The aim with this study was to analyse and explore how physical sciences, engineering science and technology subjects (technical electrical technology, technical civil technology, technical mechanical technology) can contribute to the alignment of the technical sciences curriculum. We used document analysis to collect data. An analysis of the…

The aim of this study was to explore knowledge in the context of creating a shared curriculum between research-intensive and vocationally oriented universities of applied sciences. Curriculum knowledge was explored from the accounts of 26 teachers from four institutions in Finland. Shared curriculum initiatives created an environment in which…

This paper examines specific problems of educational practice that I, an undergraduate engineering educator and education researcher, have encountered in creating an interdisciplinary engineering project course. I reveal my process of theorising about problems of practice to position engineering educators' pedagogical theorising as worthy of…

In most middle schools, learning is segregated by discipline. Yet interdisciplinary approaches have been shown to cultivate creative thinking, support problem solving, and develop interest while supporting knowledge gains (NAE & NRC in STEM Integration in K-12 Education: Status, Prospects, and an Agenda for Research. National Academies Press,…

Interdisciplinary courses and activities are becoming more popular as the benefits of collaboration have become apparent. For example, collaboration between different disciplines in organizations, such as engineering and marketing, has been shown to significantly enhance the product development process. Various strategies have been used to…

Curriculum initiatives that provide the societal context of engineering practice can contribute to justice, equity, diversity, and inclusion (JEDI) within the profession, as well as within the communities served by engineers. JEDI curriculum can foster diversity and inclusion by acknowledging and addressing social justice issues, providing a safe…

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…

Building Information Modelling (BIM) has changed the way many civil engineers organise and execute their job in recent years. Many universities around the world have been adapting their curricula to include BIM education. However, this adaptation has been incomplete, occurring only in a small number of subjects. To fill this gap, this paper…

Background: The Next Generation Science Standards accentuate engineering design along with scientific inquiry, emphasizing the relationship between scientific investigations and engineering design in solving problems and devising new ideas and technologies. The goal is for students to realize the importance of science and engineering in innovation…

NMITE's Master's in Integrated Engineering (MEng) was created with a unique philosophy of integrating not only traditionally separate strands of engineering, but also of integrating engineering with other disciplines such as arts, humanities, and business. This broad and deep integration is made possible by adopting the principles and practices of…

Biomedical engineering is critical in improving people's lives through innovative solutions to biological and medical challenges. In the face of today's rapidly evolving climate, the field of biomedical engineering encounters numerous pressures that demand up-to-date skills and competencies. The (re-)development of curricula aligning with industry…

While the fourth industrial revolution continues to change manufacturing enterprises all over the world, not all enabling key technologies are taught sufficiently at universities. For this purpose, a new lecture at the Montanuniversität Leoben was designed, teaching students of miscellaneous engineering disciplines, the fundamentals of…

The architecture, engineering, and construction (AEC) education communities are increasingly facing challenges caused by social, technological, economic, environmental, and political changes. Addressing these issues requires AEC educators and practitioners to systematically rethink and reform many of their current practices. Anecdotal evidence in…

Globally, the demand for people prepared to enter Science, Technology, Engineering and Math (STEM) careers is increasing. To help fill this demand, many formal and informal STEM educational interventions have been implemented in the K-12 domain. However, due to the lack of a clearly defined framework for documenting the nature and scope of the…

The competence to work together and co-create with others outside one's own scientific domain, culture or professional practice is a critical competence for engineers to respond to global challenges. In this context, boundary crossing (BC) competence is crucial. We reflect on a university-wide participatory action research educational innovation…