Reports on the international conference on physics education held in Edinburgh, Scotland, July 29 - August 6, 1975. Provides the list of topics discussed by the working groups and notes other activities of the conference. (CP)

Presents three separate but related discussions on the rationale for including electronics into school physics programs. Pressures for curriculum change, strategies for teaching electronics, objectives of electronics, and other areas are addressed. (JN)

The Secondary Science Curriculum Review (SSCR), established in 1981, is charged with aiding the implementation of a policy, in which all students aged 11-16 would study science until the completion of their period of compulsory schooling. The organization and current activities of the SSCR are discussed. (JN)

Discussed are changes made in the physics curriculum of the Danish Gymnasium. Presents a table showing the curriculum for science and language tracks. Describes five dimensions of physics and intermediate and high level courses. (YP)

Presents the syllabus for a nine week, college level unit on energy topics. (CP)

Describes an introductory course that does not presuppose newtonian mechanics. Presents a course outline and discusses the treatment of five major topics including relativistic kinematics and the derivation of the Lorentz transformation. (GS)

Describes some of the difficulties that arise when a course is transferred from one teacher to another and relates some experiences in the transfer of a self paced physics course. (GS)

Examines various issues related to the establishment of a core of physics studies at 16+ and 18+. Indicates that a core physics syllabus should be concerned with phenomena, theory, models, and applications and not with such topics as the use of a U tube manometer. (JN)

Describes development and content of a speech science course taught to speech therapists for two years, modified by feedback from those two classes. Presents basic topics and concepts covered. Evaluates a team teaching approach as well as the efficacy of teaching physics relevant to vocational interests. (JM)

Discusses issues which bear on the future of physics education, including the broader educational context within which physics may be found and the rationale for keeping physics as a separate subject and not integrated with other sciences. (JN)

Describes: (1) the structure of a data transmission source, carrier, and receiver; (2) a quantitative measure for the amount of data, followed by some quantitative examples of data transmission processes; (3) the concept of data current; (4) data containers; and (5) how this information can be used to structure physics courses. (JN)

Examines the extent to which technology and applied physics should be included in introductory physics courses. Areas explored include the meaning of applied physics, the nature of pure and applied physics, and applied physics as viewed by a scientist, an educator, and society. Implications for the physics curriculum are addressed. (JN)

Examines career choices for students completing secondary physics in England and suggests that only one-fourth aim for careers with a direct involvement in physics. Indicates that changes are needed because the current course remains "physics by physicists for physicists" and does not develop student understanding and emphasize practical…

Discusses: (1) the place of physics in the 11-16 curriculum; (2) the content of physics courses; (3) physics examinations; (4) Manpower Services Commission (MSC) involvement; and (5) resources and staffing concerns. Indicates that there are difficulties in recruiting/retaining adequate physics teachers and that there are inadequate physics…

The Advanced Physics Project for Independent Learning (Appil) consists of 10 units based on three themes, namely, materials, forces and fields, and waves. Discusses the content and aims of the project, its emphasis on student-centered learning, managerial advantages, characteristics of the teacher's role, resource implications, and other topics.…