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Xia Zhang; Kingsley Obiajulu Umeanowai – Education and Information Technologies, 2025
This comprehensive bibliometric analysis examines the dynamic impact and influence of artificial intelligence (AI) within the domain of English as a Foreign Language (EFL) from 2013 to 2023. By analysing 3,300 documents from the Web of Science database, the study reveals a positive trend in AI integration, with notable growth attributed to various…
Descriptors: Artificial Intelligence, Technology Uses in Education, Second Language Learning, Second Language Instruction
Azzah Al-Maskari; Thuraya Al Riyami; Sami Ghnimi – Journal of Applied Research in Higher Education, 2024
Purpose: Knowing the students' readiness for the fourth industrial revolution (4IR) is essential to producing competent, knowledgeable and skilled graduates who can contribute to the skilled workforce in the country. This will assist the Higher Education Institutions (HEIs) to ensure that their graduates own skill sets needed to work in the 4IR…
Descriptors: Career Readiness, Technological Literacy, Student Attitudes, Information Technology
Sabiha Yeni; Nataša Grgurina; Mara Saeli; Felienne Hermans; Jos Tolboom; Erik Barendsen – Informatics in Education, 2024
There is an increasing interest in the integration of computational thinking (CT) in the K-12 curriculum. By integrating CT into other disciplines, the aim is to equip students with essential skills to navigate domain-specific challenges. This study conducts a systematic review of 108 peer-reviewed scientific papers to analyze in which K-12…
Descriptors: Interdisciplinary Approach, Mental Computation, Curriculum Implementation, Research Reports
Becker, Samantha Adams; Brown, Malcolm; Dahlstrom, Eden; Davis, Annie; DePaul, Kristi; Diaz, Veronica; Pomerantz, Jeffrey – EDUCAUSE, 2018
What is on the five-year horizon for higher education institutions? Which trends and technology developments will drive educational change? What are the critical challenges and how can we strategize solutions? These questions regarding technology adoption and educational change steered the discussions of 71 experts to produce this report. Six key…
Descriptors: Higher Education, Technology Integration, Educational Technology, Technology Uses in Education
Waite, Chelsea – Clayton Christensen Institute for Disruptive Innovation, 2021
Among the lessons to take away from COVID-19 in the K-12 sector, one is this: we can never again say that schools haven't changed in a hundred years. After a year in which all schools upended the status quo to support students' learning and wellbeing during a pandemic, the most vocal critics of outdated school systems must acknowledge that even…
Descriptors: COVID-19, Pandemics, Elementary Secondary Education, Educational Innovation
Davy Tsz Kit Ng; Jiahong Su; Jac Ka Lok Leung; Samuel Kai Wah Chu – Interactive Learning Environments, 2024
Artificial intelligence (AI) literacy has emerged to equip students with digital skills for effective evaluation, communication, collaboration, and ethical use of AI in online, home, and workplace settings. Countries are increasingly developing AI curricula to support students' technological skills for future studies and careers. However, there is…
Descriptors: Artificial Intelligence, Computer Software, Technology Uses in Education, Secondary School Students
Foster, Brian L., Ed.; Graham, Steven W., Ed.; Donaldson, Joe F., Ed. – IAP - Information Age Publishing, Inc., 2021
The rapid change that higher education is undergoing is impacting all of the core mission elements: teaching and learning, research, service, and engagement with the external world (e.g., community engagement and health care delivery). Navigating this environment requires understanding of the underlying dynamics, with particular attention to how…
Descriptors: Higher Education, Educational Change, Institutional Mission, Teaching Methods
Thomasian, John – NGA Center for Best Practices, 2011
STEM--science, technology, engineering, and mathematics--is critical to and supportive of many education reforms being undertaken today, from adoption of common internationally benchmarked standards to better teacher preparation to enhanced coordination across the entire K-20 education system. In fact, STEM is not a separate reform movement at…
Descriptors: Interdisciplinary Approach, Engineering Education, STEM Education, Mathematics Education

Berberet, William G. – Environmental Professional, 1987
Points out some of the impacts of the recent advancements in information technology on various environmental fields. Offers some recommendations for professionals in the environmental education field on how to best take advantage of the challenges of an information age. (TW)
Descriptors: Appropriate Technology, College Science, Conservation (Environment), Environmental Education
Sproull, Robert L.; Hall, Harold H. – 1987
Multidisciplinary programs have a venerable history, but most of the early history was either at big university equipment projects or at first-rate industrial laboratories. There has always been a small amount of interdisciplinarity, such as the physicist's or chemist's cadging crystal specimens from the geologist. But only in the post World War…
Descriptors: College Science, Curriculum Design, Higher Education, Interdisciplinary Approach

Bauer, Henry H. – Science, Technology, & Human Values, 1990
Discussed are the differences between the natural and social science disciplines and the importance of an interdisciplinary approach by the two groups on the subject of science-technology-society (STS). Included is a list of topics that all educated people should know about STS. (KR)
Descriptors: College Science, Epistemology, Higher Education, Interdisciplinary Approach

Wallace, Danny P.; Boyce, Bert R. – Journal of Education for Library and Information Science, 1987
Discusses the need for schools of library and information science to ensure that graduates understand and can use computer technologies, and describes a model program in which this goal can be met through cooperative degree programs involving schools of library and information science and other academic departments. (CLB)
Descriptors: College Curriculum, Computer Literacy, Curriculum Design, Curriculum Development

Rhoton, Jack; Pafford, William N. – Bulletin of Science, Technology and Society, 1990
Described is a course designed to demonstrate the interactions of science, technology, and society and present effective ways to integrate science/technology/societal issues into the curriculum. Included are the course development, goals, content, selection criteria, project impact, course evaluation, and conclusion. (KR)
Descriptors: College Science, Course Content, Course Descriptions, Course Evaluation
Tyldesley, Peter – Environmental Education Bulletin, 1990
Describes a workshop that presented both implementation strategies and a working model for education programs seeking to infuse environmental education (EE) in the classroom. Reviews possible obstacles to cross-curricular EE in the school setting and includes a list of factors useful in selecting cross-curricular program themes. (MCO)
Descriptors: Educational Environment, Elementary Secondary Education, Environmental Education, Holistic Approach
Robinson, Bill – 1985
An English scientific language course developed for the professional communications engineering program at the University of Technology of Papua New Guinea was designed to incorporate some of the principles of language across the curriculum and to accompany an introductory electronics course. The language and subject area courses are taught in…
Descriptors: College Faculty, Communications, Course Descriptions, Curriculum Development
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