Compares and contrasts engineering (theoretical/abstract) and engineering technology (practical/application-oriented) baccalaureate programs. Although the perpetuated independent development of the programs has created a negative impact on the profession, changes in accreditation criteria/categories might help engineering technology programs…

Discusses differences and similarities of engineering (theoretical/abstract) and engineering technology (practical/application-oriented) programs which the author believes are artificially divided. The fields overlap and should be reunited, but this will need more effective interaction among all engineering professionals and revision of…

Discusses the Undergraduate Curriculum Development in Engineering program. Provides a short history of the program. Describes 10 curriculum projects ranging from engineering design to industry participation. Each program is encouraged to develop: analytical ability, ability to innovate and synthesize, integrating ability, and contextual…

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 a two-year masters program; one year of lecture and practical training, and a second year on a supervised design task in an industry or development laboratory. Reviews the emphases of the curriculum. Describes the two paths to engineering careers in the Netherlands. (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)

The results are presented of a survey of engineering schools to determine the extent and methodology of incorporating product liability information into the curriculum. (BB)

Described and assessed is the Interdepartmental Program in Engineering at the University of Rochester which allows engineering students the opportunity to design their own curriculum. (SL)

Reports on a limited survey of published curriculum guides to determine if courses in the category of "technical sciences" are included in engineering technology curricula, what courses appear most frequently, and what proportion of total time allocation do they represent. (GS)

Among the benefits derived from a detailed curriculum analysis is the actual analysis process itself. Creating a curriculum diagram can lead to better understanding of what can and should be taught. (Author/BB)

A curriculum research and development project is described. The project, sponsored by the U.S. Office of Education, is intended to develop and test a curriculum for training energy conservation and use technicians. (BB)

Describes an approach which integrates experiential learning with the study of subject matter. The foundation of this program is a systems design called SAM, Self-Actualized Model. Presents design details of the program and an initial evaluation. (GS)

Suggests a series of courses focusing on interfaces between the arts or humanities or social sciences on one hand and science or technology on the other. Indicates that science fiction is a cultural bridge characterized by speculation of the unknown from a foundation of the known. (CC)

Documented are the development and results of a course in engineering management. The course incorporates experiences in engineering management problem solving in actual field situations. Student teams function as consultants for a paying client over a two-semester period. (RE)