Discusses aims and objectives of the "Modular Courses in Technology" project. Project aims include developing intellectual ability in a technological context and practical technological skills. Modules, module format, different approaches in forming examination syllabi, and other areas are considered. (JN)

Describes the nature of three types of science experiments, focusing on those designed to answer the questions: "What happens?"; "How can it be done?"; and "Which theory?". Indicates that all three have had a definite place in the school science curriculum. (JN)

Provides ideas and suggestions for helping students increase their problem-solving skills, including a four-step general problem-solving approach. Specific examples (considering qualitative problems and problem sequence) and comments on testing/grading are also provided. (JN)

Describes a course designed to familiarize students with alternative sources of energy, with emphasis on problem-solving strategies. Includes list of major topics/subtopics addressed and list of textbooks and recommended readings on alternative energy sources. (JN)

This article outlines a school-business partnership in which a business cooperates with a local school and provides an engineering employee to teach advanced mathematics and computer science. In exchange, the school district provides services and resources to the company. An example of the contract used is included. (MD)

Understanding the complex stratigraphic/structural relations produced during accretionary events is best achieved through "terrane analysis," wherein individual structural domains are discriminated and their geologic histories compared and analyzed for critical, paleogeographical significant information. Terrane analysis methodology,…

A panel of pharmacy faculty ranked a broad inventory of basic pharmaceutical science topics in terms of their applicability to clinical pharmacy practice. The panel concluded that basic pharmaceutical sciences are essentially applications of foundation areas in biological, physical, and social sciences. (Author/MLW)

Outlines a strategy for incorporating the nuclear weapons debate into physics curricula. Includes rationale for including the topic, issues to be discussed, and possible resource materials. (SK)

Suggests that science-related material on nuclear war be included in introductory courses. Lists nuclear war topics for physics, psychology, sociology, biology/ecology, chemistry, geography, geology/meteorology, mathematics, and medical science. Also lists 11 lectures on nuclear physics which include nuclear war topics. (JN)

Learning cycles (exploration, invention, application) are used to introduce general chemistry principles while giving students concrete experiences with descriptive chemistry. Principles taught in the laboratory, laboratory experiments, instructional strategies, and evaluation of the approach are discussed. (Author/JN)

Five papers presented at the Seventh Biennial Conference on Chemical Education (Stillwater, Oklahoma 1982) focused on qualitative analysis curricula and instruction. Topics included benefits of qualitative analysis, use of iodo/bromo-complexes in qualitative analysis schemes, lecture demonstrations, and brief descriptions of three courses. (JN)

A well-established graduate program in industrial chemistry with a considerable degree of academic-industrial interaction is described. Students in the program undertake joint, industrially related research projects on campus (University of Central Florida) and at cooperating companies. Program objectives and eight required courses are discussed.…