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Tapashi Binte Mahmud Chowdhury; Jack Holbrook; Miia Rannikmäe – International Journal of Science Education, 2024
While a trans-disciplinary approach has been suggested within school science learning to facilitate the role of science education for societal development, lacking is a conceptualisation with respect to what trans-disciplinarity is, why it is needed, and how it can potentially be implemented in the classroom. In seeking to address this limitation,…
Descriptors: Intellectual Disciplines, Literature Reviews, Content Analysis, Interdisciplinary Approach
Glenn A. Hurst; Denise Quiroz-Marti´nez; Jane E. Wissinger – Journal of Chemical Education, 2025
Urgent action is needed across the world to combat climate change and its impact on the social, economic, and environmental well-being of humans and the planet. This important topic is one that is a priority for integration into chemistry classrooms, laboratories, and outreach efforts. It connects strongly to foundational chemistry concepts and…
Descriptors: Climate, Conservation (Environment), Chemistry, Science Education
Chunxiu Xu; Longfei Cai; Zixun Huang – Journal of Chemical Education, 2024
Microfluidic-based ultramicroscale chemistry experiments involve the manipulation and consumption of reagents on a microliter or submicroliter scale in a microfluidic device. This article presents the pedagogical functions of microfluidic systems, including green chemistry education, stimulation of students' interest in learning about chemistry,…
Descriptors: Chemistry, Science Education, Science Experiments, Scientific Concepts
Sophie Canac; Patricia Crepin-Obert; Camille Roux-Goupille – Science & Education, 2025
This paper presents an analysis of three teachers' "ordinary" class sessions integrating historical elements of science in their teaching: one a teacher of physics and chemistry and two teachers of biology and geology. It explores what prompts these teachers to integrate the history of science into their lessons, the functions they…
Descriptors: Science Teachers, Science History, Science Education, Knowledge Level
James C. Jupp – Cultural Studies of Science Education, 2025
What follows is a manifesto to substantiate four theses. "First," science and science education are not what they purport to be and require recategorization as technoscience and technoscience education. "Second," technoscience and technoscience education are constituted in the pernicious whiteness of coloniality and need to be…
Descriptors: Science Education, Sciences, Science Teachers, Activism
Justin Dillon; Victoria Wong – International Journal of STEM Education, 2025
We discuss opportunities to integrate STEM across both formal and informal settings. Our reflections begin with looking back to "Making Science Matter: Collaborations Between Informal Science Education Organizations and Schools," an influential report published by the Center for Advancement of Informal Science Education (CAISE) in 2010.…
Descriptors: STEM Education, Informal Education, Integrated Curriculum, Interdisciplinary Approach
Antonio García-Carmona – Science & Education, 2025
For many years, hegemonic approaches to teaching the nature of science (NOS) have focused mainly on understanding some epistemic (i.e., rational, or cognitive) aspects involved in the construction of science. So, aspects of a non-epistemic (i.e., non-rational, contextual, or extra-scientific) nature have been practically neglected in these…
Descriptors: Science Instruction, Teaching Methods, Scientific Principles, Holistic Approach
Konstantinos Karampelas – International Journal of Education in Mathematics, Science and Technology, 2025
This paper provides a comprehensive bibliometric analysis of the relationship between Science, Technology, Engineering, Arts and Mathematics (STEAM) education and the Nature of Science. From the Web of Science platform, 8,546 articles were analyzed to address four key research topics: publication trends over time, primary academic fields…
Descriptors: Art Education, STEM Education, Scientific Principles, Science Education
Sevgi Aydin-Günbatar; Nilay Ozturk; Gillian H. Roehrig – Journal of Science Education and Technology, 2025
This research investigated how middle school science teachers integrated engineering into their planned science instruction and the extent to which they conceptually linked science to engineering following participation in a professional development program. Video recordings of six teachers' classroom implementation of teacher-designed units were…
Descriptors: Earth Science, Biological Sciences, Science Teachers, Science Education
Sara Brommesson; Anders Jönsson; Iann Lundegård; Elisabeth Einarsson – Environmental Education Research, 2025
This study uses the Swedish Science Studies course to examine teaching approaches in sustainability education. Science Studies is an interdisciplinary course that aims to educate scientifically literate and active citizens, who are committed to environmental care and sustainability. Based on a survey of 155 teachers, the study explores the…
Descriptors: Sustainable Development, Social Studies, Secondary School Teachers, Foreign Countries
Ashley B. Heim; Georgia Lawrence; Riya Agarwal; Michelle K. Smith; N. G. Holmes – Physical Review Physics Education Research, 2025
There is a growing need for more effective interdisciplinary science instruction across undergraduate degree programs. In addition to supporting students' connections between disciplinary concepts, interdisciplinary learning can develop students' critical thinking skills and allow them to evaluate scientific investigations and claims between…
Descriptors: Critical Thinking, Biology, Physics, Undergraduate Students
Meng-Fei Cheng; Yu-Heng Lo; Chi-Ho Cheng – International Journal of Technology and Design Education, 2024
While it has been recognized that science, technology, engineering, and mathematics (STEM) education requires an interdisciplinary approach, integrating multiple subjects in a meaningful way remains challenging for teachers. This study aimed to design a STEM curriculum, emphasizing explicit and continuous scaffolding of students' reflection on…
Descriptors: STEM Education, Student Attitudes, Interdisciplinary Approach, Grade 10
Aliye Gocmen; Hilal Karabulut; I. Afsin Kariper – Discover Education, 2024
Nanoscience and Technology (NST) have revolutionized the world. It has led to many innovations since it entered our lives. Meanwhile, the number and quality of people trained in this field gained importance. Currently, initiatives are being taken to integrate this field into the primary education curriculum in many countries. This study focuses on…
Descriptors: Molecular Structure, Technology, Interdisciplinary Approach, Science Education
Sergio Trilles; Aida Monfort-Muriach; Enrique Cueto-Rubio; Carmen Lopez-Girona; Carlos Granell – IEEE Transactions on Education, 2024
This article discusses the latest developments of the Sucre4Stem tool, as part of the Sucre initiative, which aims to promote interest in computational thinking and programming skills in K-12 students. The tool follows the Internet of Things approach and consists of two prominent components: 1) SucreCore and 2) SucreCode. SucreCore incorporates an…
Descriptors: Elementary Secondary Education, Thinking Skills, Problem Solving, Computation
Prerna Srigyan; Kim Fortun – Science & Education, 2025
Research in cultural anthropology and the interdisciplinary field of science and technology studies (STS) has demonstrated that environmental disasters are not only techno-scientifically and socio-politically complex but also epistemically complex -- involving perspectival diversity; multiple, often conflicting forms of evidence; data gaps and…
Descriptors: Case Studies, Environmental Education, Natural Disasters, Justice