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)

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)

Reports on all levels of college enrollment in engineering and technology institutions for Fall 1974. Provides comparisons with enrollments of previous years as well as enrollments by institution. (CP)

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)

Reports results of a study in 1978 conducted by the engineering technology faculty at Wake Technical College to determine if their basic science and mathematics offerings were relevant to graduates' needs on the job. An analysis of questionnaire responses of employers and graduates in six engineering technology fields is presented. (CS)

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)

Describes the engineering education program at the Aalborg University Center in Denmark. Details the aims of the program. Outlines the programs and multidisciplinary departments of the university. Explains how students are grouped around projects. Reviews the evaluation process. Examines the attitudes of students in the program. (CW)

Summarizes the report of a task force appointed by the Board of Directors of the American Society for Engineering Education. Includes the task forces reasoning and its recommendations for a series of actions that will make the educational system better able to cope with the environment in which engineers practice. (CW)

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)

Presents a view of future engineering education as perceived by the Technion faculty group on the basis of their own analysis and the insights gathered from workshop discussions. Contrasts basic and specialized education. Reviews the technologies and skills of the future engineer. Gives an overview of curriculum requirements. (CW)

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)

Discusses the relative roles of engineering and engineering technology. Questions where the baccalaureate engineering technology graduate fits within the engineering field. Lists four methods to improve marketing engineering to potential students and the public. Presents job production and the international picture. (MVL)