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1. Metacognition and Self-Regulation in Programming Education: Theories and Exemplars of Use

   https://doi.org/10.1145/3487050  

   Loksa, Dastyni; Margulieux, Lauren; Becker, Brett A.; Craig, Michelle; Denny, Paul; Pettit, Raymond; Prather, James (February 2022, ACM Transactions on Computing Education)

   Metacognition and self-regulation are important skills for successful learning and have been discussed and researched extensively in the general education literature for several decades. More recently, there has been growing interest in understanding how metacognitive and self-regulatory skills contribute to student success in the context of computing education. This paper presents a thorough systematic review of metacognition and self-regulation work in the context of computer programming and an in-depth discussion of the theories that have been leveraged in some way. We also discuss several prominent metacognitive and self-regulation theories from the literature outside of computing education – for example, from psychology and education – that have yet to be applied in the context of programming education. In our investigation, we built a comprehensive corpus of papers on metacognition and self-regulation in programming education, and then employed backward snowballing to provide a deeper examination of foundational theories from outside computing education, some of which have been explored in programming education, and others that have yet to be but hold much promise. In addition, we make new observations about the way these theories are used by the computing education community, and present recommendations on how metacognition and self-regulation can help inform programming education in the future. In particular, we discuss exemplars of studies that have used existing theories to support their design and discussion of results as well as studies that have proposed their own metacognitive theories in the context of programming education. Readers will also find the article a useful resource for helping students in programming courses develop effective strategies for metacognition and self-regulation. 

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2. Choosing Self-Care and Preservation: Examining Black Women STEM Faculty’s Decision to Pursue Entrepreneurship and Entrepreneurship Education Programming

   https://doi.org/10.18260/1-2--43195  

   Pearson, Meaghan; Shekhar, Prateek; Handley, Jacqueline; Mondisa, Joi-lynn (June 2023, ASEE Conferences)

   Despite recent STEM diversity initiatives, there still exists structural barriers on who can pursue their STEM aspirations. The lack of diversity in STEM fields hinders individual selfactualization and economic advancement as well as STEM innovation efforts. Notably, Black women remain underrepresented in STEM higher education and academic entrepreneurship. The goal of this project is to increase the understanding of the entrepreneurship-related experiences of Black women in STEM higher education. Specifically, we examine how the erasure and marginalization of Black women in STEM academic entrepreneurship contributes to their minoritization in STEM. In doing so, we seek to identify ways to improve their experiences in STEM higher education and entrepreneurial spaces. Relying on Collins’ (1990) domains of power framework, the following question guides the study: To what extent do everyday encounters and practices of marginalization in STEM higher education and entrepreneurial education spaces shape Black women’s engagement in STEM entrepreneurial education programming? To answer this question, we conducted semi-structured interviews (n=7) of Black women faculty in STEM higher education who have engaged or not engaged in entrepreneurship education programming. These conversations reveal the various ways Black women navigate in and outside of entrepreneurship education programming to innovate their fields. 

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3. On the use of operations research and management in public education systems

   Smilowitz, K; Keppler, S (November 2020, Operations researchmanagement science)

   Druehl, C; Elmaghraby, W. (Ed.)

   The tutorial explores a series of questions related to the use of operations research (OR) and operations management (OM) to improve public education systems. These questions are: (i) In the past century, how have changes in education policy prompted new OR/OM areas of research? (ii) What are the current research areas of central importance in education operations? and (iii) How can researchers interested in studying education operations establish partnerships with districts, schools, or education companies? Drawing on key papers from the literature and our experiences, as well as experiences of other researchers and practitioners who have engaged in partnerships, we answer these questions and highlight emerging areas of research in public education. We trace the history of OR/OM research in education chronologically, starting from the 1950s, and discuss the legal, political, economic, technological, and social events that have marked major shifts in public education provision. Though still developing at the time of publication, we discuss COVID-19 and its tremendous impact on education provision. Our broad review explores the links between issues in education over time and OR/OM research interests, methods, and technology. 

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4. Research and trends in STEM education: a systematic analysis of publicly funded projects

   https://doi.org/10.1186/s40594-020-00213-8  

   Li, Yeping; Wang, Ke; Xiao, Yu; Froyd, Jeffrey E.; Nite, Sandra B. (December 2020, International Journal of STEM Education)

   null (Ed.)

   Abstract Taking publicly funded projects in STEM education as a special lens, we aimed to learn about research and trends in STEM education. We identified a total of 127 projects funded by the Institute of Education Sciences (IES) of the US Department of Education from 2003 to 2019. Both the number of funded projects in STEM education and their funding amounts were high, although there were considerable fluctuations over the years. The number of projects with multiple principal investigators increased over time. The project duration was typically in the range of 3–4 years, and the goals of these projects were mostly categorized as “development and innovation” or “efficacy and replication.” The majority of the 127 projects focused on individual STEM disciplines, especially mathematics. The findings, based on IES-funded projects, provided a glimpse of the research input and trends in STEM education in the USA, with possible implications for developing STEM education research in other education systems around the world. 

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5. Virtual and Augmented Reality in Science, Technology, Engineering, and Mathematics (STEM) Education: An Umbrella Review

   https://doi.org/10.3390/info15090515  

   Zhang, Yiqun; Feijoo-Garcia, Miguel A; Gu, Yiyin; Popescu, Voicu; Benes, Bedrich; Magana, Alejandra J (September 2024, Information)

   The application of extended reality (XR) technology in education has been growing for the last two decades. XR offers immersive and interactive visualization experiences that can enhance learning by making it engaging. Recent technological advances have led to the availability of high-quality and affordable XR headsets. These advancements have spurred a wave of research focused on designing, implementing, and validating XR educational interventions. Limited literature focuses on the recent trends of XR within science, technology, engineering, and mathematics (STEM) education. Thus, this paper presents an umbrella review that explores the exploding field of XR and its transformative potential in STEM education. Using six online databases, the review zoomed in on 17 out of 1972 papers on XR for STEM education, published between 2020 and 2023, following the Preferred Reporting Items for Systematic reviews and Meta-Analyses (PRISMA) guidelines. The results highlighted the types of XR technology applied (i.e., virtual reality and augmented reality), the specific STEM disciplines involved, the focus of each study reviewed, and the major findings from recent reviews. Overall, the educational benefits of using XR technology in STEM education are apparent: XR boosts student motivation, facilitates learning engagement, and improves skills, for example. However, using XR in education still has challenges that must be addressed, such as the physical discomfort of the learner wearing the XR headset and technical glitches. Besides revealing trends of using XR in STEM education, this umbrella review encourages reflection on current practices and suggests ways to apply XR to STEM education effectively. 

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