Stresses that an important industrial area is product reliability, especially for semiconductors. Suggests that physics students would benefit from training in semiconductors: the many modes of failure, radiation effects, and electrical contact problems. (MVL)

Describes a high school physics teaching sequence including more modern topics. The first quarter covers cosmology, astronomy, optics, wave mechanics, relativity, gravity, and quantum theory. The second quarter covers classical mechanics. The third quarter covers electromagnetism and electronics. The fourth quarter consists of thermodynamics and…

Described are several physics activities developed by a high school: research corner, exploring an invention, construction projects, archives report and archives update, short term research and design projects, essay contest, and special projects. (YP)

Reports results of a 1983 national survey which determined the time devoted to teaching major physics content areas; subtopics in each area; equipment students saw and used; principle textbook used; and school/physics enrollments. Indicates that the data obtained can be used to establish guidelines in developing the Physics Achievement Test. (JN)

Discusses the design of introductory physics course for elementary education majors and nonscience majors. Describes the learning cycle used for constructing hands-on activities. Provides an example of a week's activity on energy. Presents an evaluation of the course based on examinations and the teacher's impressions. (YP)

Discusses a course proposal which concentrates on fewer topics and covering the topics in greater depth. Proposes a sequence in which each topic is introduced phenomenologically, the theory is developed, and the applications are discussed. Uses optics as an example. Lists some disadvantages and advantages of the proposed topical organization. (YP)