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1. Applying Deliberate Practice to Facilitate Schema Acquisition in Learning Introductory Mechanics

   Tang, Yan; Bai, Haiyan; Catrambone, Richard (July 2021, ASEE annual conference proceedings)

   null (Ed.)

   Learning is usually conceptualized as a process during which new information is processed in working memory to form knowledge structures called schemas, which are stored in long-term memory. Practice plays a critical role in developing schemas through learning-by-doing. Contemporary expertise development theories have highlighted the influence of deliberate practice (DP) on achieving exceptional performance in sports, music, and different professional fields. Concurrently, there is an emerging method for improving learning efficiency by combining deliberate practice with cognitive load theory (CLT), a cognition-architecture-based theory for instructional design. Mechanics is a foundation for most branches of engineering. It serves to develop problem-solving skills and consolidate understanding of other subjects, such as applied mathematics and physics. Mechanics has been a challenging subject. Students need to understand governing principles to gain conceptual knowledge and acquire procedural knowledge to apply these principles to solve problems. Due to the difficulty in developing conceptual and procedural knowledge, mechanics courses are among those which receive high DFW rates (percentage of students receiving a grade of D or F or Withdrawing from a course) and students are more likely to leave engineering after taking mechanics courses. Since deliberate practice can help novices develop good representations of the knowledge needed to produce superior problem solving performance, this study is to evaluate how deliberate practice helps students learn mechanics during the process of schema acquisition and consolidation. Considering cognitive capacity limitations, we will apply cognitive load theory to develop deliberate practice to help students build declarative and procedural knowledge without exceeding their working memory limitations. We will evaluate the effects of three practice strategies based on CLT on the schema acquisition and consolidation in two mechanics courses (i.e., Statics and Dynamics). Examples and assessment results will be provided to evaluate the effectiveness of the practice strategies as well as the challenges. 

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2. Applying Deliberate Practice to Facilitate Schema Acquisition in Learning Introductory Mechanics

   https://doi.org/10.18260/1-2--36691  

   Tang, Yan; Bai, Haiyan; Catrambone, Richard (July 2021, ASEE Conferences)

   Learning is usually conceptualized as a process during which new information is processed in working memory to form knowledge structures called schemas, which are stored in long-term memory. Practice plays a critical role in developing schemas through learning-by-doing. Contemporary expertise development theories have highlighted the influence of deliberate practice (DP) on achieving exceptional performance in sports, music, and different professional fields. Concurrently, there is an emerging method for improving learning efficiency by combining deliberate practice with cognitive load theory (CLT), a cognition-architecture-based theory for instructional design. Mechanics is a foundation for most branches of engineering. It serves to develop problem-solving skills and consolidate understanding of other subjects, such as applied mathematics and physics. Mechanics has been a challenging subject. Students need to understand governing principles to gain conceptual knowledge and acquire procedural knowledge to apply these principles to solve problems. Due to the difficulty in developing conceptual and procedural knowledge, mechanics courses are among those which receive high DFW rates (percentage of students receiving a grade of D or F or Withdrawing from a course) and students are more likely to leave engineering after taking mechanics courses. Since deliberate practice can help novices develop good representations of the knowledge needed to produce superior problem solving performance, this study is to evaluate how deliberate practice helps students learn mechanics during the process of schema acquisition and consolidation. Considering cognitive capacity limitations, we will apply cognitive load theory to develop deliberate practice to help students build declarative and procedural knowledge without exceeding their working memory limitations. We will evaluate the effects of three practice strategies based on CLT on schema acquisition and consolidation in two mechanics courses (i.e., Statics and Dynamics). Examples and assessment results will be provided to evaluate the effectiveness of the practice strategies as well as the challenges. 

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3. Understanding students’ perceived need satisfaction, enjoyment, and participation intention in a leaderboard-based math practice game

   https://doi.org/10.1177/20427530241251407  

   Gao, Fei; Rogers, Kimberly Cervello; Li, Lan (April 2024, E-Learning and Digital Media)

   Though many studies suggest the positive effects of leaderboard on participants’ learning and motivation, research also shows that not all students benefit from the use of leaderboard. Based on self-determination theory (SDT), this study examined how students’ actual competence, perceived competence, perceived autonomy, and perceived relatedness affected students’ enjoyment and intention for future participation in a leaderboard-based math practice game. The results showed that both perceived competence and perceived autonomy were closely related to students’ enjoyment and intention for future participation, while students’ actual competence and perceived relatedness were not related to their enjoyment or intention for future participation in such leaderboard-based math practice games. The findings of the study offer valuable insights and recommendations for both gamification research and practice. 

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4. Inclusive excellence through digital learning: an undergraduate research experience to pilot cross-institutional collaboration between a historically black university and a predominantly white institution

   Mathieu, M; Odera, M; Ofori-Boadu, A N; Richmond-Bryant, J (March 2023, Intercultural Education)

   van_Driel, Barry; Palaiologou, Nektaria (Ed.)

   Increasing diversity in higher education and the workforce requires undergraduate students to learn to work together effectively to address scientific and social issues. Our goal is to learn how best to facilitate teamwork among students from Historically Black Universities (HBU) and Predominantly White Institutions (PWI) to promote collaborative learning. We analyzed the evolving knowledge, perceptions, and attitudes of participating students as they developed close working relationships through a ‘study-within-a-study’ design where student pairs (one from an HBU and one from a PWI) conducted their own research project while we analyzed how these students interacted with their partners. The Association of American Colleges and Universities (AACU) rubric of Intercultural Knowledge and Competence was used to develop a set of codes for assessing transcripts of student meetings. AACU defines six attributes of this rubric including cultural self-awareness, cultural worldview frameworks, empathy, verbal and nonverbal communication, curiosity, and openness. Our pilot results suggest that students willing to engage collaboratively with others from different cultural or educational backgrounds can display attributes of intercultural competence, while those not willing to engage in the collaborative process may not exhibit such competence. We also learned that students require the same initial preparation necessary for the assigned project. 

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5. Tensions in Enacting a Design Philosophy in UX Practice

   https://doi.org/10.1145/3357236.3395505  

   Watkins, Christopher Rhys; Gray, Colin M.; Toombs, Austin L.; Parsons, Paul (July 2020, DIS '20: Proceedings of the 2020 ACM on Designing Interactive Systems Conference)

   Design culture is increasingly present within organizations, especially with the rise of UX as a profession. Yet there are often disconnects between the development of a design philosophy and its translation in practice. Students preparing for UX careers are positioned in a liminal space between their educational experience and future practice, and are actively working to build a bridge between their developing philosophy of design and the translation of that philosophy when faced with the complexity of design practice. In this study, we interviewed ten students and practitioners educated within design-oriented HCI programs, focusing on their design philosophy and evaluating how their philosophical beliefs were shaped in practice. Building on prior work on flows of competence, we thematically analyzed these interviews, identifying the philosophical beliefs of these designers and their trajectories of development, adoption, or suppression in industry. We identify opportunities for enhancements to UX educational practices and future research on design complexity in industry contexts. 

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