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Direct linkMohamad Zuber Abd Majid; Muhammad Helmi Norman; Mohammad Hafiz Zaini; Hutkemri Zulnaidi; Mohd Khalid Mohamad Nasir – SAGE Open, 2025
This systematic review to identify the distribution of articles from two databases using the science mapping method, and to investigate the preparedness of educators for the development of digital education in economics. The descriptive analysis is used to identify the research trends globally on the development of digital education in the scope…
Descriptors: Electronic Learning, Educational Innovation, Economics, Economics Education
Jean Salac; Lena Armstrong; F. Megumi Kivuva; Jayne Everson; Amy J. Ko – ACM Transactions on Computing Education, 2025
Background and Context: With the growing movement to adopt critical framings of computing, scholars have worked to reframe computing education from the narrow development of programming skills to skills in identifying and resisting oppressive structures in computing. However, we have little guidance on how these framings may manifest in classroom…
Descriptors: Critical Theory, Computer Science Education, Summer Programs, Secondary School Students
Da Teng; Xiangyang Wang; Yanwei Xia; Yue Zhang; Lulu Tang; Qi Chen; Ruobing Zhang; Sujin Xie; Weiyong Yu – Education and Information Technologies, 2025
The swift advancement of artificial intelligence, especially large language models (LLMs), has generated novel prospects for improving educational methodologies. Nonetheless, the successful incorporation of these technologies into pedagogical methods, such as flipped classrooms, continues to pose a challenge. This study investigates the…
Descriptors: Artificial Intelligence, Intelligent Tutoring Systems, Flipped Classroom, Technology Uses in Education
David W. Jackson; Helen Zhang; Fahd Abdus-Sabur – TechTrends: Linking Research and Practice to Improve Learning, 2025
During young adolescence, many youth develop strong identities in relation to science, technology, engineering and mathematics with computing (STEM + C). One way to design for student engagement in STEM + C is to create project-based units that leverage students' interests. We created one such unit, called the "smart greenhouse project".…
Descriptors: Instructional Design, Computer Uses in Education, STEM Education, Student Projects
Yin-Chan Liao; G. Sue Kasun; Nozipho Moyo – Contemporary Issues in Technology and Teacher Education (CITE Journal), 2025
This study examined the impact of a U.S. federal teacher professional learning (PL) Fulbright program on computational literacy and artificial intelligence (AI) education for K-12 teachers (n = 21) from resource-constrained countries. Occurring shortly after the rise of generative AI in November 2023, the program may have further accentuated AI's…
Descriptors: Artificial Intelligence, Computer Literacy, Computer Science Education, Teacher Attitudes
Paul Mayer; Rich Baraniuk – ACM Transactions on Computing Education, 2025
It is argued that logic, and in particular mathematical logic, should play a key role in the undergraduate curriculum for students in the computing fields, which include electrical engineering (EE), computer engineering (CE), and computer science (CS). This is based on (1) the history of the field of computing and its close ties with logic, (2)…
Descriptors: Teaching Methods, Logical Thinking, Computer Science Education, Engineering Education
Olaperi Okuboyejo; Sigrid Ewert; Ian Sanders – ACM Transactions on Computing Education, 2025
Regular expressions (REs) are often taught to undergraduate computer science majors in the Formal Languages and Automata (FLA) course; they are widely used to implement different software functionalities such as search mechanisms and data validation in diverse fields. Despite their importance, the difficulty of REs has been asserted many times in…
Descriptors: Automation, Feedback (Response), Error Patterns, Error Correction
Dorian Stoilescu; Andreea Molnar – ACM Transactions on Computing Education, 2025
This article explores differences between women's and men's views on teaching and learning in undergraduate computer science studies at a Canadian university. The research focuses on perceptions and experiences about learning activities and teaching computer science and how students and teachers view these aspects as valuable for these activities.…
