The Engage initiative at the University of Tennessee addresses the needs of entering engineering students through a new first year curriculum. The program integrates the engineering subject matter of the freshman year, teaches problem solving and design by application, and seeks to address the increased retention and graduation of engineering students. Noteworthy curriculum features of the Engage program include a hands‐on laboratory where students do physical homework to practice the concepts introduced in lectures, placing all freshman engineering students in a year‐long team design curriculum, and a team training course where engineering upperclassmen are trained in team facilitation techniques and placed as facilitators with the freshman design teams. The Engage program was piloted during the 1997–98 academic year with 60 students. In 1998–99, the program was scaled up to 150 students, and fully implemented with the entire freshman class of 465 students during the 1999–2000 academic year. Engage students have shown a significant increase in academic performance compared to students following a more traditional curriculum. Graduation statistics show the positive long‐term results of this effort.
This paper outlines the development and implementation of a new course in Engineering Ethics at the University of Tennessee. This is a three-semester-hour course and is jointly taught by an engineering professor and a philosophy professor. While traditional pedagogical techniques such as case studies, position papers, and classroom discussions are used, additional activities such as developing a code of ethics and student-developed scenarios are employed to encourage critical thinking. Among the topics addressed in the course are engineering as a profession and its role in society; ethical successes and failures; risk, safety, and the environment; professional responsibilities; credit and intellectual property; and international concerns. The most significant aspect of the course is that it brings both engineering and non-engineering points of view to the topics at hand. This is accomplished in two ways. First, as mentioned previously, it is team-taught by engineering faculty with an interest in ethical and societal issues, and by philosophy faculty with expertise in the field of professional ethics and an interest in science and technology. Second, the course is offered to both engineers and non-engineers. This mix of students requires that all students must be able to explain their technical and ethical decisions in a non-technical manner. Work teams are structured to maximize interdisciplinary interaction and to foster insights by each student into the professional commitments and attitudes of others.
An innovative new freshman engineering initiative called engage has been fully implemented at the University of Tennessee. This is a comprehensive approach to meeting the educational and developmental needs of our freshmen. Extensive data on student performance was collected during the two-year phase in of this new program.Results presented include retention rates (engineering college and university), progression through the program, performance on common final exams and performance in sophomore courses. Comparisons are also made between the engage program and nationally administered surveys i.e. Pittsburgh survey on engineering student attitudes.In all these areas students in the new program did as well or better than those in the traditional curriculum.
A thin strip, formed by bonding two dissimilar materials, constitutes a simple thermostatic element. If edge effects are neglected, then the strip is reduced to a uniform beam, or plate, with two degrees-of-freedom. The flexure occurs only because of the bond and interfacial shear which is also accompanied by transverse normal stress. These latter stresses are very localized at the end and edges. Here, the elementary approximations, and refinements via finite elements, are presented and compared. Deflections are given with reasonable accuracy by the simple approximations, but the severe interfacial stresses are revealed only by the refinements.
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.
hi@scite.ai
10624 S. Eastern Ave., Ste. A-614
Henderson, NV 89052, USA
Copyright © 2024 scite LLC. All rights reserved.
Made with 💙 for researchers
Part of the Research Solutions Family.