Engineering education in K-12 classrooms is a small but growing phenomenon that may have implications for engineering and also for the other STEM subjects--science, technology, and mathematics. Specifically, engineering education may improve student learning and achievement in science and mathematics, increase awareness of engineering and the work…

Discusses eight steps to modify the way engineering schools operate. They include hiring some experienced engineers as faculty, incorporating peer and student review of teaching performance in faculty evaluations, reversing the tendency to make curricula increasingly narrow and specialized, and adopting a systems approach to engineering education.…

Discusses why educators should not rush headlong into creating robotics curricula and suggests methods of establishing meaningful courses. Indicates that the solution to the problem of building a robotic curriculum is to incorporate the three major areas of robotics (design, operations, maintenance) into existing curricula where they best fit. (JN)

This is a summary of a seminar for changing the undergraduate chemical engineering curriculum in India. Identifies and describes biotechnology, materials for structural and microelectronic catalysis, and new separation processes as emerging areas. Evaluates the current curriculum, including basic science, engineering lore, chemical engineering,…

National Science Foundation support for instructional innovation in design curriculum is discussed. Programs that illustrate diverse approaches to teaching design are described. A list of programs given engineering curriculum development awards in 1988 and 1989 is provided. (CW)

The impact of robotics in education is discussed in terms of academic assistance to industry in robotics as well as academic problems in handling the demands put upon it. Some potential solutions that can have lasting impact on educational systems are proposed. (JN)

The federal government's role in energy education in the United States over the past 35 years is discussed, focusing on four major areas: (1) training at all academic levels; (2) instructional materials and their development; (3) conceptual foundations of energy education materials; and (4) research and evaluation studies on the effectiveness of…

This report contains recommendations on advanced university curricula in ocean engineering and related areas, emphasizing the needs of developing countries. A decision matrix is included to assist users in developing the necessary criteria for designing appropriate curricula to prepare university students for careers in different ocean engineering…

An English scientific language course developed for the professional communications engineering program at the University of Technology of Papua New Guinea was designed to incorporate some of the principles of language across the curriculum and to accompany an introductory electronics course. The language and subject area courses are taught in…

This report describes a project at Rensselaer Polytechnic Institute (New York) to develop a curriculum that focuses on the social construction and use of science and technology in diverse cultural contexts. The program consists of both a minor and a three-course concentration on cross-cultural studies of science and technology. Courses covered…

Examines practical applications for the suitability of two different approaches to quality management within engineering education. One utilizes quality systems standards as typified by a specific industrial process that ensures an effective production system. The other applies the notion of total quality management emphasizing a process of…

Using available data and analyses on the current situation in science and technology education, it was determined that science and technology education in the United States is lacking in two critical areas: recruitment and training of scientists and engineers, and nurturing a general scientific/technological literacy useful in all facets of daily…