Descriptors: Foreign Countries, Undergraduate Students, Computer Science Education, Preferences
Download full textIago Rodrigues Agualuza; Silvana Morita Melo; Lina Garcés; Vânia de Oliveira Neves – Informatics in Education, 2025
Modern software companies prioritize high-quality products for competitiveness, and Software Process Improvement (SPI) models help achieve this. In Brazil, the Brazilian Software Process Improvement Model ("MPS-SW" model) is widely used, but its complexity and extensive documentation make it challenging to teach in undergraduate courses.…
Descriptors: Educational Games, Teaching Methods, Computer Science Education, Computer Software
Cynthia Pinheiro Santiago; Antonio Rodrigo dos Santos Silva; José Wally Mendonça Menezes; Francisco José Alves de Aquino – Informatics in Education, 2025
The introductory programming disciplines, which include the teaching of algorithms and computational logic, have high failure and dropout rates. Developing Computational Thinking in students can contribute to learning programming fundamentals by building algorithmic and problem-solving skills. However, keeping students engaged in training such…
Descriptors: Gamification, Self Determination, Computation, Thinking Skills
Verica R. Milutinovic; Ivana Obradovic; Suzana Ðordevic – Educational Studies, 2025
Many countries are revising their computing curricula, including Serbia, where coding became a core subject in primary schools in 2017/2018. Gamification is a common teaching method, yet little research explores primary students' motivation to learn coding through gamification. This study aims to investigate the factors that influence primary…
Descriptors: Foreign Countries, Elementary School Students, Gamification, Coding
Deepti Reddy Patil; Sridhar Iyer; Sasikumar – ACM Transactions on Computing Education, 2025
Design problems are often ill-structured as the requirements are broadly defined and have multiple correct solutions. Experts solve such problems by applying various cognitive and metacognitive skills before the formal specifications and solution designs are documented. Novices often need help solving ill-structured design problems as they lack…
Descriptors: Educational Environment, Problem Solving, Design, Technology Uses in Education
Sophia Krause-Levy; Andrew Petersen; Oladele Oladunjoye Campbell; William G. Griswold; Leo Porter; Oluwatoyin Adelakun-Adeyemo; Jennifer Campbell; Michelle Craig; Adrienne Decker; Sebastian Dziallas; Carrie Demmans Epp; David R. Gibson; Yekaterina Kharitonova; Devorah Kletenik; David L. Largent; Emma McDonald; Brian M. McSkimming; Tina L. Peterson; Caroline Sih; Cynthia Taylor; Neena Thota – ACM Transactions on Computing Education, 2025
Motivation: In computing, Impostor Phenomenon (IP) has been viewed as a problem for many years, but little research has been done to show its prevalence. In 2020, IP in computing began to be explored at single institutions. The results showed that IP is prevalent among undergraduate and graduate students in computing courses and that the rates of…
Descriptors: Computer Science Education, Higher Education, College Students, Self Concept
Olha V. Barna; Olena H. Kuzminska; Serhiy O. Semerikov – Discover Education, 2025
This study investigates how integrating STEM content in computer science education enhances the implementation of Universal Design for Learning (UDL) principles and its impact on digital competence development in Ukrainian secondary schools. The digital transformation of education demands innovative pedagogical approaches that accommodate diverse…
Descriptors: STEM Education, Computer Science Education, Access to Education, Technological Literacy
Counter-Hegemonic Computing: Toward Computer Science Education for Value Generation and Emancipation
Eglash, Ron; Bennett, Audrey; Cooke, Laquana; Babbitt, William; Lachney, Michael – ACM Transactions on Computing Education, 2021
Students' lives, both in and out of school, are full of different forms of value. Wealthy students enjoy value in the form of financial capital; their fit to hegemonic social practices; excellent health care and so on. Low-income students, especially those from African American, Native American, and Latinx communities, often lack access to those…
Descriptors: Computer Science Education, African American Community, Cultural Influences, Community Development
