Investigates the educational technologies that could and/or should be introduced into higher education in developing nations. Examines how educational technologies--affected by engineering, industry, and educational personnel--could be used to attain certain objectives. Suggests change approaches and indicates research avenues needed. (TRS)

This instructional module examines a key function of science and technology: problem solving. It studies the meaning of problem solving, looks at techniques for problem solving, examines case studies that exemplify the problem-solving approach, presents problems for the reader to solve, and provides a student self-quiz. (Author/CT)

This article explores the potential benefits that a new breed of nurse, the nurse engineer, can bring to the problem of clarifying the interrelationships among the three major foundation stones of nursing: theory, practice, and research. Potential roles of the nurse engineer are examined. (CT)

Faculty members are writing computer programs that could change the ways professors teach and students learn. Five examples of software are described including those for presenting mathematical concepts in architecture, staging a scene of a play, and an introductory course in plasma physics. (MLW)

Suggestions for instructional improvement are provided in two topic areas. Explains the use of models in helping students to visualize selected concepts in genetic engineering and recommends the use of tropical tuber crops for encouraging students to conduct practical investigations. (ML)

Structural form, bonding scheme, and chromatin structure of and gene-modification experiments with deoxyribonucleic acid (DNA) are described. Indicates that DNA's double helix is variable and also flexible as it interacts with regulatory and other molecules to transfer hereditary messages. (DH)

Presents an interview with National Academy of Sciences president Frank Press who discusses various topics and issues related to the new era of science. They include the rapidity of scientific advances, changes in the structure of science policy, and concerns about university research systems. (JN)

Highlights five major analytical areas (electrophoresis, immunoassay, chromatographic separations, protein and DNA sequencing, and molecular structures determination) and discusses how analytical chemistry could further improve these techniques and thereby have a major impact on biotechnology. (JN)

Discusses the use of interactive computer graphics in developing student exercises on various concepts of electrical engineering. These exercises include drill and practice, homework, remedial work, and interactive laboratory reporting. In addition, a computer assisted program is used by instructors. (JN)

American Chemical Society's Directory of Graduate Research has been put online. Information on faculty research interests and demographics at United States and Canadian universities offering chemical sciences graduate degrees can be retrieved. New concordance codes permit searching at different hierarchical levels, thus providing more information…

Reports the top 25 schools having the most chemistry graduates for 1983-84, providing separate lists of total bachelor graduates, certified bachelor graduates, masters graduates, and doctoral graduates. The University of Ilinois, Urbana-Champaign heads the list of total bachelor graduates (N=139) and certified bachelor graduates (N=69). (DH)

Describes a study in which computer problem-solving tutorial routines, written according to the Polya strategy, are utilized to teach an engineering statics course. Although their use by students was well received, they were recommended as a supplement to the course rather than as a replacement for the instructor. (MBR)

The findings of industrial safety engineers in the areas of accident causation and prevention are wholly applicable to adventure programs. Adventure education instructors can use safety engineering concepts to assess the risk in a particular activity, understand factors that cause accidents, and intervene to minimize injuries and damages if…

Offers reasons why students should be exposed to and understand the implications of the global character of science and technology. Examples of scientific/technical issues and problems which are global in their scope are long-term atmospheric warming trends, weather forecasting, desertification, earthquake prediction, acid rain, and nuclear…

Discusses issues and strategies related to developing courses and materials that will help nonengineering students develop an understanding of the technological process. A description of a course suitable for both liberal arts and engineering students (which focuses on the analysis of a newsworthy technological issue) is provided as an example.…