Because rapid growth of nanotechnology is expected to lead to intentional and non-intentional releases, future engineers will need to minimize negative environmental and health impacts of nanomaterials. We developed two upper-level undergraduate courses centered on life-cycle assessment of nanomaterials. The first part of the course sequence…

Author points out weaknesses in the Report of the Committee of Vice Chancellors and Principals, and challenges its authority. (IR)

Provides a checklist for microprocessor laboratories and outlines the programs offered at Milwaukee School of Engineering, where students are introduced to two microprocessor elective courses. (CS)

Illustrates how engineering technology has changed to meet society's needs for skilled technicians. Depicts undergraduate and graduate preparation for the field and the resulting confusion between engineering and engineering technology. (SK)

Discusses several reasons for requiring senior design projects in electrical engineering technology (EET). Describes the senior design project program in EET at Indiana University-Purdue University at Fort Wayne. Lists points to consider regarding management of a projects program for faculty engaged in or contemplating such an approach. (CS)

Experience at Westchester Community College has indicated that a significant percentage of students enrolled in the Engineering Technologies program, and almost all of those enrolled in the Engineering Science program, transferred to four-year institutions. Course work in higher level mathematics, as well as inorganic chemistry and modern physics,…

Engineering technology educators were surveyed on 11 points concerning degree programs. There was agreement on the need for a well-balanced program in engineering technology and for effective means of disseminating program information to counselors and employers. Standards for the admission of transfer students into these programs were considered…

Summarizes curriculum guidelines for the following engineering technologies: chemical, industrial, mining, petroleum, nuclear, civil, mechanical, electrical, automotive, and manufacturing. In a few years, these Engineering Council for Professional Development committee guidelines are intended to become the criteria by which programs will be judged…

Discusses reasons for including differential equations in the required course of study for engineering technology (ET) students. Briefly describes mathematics requirements of the ET Division of the School of Engineering at the University of Dayton. Provides an outline of their differential equations course for ET students. (CS)

Bachelor of engineering technology (B.E.T.) programs were created in response to the need for graduates who are ready for productive industrial jobs, not for graduate school. It is suggested that there should be communication between the engineering technology and the traditional engineering faculties to provide strong educational programs. (MA)

Lists suggested term paper topics and discusses the positive aspects of requiring a technical research paper and accompanying oral report of students who are mathematically and technically, rather than verbally, oriented. (CS)

Reviews purpose, characteristics, and project results of the Science and Engineering Technology (SET) curriculum project, characterized by an interdisciplinary course of study with a skill focus in electronic instrumentation, leading to an associate degree or to transfer into a baccaulaureate curriculum in science, engineering, or technology. (CS)

The University of North Carolina's Electrical Engineering Department developed and delivered a course for undergraduate engineering students. The course integrated technical, social, and ethical perspectives on problems and issues faced in the world of practicing engineers. It achieved this integration by making use of professors in engineering,…

The University of Wisconsin College of Engineering's Sociotechnical Systems Design (STSD) Program, which was developed to provide social science students with systems concepts and basic technological skills necessary for attacking these problems, is considered. The need for such professionals, current educational responses, the organization of the…

Compares two engineering education reports which urge the following needs and emphases: attract and retain minorities, retain students already in engineering school, and allow students to enter the engineering program at various levels. Criticizes the Office of Technology Assessment's report and supplies prescriptions for the future. (MVL)