate a qualitative understanding of students’ knowledge. Whereas students’ peer interactions have been deemed a social dynamic, the relationships among peer interaction, task efficiency, and learning engagement were not well understood in previous empirical studies. Method. This mixed-method research implemented E-Rebuild, which is a 3D architecture game designed to promote students’ math problem-solving skills. We collected a total of 102 50-minutes gameplay sessions performed by 32 middle school students. Using video-captured and screen-recorded gameplaying sessions, we implemented behavior observations to measure students’ peer interaction efficiency, task efficiency, and learning engagement. We used association analyses, sequential analysis, and thematic analysis to explain how peer interaction promoted students’ task efficiency and learning engagement. Results. Students’ peer interactions were negatively related to task efficiency and learning engagement. There were also different gameplay patterns by students’ learning/task-relevant peer-interaction efficiency (PIE) level. Students in the low PIE group tended to progress through game tasks more efficiently than those in the high PIE group. The results of qualitative thematic analysis suggested that the students in the low PIE group showed more reflections on game-based mathematical problem solving, whereas those with high PIE experienced distractions during gameplay. Discussion. This study confirmed that students’ peer interactions without purposeful and knowledge-constructive collaborations led to their low task efficiency, as well as low learning engagement. The study finding shows further design implications: (1) providing in-game prompts to stimulate students’ math-related discussions and (2) developing collaboration contexts that legitimize students’ interpersonal knowledge exchanges with peers. 

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