Engineering design decisions have non-trivial implications, and empathic approaches are one way that engineers can understand and translate the perspectives of diverse stakeholders. Prior literature demonstrates that students must develop empathic skills and beliefs that these skills are important to embody empathic approaches in meaningful ways.…

Purpose: Engineering students gain confidence and competency through continual practice of key skills. The social cognitive theory construct of self-efficacy provides a useful measure to assess students' beliefs in their ability to succeed or perform tasks. Research focused on the impacts of curricular engineering design experiences on student…

The aim of this study is to present the implementation steps of an engineering design process-based activity. The activity was implemented with 6th-grade students; 21 students were involved. Various visuals were used to attract the students' attention during the introduction of the activity, and discussions were held about engineers and…

Well-structured, de-contextualized problems that can be solved using solely technical approaches remain a large component of the engineering education curriculum. As a result, students may mistakenly believe that all engineering work can be done the same way--without the use of other approaches. Capstone design courses are an established way of…

Experience design is a growing field that attracts many designers' attention. One of the challenges of experience design is to be emphatic with the users and be critical about evaluating the results of the design process. This challenge requires several skills and knowledge, which the designers could gain during their higher education. While…

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…

Purpose: Science museums provide a context for developing and testing engineering activities that support visitors in creating personally meaningful objects. This study aims to propose that narrative design elements in such engineering activities can foster empathy to support engineering engagement among girls ages 7-14.…

This paper illustrates the design-based learning (DBL) approach to promoting the deep learning of students and improving the quality of teaching in engineering design education. We performed three aspects of research with students in a typical educational activity. The first study investigated students' deep learning before and after the DBL…

Purpose: The purpose of this paper is to understand how designers and engineers practice design while Making. Motivated by their roots in constructionist learning principles, Makerspaces are increasingly used as sites to learn design, especially in undergraduate engineering education programs. However, there has been little work on how trained…

Purpose: Biomedical engineers that have the ability and skill sets to comprehend and retain basic anatomy and physiology (A&P) knowledge, apply fundamental engineering principles, use critical thinking, and communicate effectively across multiple disciplines to facilitate successful development and clinical translation of medical devices. The…

In the current study, an engineering design-based STEM activity was designed and implemented for 5th graders. The current activity is expected to provide guidance and perspective to teachers (practitioners) in designing and implementing an activity based on design-based learning, STEM activity, and engineering design process (EDP). At the same…

Recently, design thinking has become recognized as a necessity for every student, especially when they engage in design-based learning, as a pedagogical approach to science, technology, engineering, and mathematics education. However, design-based learning is mostly based on forward engineering, in which students' design thinking can be nurtured…

The competence to innovate is critical for engineering students, as work environments and society are constantly changing. However, innovation competence is often not (explicitly) part of teaching, and teachers struggle to teach students this competence. To address this problem, a course to train undergraduate engineering students' innovation…

The Next Generation Science Standards in the United States placed a special emphasis on engineering unlike previous national science education policy documents. Some studies attempted to examine students' and teachers' nature of engineering (NOE) views, but NOE views should be better conceptualized before further exploration of students' and…

Educational approaches in structural engineering have focused on classical methods for solving problems with manual calculations through assignments, quizzes, and exams. The use of computational software to apply the learned knowledge has been ignored for decades. This paper describes an educational approach to tackle the lack of applicable…