Background: The evolving transformations of our society at large, academic institutions, and engineering discipline in the 21st century have profound implications for the nature of experiential learning being offered in engineering education. However, what is experiential learning in the context of engineering education? Purpose: The introduction…

Background: Globalization and socially complex problems will greatly affect the way engineers work in the future. Therefore, efforts to transform engineering education must focus on professional skills and engagement of faculty as key change agents. Purpose/Hypotheses: For engineering programs to address the needs of society, graduates must have…

Background and Aim: There have been significant higher education curriculum reform initiatives over the past 30 years across different global regions in response to a range of drivers such as employability, global citizenship, and sustainability. In professions such as engineering, a key focus has been on holistic graduate attribute development…

Background: Holistic competencies comprise various holistic skills (e.g., communication) and positive values and attitudes (e.g., empathy). There have been increasing efforts worldwide to foster students' holistic competency development within engineering curricula. While recent studies indicate a positive shift, it remains unclear whether such…

Background: Diverse perspectives, including those of Native Americans, are needed to drive innovation in science, technology, engineering, and math (STEM). Tribes such as the Navajo Nation are seeking to strengthen their communities, create economic opportunities, and improve the lives of their peoples by encouraging members of their tribe to…

Background: The concepts of size and scale in nanotechnology are difficult for most beginning engineering students to grasp. Yet, guidance on the specific aspects of size and scale that should be taught and assessed is limited. Purpose: This research sought to empirically develop a framework for size and scale conceptualization and provide a…

Discusses a philosophy from which biological engineering curriculums can emerge. Discusses competencies, basic engineering and biological concepts, common courses, interfacing between engineers and biologists, and employment. Contains 28 references. (JRH)

Summarizes the discussions at the conference under the topics, Objective Criteria for the Future" and Teaching Concepts Basic to Nuclear Engineering." Includes comments from personnel representing universities, industries, and government laboratories. (TS)

The growth of science has had impact on education through specialization and immediacy of scientific information. Some studies are reviewed to support this position and to provide projected consequences in curricula and lifelong education due to this scientific growth. (Author/TS)