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William Campillay-Llanos; Noemí Cárcamo-Mansilla – Discover Education, 2025
Nowadays, it is essential to promote an interdisciplinary approach in classrooms, integrating disciplines such as biology and mathematics. This necessitates familiarity with specific problem-solving practices employed by the expert community, such as mathematical modelling. This perspective piece explores a mathematical modelling practice to…
Descriptors: Interdisciplinary Approach, Biology, Mathematics, Mathematical Models
Kelly Schucker; Mary B. Mcvee; Christopher J. Jarmark; Lynn E. Shanahan – Pedagogies: An International Journal, 2024
Situated in an elementary afterschool Engineering Literacies Club framed around multiliteracies and the engineering design process, this article explores engineering habits of mind and disciplinary literacies. Disciplinary literacies encourage students to read, write, think, and act like historians, mathematicians, scientists, or engineers by…
Descriptors: After School Programs, Elementary School Science, Elementary Schools, Engineering Education
Francisco Cima; Pilar Pazos; Minjung Lee; Kristie Gutierrez; Jennifer Kidd; Orlando Ayala; Stacie Ringleb; Krishnanand Kaipa; Danielle Rhemer – IEEE Transactions on Education, 2025
This study contributes to team science and competency development by comparing demonstrated teamwork skills by engineering students participating in disciplinary and cross-disciplinary team projects. Teamwork skills are key competencies necessary to solve complex technical challenges in the workplace. Despite prior efforts to enhance these…
Descriptors: Skill Development, Teamwork, Undergraduate Students, Engineering Education
Hughson, Taylor A.; Wood, Bronwyn E. – Journal of Education Policy, 2022
The 'Learning Compass 2030' was released by the OECD in 2019 as their new policy framework for the compulsory schooling sector. This framework takes the bold step of asserting that access to disciplinary knowledge is central to schooling, putting it in stark contrast to previous OECD reports which have advocated instead for more generic skills and…
Descriptors: Intellectual Disciplines, Knowledge Level, Curriculum Development, Educational Change
Selhorst-Koekkoek, Mirjam; Rusman, Ellen – International Journal of Mobile and Blended Learning, 2023
The development of multidisciplinary education requires people to communicate, learn, and design beyond the boundaries of their own domains. In this research, an education design framework is developed to facilitate and support university teachers in multidisciplinary educational design. In addition, it serves as an aid to potentially transform…
Descriptors: Intellectual Disciplines, Interdisciplinary Approach, Problem Solving, Instructional Design
Reynante, Brandon M.; Selbach-Allen, Megan E.; Pimentel, Daniel R. – Science & Education, 2020
Growing interest in integrated science, technology, engineering, and mathematics (iSTEM) education has been promoted as one way to increase innovation capacity, support future employment, and enhance learning outcomes in K-12 education throughout the USA. Existing efforts to construct iSTEM curricula have largely focused on finding points of…
Descriptors: STEM Education, Epistemology, Problem Solving, Kindergarten
Rafi Rashid; Rick Szostak – Issues in Interdisciplinary Studies, 2023
The literature on interdisciplinary teaching has tended to stress undergraduate teaching. As interdisciplinary graduate teaching becomes increasingly common, we need to reflect on what graduate students need to know. This article discusses key ideas that all interdisciplinary graduate programs should communicate. In particular, we need to teach…
Descriptors: Graduate School Faculty, Interdisciplinary Approach, Graduate Study, Student Needs
Marja Vauras; Simone Volet; Susan Bobbitt Nolen – Advances in Motivation and Achievement, 2019
This chapter aims to seek insight into engagement in context, conceived through Productive Disciplinary Engagement (PDE), which can be perceived as a condition for sustained disciplinary and interdisciplinary interest and motivation. Despite ongoing trends in the design and implementation of enriched learning environments that are expected to…
Descriptors: Cooperative Learning, Intellectual Disciplines, Interdisciplinary Approach, Educational Environment
OECD Publishing, 2019
Just as a compass orients a traveller, the OECD Learning Compass 2030 indicates the knowledge, skills, attitudes, and values students need not just to weather the changes in our environment and in our daily lives, but to help shape the future. The Learning Compass 2030 is composed of seven elements: (1) core foundations; (2) transformative…
Descriptors: Educational Trends, Trend Analysis, Futures (of Society), Skill Development
Yokoyama, Keiko – European Journal of Education, 2016
The objective of this study is to define the field of higher education and clarify its identity. It examines three analytical dimensions which, it proposes, shape the field: knowledge, approach and community. It argues that contextual knowledge around the issue of higher education has defined the field but has not determined techniques that are…
Descriptors: Higher Education, Context Effect, Interdisciplinary Approach, Problem Solving
Lepczyk, Billie; Wagner, Teri; Cennamo, Katherine S. – Journal of Dance Education, 2018
Design-based learning is often promoted as a way for students to practice the skills essential for their future success; however, little research in this area has been conducted in the field of dance. One aim of this research is to contribute to the literature by examining the process through which undergraduate students from multiple disciplines…
Descriptors: Dance, Undergraduate Students, Innovation, Dance Education
Görücü, Alpaslan; Cantav, Erkan – Journal of Education and Training Studies, 2017
In this research, it is aimed to analyze the problem solving skills of university students in terms of different variables and to analyze the differences among the levels of perceived problem solving skill of the students of Physical Education and Sports College and other branch students. The sample consists of the university students from the…
Descriptors: Physical Education, Comparative Analysis, Problem Solving, Skill Development
Kelly, Regina; McLoughlin, Eilish; Finlayson, Odilla E. – International Journal of Science Education, 2016
An interdisciplinary science course has been implemented at a university with the intention of providing students the opportunity to develop a range of key skills in relation to: real-world connections of science, problem-solving, information and communications technology use and team while linking subject knowledge in each of the science…
Descriptors: Problem Solving, Higher Education, Science Curriculum, Science Education
Marquez, Loren – Across the Disciplines, 2015
Just as WAC pedagogy and writing studies both stress the ways that writing and communication practices can act as both heuristics and products of genre-based, discipline- specific knowledge, in much the same way, performance, too, can be used as a heuristic and as a product and should be more fully explored in WAC theory and pedagogy. This article…
Descriptors: Performance, Interdisciplinary Approach, Heuristics, Writing Across the Curriculum
Orgill, MaryKay; Crippen, Kent J. – Science Teacher, 2009
An interdisciplinary approach to teaching involves leveraging the different perspectives of each discipline to better understand an issue or problem. The most ideal topics for interdisciplinary study are those whose very nature is also interdisciplinary. Nanoscience--which combines biology, chemistry, physics, engineering, and mathematics--is one…
Descriptors: Interdisciplinary Approach, Teaching Methods, Intellectual Disciplines, Problem Solving
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