Describes a curriculum project aimed at developing a two-year, non-traditional engineering technology program employing the latest instructional materials. Provides a list of descriptive course titles for the program. (MLH)

Discusses programming projects in applied technology courses, examining documentation, formal reports, and implementation. Includes recommendations based on experience with a sophomore machine elements course which provided computers for problem solving exercises. (DH)

Describes how computers have been integrated into the engineering technology curriculum at Murray State University, focusing on their use in instructional programs, required programming, simulation, and computational projects. Also focuses on computer assisted instructional formats. Indicates no restructuring of course content, expansion of…

Engineering faculty and students must have more exposure to business and industry considerations. (IR)

Briefly reports on the structure and evaluation of an individually-paced, two year civil engineering technology curriculum sponsored by a National Science Foundation grant. The written modules progress linearly with support media presentations. Students in the self-paced program generally outperformed lecture-based students on cognitive…

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…

The lack of consistency and uniformity throughout California concerning program and course objectives, titles and content, prompted the study reported in this article. Community colleges statewide were included in the study. Curricular characteristics of engineering technology and industrial technology programs were recommended and definitions…

Describes the work of a curriculum committee established to create a "transfer curriculum" for engineering technology students transferring from two-year to four-year programs. The resulting program (which allows flexibility while providing some guidance for engineering technology programs), transfer problems, issues, and public response…

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)

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…

This interim report of the American Society for Engineering Education is intended to keep members informed and encourage them to offer viewpoints on current issues. Recommendations given relate to lifelong education, programs and curricula, accreditation, teaching methods, supply and demand, communication with the public, society, certification,…

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)