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…

Interdisciplinary learning plays a vital role in the education fields of the architecture, engineering, and construction (AEC) industry. According to the literature, interdisciplinary studies are often associated with professional skills that should be taught in engineering and other similar programs. Knowing the attributes and scope of…

This study examines the attitudes of teachers and students towards the implementation of content and language integrated learning (CLIL) in the interdisciplinary study program English in Electrical Engineering and Informatics at Brno University of Technology (BUT). It aims to explore the benefits, challenges, and strategies for CLIL in the…

Promoting interdisciplinary development is an inevitable requirement for the advancement of science and education, as well as an internal need for disciplinary growth and a necessary choice for building world-class universities. In this paper, high-quality academic outputs from China's first-class comprehensive universities are used as a data…

Interdisciplinary engineering education (IEE) is gaining traction as engineering practices increasingly acknowledge the need to transcend traditional boundaries given the complexities of globalised systems. IEE, however, faces challenges that underscore uncertainties and different perceptions about what interdisciplinarity means for engineering…

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…

Strategies are proposed that promote use of an Integrated Applied Mathematics (IAM) approach to enhance teaching of advanced problem-solving and analysis skills. Three scenarios of 1-dimensional transport processes are presented that support using Error Function analyses when considering short time/small penetration depths in finite geometries.…

To prepare undergraduates for complex careers, interdisciplinary higher education is gaining popularity. However, implementing interdisciplinary learning in engineering management is challenging due to the complex and intertwined knowledge structures. While smart education platforms provide access to extensive knowledge bases, the intricate web of…

Purpose: In 2018, the Department of Bioengineering and the School of Nursing at University of Pittsburgh implemented an interdisciplinary partnership that integrated senior nursing students into the bioengineering capstone Senior Design course as part of a National Institutes of Health education grant. This two-semester course requires senior…

This paper describes integrated STEM (iSTEM) education in middle school learning environments. Using an instrumental case study approach, five STEM teachers from four mid-west schools were observed and qualitative field notes were made using Reformed Teaching Observation Protocol (RTOP) (Pibum et al., 2000). The observations were systematically…

Today, problems such as climate change, drought, food crises, and pandemics have once again brought the effective use of natural resources back on the agenda. With STEM + based activities, an interdisciplinary learning approach, students are expected to design a product that will solve a problem from daily life and add value to it. Based on these…

This study presents a structured hybrid framework integrating Design Thinking (DT), the Conceive-Design-Implement-Operate (CDIO) methodology, and Root Assessment (RA) to enhance project-based learning (PBL) in engineering education. The framework addresses limitations in conventional PBL by embedding iterative ideation, structured engineering…

Background: Engineering problems are open-ended and complex, involving technical and social aspects, yet engineering education focuses on technical training and closed-ended problems. To prepare engineering students, curricula should foster sociotechnical thinking--the ability to consider the interplay of technical and social factors during…

Vertically integrated project courses (VIPs) are successful models for embedding long-term research participation into engineering curricula. Whether this model can be translated into gains for laboratory-based projects in biological sciences is unknown. Most biological sciences course-based undergraduate research experiences (CUREs) are a single…

Quantum information science and engineering (QISE) is rapidly gaining interest from those within many disciplines, and higher education needs to adapt to the changing landscape. Although QISE education still has a strong presence and roots in physics, the field is becoming increasingly interdisciplinary. There is a need to understand the presence…