This paper presents new principles and basic approaches for the curricula of engineering degree courses. The accentuated evolution of engineering, the fast technological transformations and, still, the impact provoked by government regulations in the field of education in Brazil have called attention to these issues. Following these changes, it…

Suggest re-orientation of engineering curricula to solve problems encountered in staffing technically capable personnel in municipal government bodies. (CC)

Describes some of the procedures and accomplishments of a writing team organized to design, test and write laboratory and text materials entitled Modern Chemical Technology." These materials are meant to be the chemistry portion of a chemical technology curriculum. (Author/TS)

The recent growth of interest in engineering courses for non-majors has resulted in many new courses. They vary in approach and in degree of technical content, but most have arisen from the conviction that a person is no longer truly well-educated" if he is technologically illiterate. (Author/TS)

Describes a PMC college course which is an introduction to technology and its impact upon society for non-scientists. Case studies of computer technology, pollution, communications, and other systems are used to bring into perspective the roles and responsibilities of the engineer and scientist in today's society. (Author/TS)

Describes a course at Kansas State University intended to bring together students of all disciplines for intensive discussion of technology and society. (Author/TS)

Describes a two-semester sequence of a senior elective art class. Emphasized is the discovering and experiencing of the primary esthetic, intrinsic values of a self-imposed, limited medium, such as collage, welded sculpture, or oil painting. (TS)

Describes computer utilization in the engineering curriculum at a community college, placing special emphasis on meeting the needs of student learning styles. (Author/CMV)

Investigates the effectiveness of computer-assisted instruction in the chemical engineering curriculum. Explains how chemical process simulators can be successfully implemented into courses. (YDS)

Discussion of technical education as part of the engineering education curriculum focuses on the effects of computerization, specifically the computerization of technical drawing. Topics include computer-aided graphics, computer-aided design, and the need for curriculum changes to allow more hours of practical work. (Author/LRW)

Argues against excessive content fragmentation in engineering courses, particularly in the early stages of engineering education. Discusses attempts to encourage cooperative learning and integrative reconciliation between courses. (WRM)