There are myriad understandings of design that have evolved over time and vary by the industries and disciplines that practice it. In the engineering context, design is often described as a process or problem-solving ability. Through interviews with 12 experienced engineers, it was found that there are diverse understandings of the relationship…

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…

The prevailing civil engineering graduates' technical writing and oral presentation-related drawbacks have necessitated the design and implementation of demand-driven courses applying interdisciplinary pedagogy. This study investigates civil engineering academia-industry interdisciplinary contents, methods, and situations needed to design…

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…

Critical thinking (CT) is essential for students engaged in multidisciplinary innovation and complex problem-solving, yet disciplinary differences in CT remain underexplored. This study investigates the unique characteristics of CT among students from various disciplines when tackling complex problems. Using a quasi-experimental design, this study…

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…

Contribution: This study identifies the skills required by the faculty to mentor first-year interdisciplinary design projects. The findings are compiled as a set of themes that can act as a guide for engineering educators in mentoring interdisciplinary design projects. Background: The National Academy of Engineering's (NAE) Engineer of 2020 report…

The design of biological systems is a multidisciplinary activity in which biomedical engineers collaborate to build novel biological systems that address society's needs. One of the most relevant skills for designing biological systems is engineering systems thinking (EST). Among the EST elements, the EST cognitive competencies are comparatively…

Architectural education encompasses a multidisciplinary curriculum including design, theory, history, technology, environmental considerations, urban planning, social aspects, and professional practice. This study aims to investigate the extent to which students can effectively integrate structural concepts into architectural design. This…

Undergraduate engineering education must train students to not only solve design challenges that transcend disciplinary boundaries, but also communicate, transfer knowledge, and collaborate across technical and non-technical boundaries. One approach to achieving this goal is teaching bio-inspired design (BID) in an engineering curriculum. In…

This study describes an educational strategy of forming transdisciplinary work teams--with students from different careers and semesters--for developing academic projects as a collaborative learning tool. This strategy was implemented in the elective course Process Design, which involved developing projects in industrial processes. As a final…

"Introducing Engineering to K-8 Students" will provide you with the tools you need to incorporate engineering design into your classroom. Rather than prescribing a specific curriculum to follow, this book will help you engage your students with hands-on, open-ended engineering design problems that can be easily integrated into your…