Higher engineering education programmes increasingly include courses characterised by real-world problems and student collaboration in multidisciplinary teams. Research findings demonstrate that students remain limited in perceiving and meaningfully bridging disciplinary differences in these course contexts. Drawing on the literature on boundaries…

Rapid advancements in bioengineering call for broad public literacy to help individuals better understand the changes these technologies bring to our lives. However, making bioengineering concepts accessible and relevant, especially to non-science majors, is often challenging. To address this challenge, we designed a general education course aimed…

Contribution: Team-based learning (TBL) with a transdisciplinary (TD) approach is applied in one introductory programming course with different cohorts. The approach reduces the failure rate in the course. In addition, the approach helped students understand the application of programming to different engineering professional areas. Background:…

Contribution: A multidisciplinary computational framework to support undergraduate engineering education is introduced. It is posed as an open-source tool that students can use to understand and apply computational methods commonly required in engineering problems. Background: This framework development is motivated by past experiences of teaching…

This paper examines the potential uses of ChatGPT in generating assessment tasks that can be used across different disciplines in higher education. To illustrate this, we provide examples from three courses in the disciplines of industrial engineering and applied linguistics: Project Analysis and Control, Manufacturing Processes, and Introduction…

This article aims to expand our knowledge on interdisciplinary design education by focusing on team development, which has remained a less explored aspect of interdisciplinary collaboration so far. An interdisciplinary design studio course, Collaborative Design, for food engineering and industrial design students in higher education provides the…

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…

Background: In responding to the global problems facing humankind, there is great value in equipping science and engineering students with skills to function well in multidisciplinary teams. Little attention has been paid into the factors that influence multidisciplinary collaboration and teamwork of science and engineering students. Purpose: This…

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…

Contribution: This article presents the innovative prototypes used in materials and fabrication technologies in medical devices (MFTIMD) laboratory course, under the curriculum of Biomedical (BME) and Electrical Engineering (EE) undergraduate studies. A special part of the course is devoted to state-of-the-art topics, such as flexible and wearable…

K-12 science teachers in the United States are encouraged to teach their students engineering. When incorporating engineering into their science curricula, teachers commonly either focus on: (1) engineering and lace science throughout; or (2) science and lace engineering throughout. This study explores middle school students' nature of engineering…

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…

Many students who enroll in a first course in linear algebra major in STEM disciplines other than mathematics. Teachers who serve such students may find it difficult to provide authentic problems from these broader areas that ignite students' interest in linear algebra. In this paper, we highlight an interdisciplinary learning activity that…

This study explores the effectiveness of online and blended teaching methods in developing cross-curricular skills crucial for an ideal engineering profile among undergraduate students. Involving 587 online and 635 blended students across 11 Latin American universities, the research incorporates Likert tests for student perceptions and…

Background: Societal challenges that call for a new type of engineer suggest the need for the implementation of interdisciplinary engineering education (IEE). The aim of IEE is to train engineering students to bring together expertise from different disciplines in a single context. This review synthesizes IEE research with a focus on…