The Math-Science-Engineering Technology in Iowa on Applied Renewable Energy Areas (MSETI-AREA) projects are aimed at providing area school teachers with an applied mathematics and science curriculum package based on photovoltaic (PV) power, wind power, human power and hydrogen fuel-cell fundamentals. The MSETI-AREA project has established a…

Technology Engineering is an innovative component of a much larger arena of teaching that effectively uses interactive technology as a method of enhancing learning and the learning environment. Using this method to teach science and math content empowers the teacher and enhances the curriculum as the classroom becomes more efficient and effective.…

Describes chemistry courses offered in engineering technology programs at Pennsylvania State University. Course outlines and laboratory experiments are listed for the first and second chemistry courses. (CS)

Presented is a two-year associate degree curriculum for Engineering Technology. Specializations are provided in civil, electronics, and mechanical technology. The civil engineering technology specialization facilitates three major areas of study, and mechanical technology includes design and production options. Each curriculum was designed to…

Describes the undergraduate chemical engineering curriculum at the Speed Scientific School of the University of Louisville. The history of the department, a description of the chemical engineering courses, and the strengths and weaknesses of the program are also included. (HM)

Describes a course, including content, reading list, and presentation on chemical reactors at Cambridge University, England. A brief comparison of chemical engineering education between the United States and England is also given. (JN)

Describes an undergraduate chemical engineering course which was designed at North Carolina State University to introduce the experimental side of chemical process technology. The course lectures, experiments, objectives, evaluation and information sources are also discussed. (HM)

Reports on a study designed to determine the current status of courses in engineering materials and their relationship to machine design and design project courses in mechanical engineering technology programs. Includes discussions of two recommendations of the study that were endorsed by a national conference. (TW)

Offers perspectives on the future of chemical engineering. Addresses concerns related to changes in the engineering industry, the role of chemical engineers, and changes in the education of engineers. Includes recommendations for curricular change. (ML)

Describes an undergraduate chemical engineering course which has been taught by a self-paced instructional method at Howard University, Washington, D.C. The instructional method, course description, and students' grades are also discussed. (HM)

Describes an undergraduate chemical engineering course which has been offered at the Georgia Institute of Technology. The objectives, structure, instructional materials and content of this course, which emphasizes the structure and usage of computer-aided design systems, are also included. (HM)

Addresses several concerns regarding the identity of the field of engineering technology. Discusses engineering technology from the standpoint of its designation as a discipline, its body of knowledge, its professional status, its academic faculty, and the structure and policies that will allow it the most options for the future. (TW)

Discusses the needs and properties of human systems including issues of safety and the holistic approach in engineering. Lists a suggested introductory engineering curriculum. Describes characteristics of future realities in managing technology. (YP)

Reports on a study of Mechanical Engineering Technology (MET) programs that were considered to be of outstanding quality. Although programs (and individuals) are not identified, the article addresses their general geographic locations, departmental characteristics, curricula, lab courses, facilities, and their use of computers. (TW)

Lists articles, papers, and reports on engineering technology education that were published in 1986. Categorizes the citations under headings of administration, computers, curriculum, electronics, industry/government/employers, instructional technology, laboratories, liberal studies, manufacturing, mechanical, minorities, research, robotics, and…