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…

Compares education in technology contrasted to education about technology by discussing epidemic models and public health engineering to illustrate problems in developing the former type of course. Problem areas include course emphasis (artifacts or system analysis), role of hands-on experiences, and the transdisciplinary nature of technology. (BC)

The Fundamentals of Engineering (FE) project involves gaining access to data on student learning from the National Council of Examiners for Engineers and Surveyors (NCEES) that schools and programs do not normally have. This document contains an executive summary in addition to the full length report on the accomplishments of the project. The…

Discusses five areas in which chemistry/engineering majors encounter difficulties in technical writing. These include literature searching, plagiarism, organization, synthesis, and rewriting. Also discusses role of technical faculty in helping students solve their writing problems. (JN)

Briefly describes the bachelor's and master's program in the Department of Engineering Management (University of Missouri--Rolla) and provides results of a survey of their engineering management graduates. Areas examined include salaries and types of entry/present level employment positions for both bachelor's and master's graduates. (JN)

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)

Presents information on the Georgia Institute of Technology. This information includes: (1) a brief history of the institute; (2) names of the faculty members of the chemistry and metallurgy divisions; (3) undergraduate program; and (4) graduate program. (HM)

Describes the use of three questionnaires in assessing how students learn. Results of the study process questionnaire, the course experience questionnaire, and the learning style inventory indicate that lecturers need to change their teaching paradigm to one where the lecturer is closely involved in the learning context. (DDR)

Summarizes a research study performed to assess curriculum changes in engineering education. Discusses the implications of the various curriculum strategies and initiatives and identifies the necessary socio-technological ingredients for world-class education of engineers. (DDR)

A method of plotting planes on stereonets is described including great circles, poles, and dip vectors. Teaching applications of dip vectors in engineering geology and structural geology are discussed. (CW)

Presents statistical data on chemistry and chemical engineering departments for the 1988-89 academic year. Provides tables for departments offering approved programs, degrees awarded by schools, and trends during the last five years. (YP)

Describes management courses for undergraduates and postgraduates and supplementary training methods at the Indian Institute of Technology (IIT). Introduces tasks of the Center for Management Studies created in the Institute. Provides courses of study for Bachelor of Technology, Master of Technology, and Master of Science in the Appendices. (YP)

Discussed are means of enhancing engineering education and the process of bridging the gap between industry and academe. The change in the corporate culture is described. Partnerships between schools and industry are advocated. (CW)

Describes some features in the changing landscape of activities intended to improve both quality and access in science, mathematics, engineering, and technology (SMET) undergraduate education. Offers a framework for discussion of historical change endeavors as an aid in considering next steps. (Author/MM)

In 2000 the UK Engineering Professors' Council (EPC) drafted an output standard to describe first-cycle engineering programmes that would prepare students for practice and further professional learning. The standard described what is authentic and worthwhile in engineering education--it identified complex outcomes of learning. This poses practical…