Presents a course, Physics and Time, that centers on a few topics that students with limited mathematics training and no previous science can explore in depth. Discusses concepts of time, measuring time, arrows of time, and linearity versus nonlinearity. (JRH)

Describes the types of industrial studies course offerings available in higher education. Also discusses the bachelor of science program in industrial studies at Sheffield City Polytechnic. The program, which focuses on science-based industry, places equal emphasis on technological and business inputs. (JN)

Provides information on physics courses at 111 institutions in England, Wales, and Northern Ireland. Includes (when applicable) descriptions of regularly available and/or honors degree courses, course structure, special entry requirements, additional comments (such as information on alternative courses or transfer requirements), and source of…

Provides information on physics courses at universities and colleges of technology in Scotland. Includes (when applicable) descriptions of regularly available and/or honors degree courses, course structure, special entry requirements, additional comments (such as transfer requirements), and sources for additional information. (JN)

Presents a syllabus indicating the essential physics content suggested for all students aged 11-16. Major topic areas include matter, energy, interactions, electronics, and physical quantities. Includes commentary on treatment for low ability students and on additional content related to General Certificate of Education (GCE) and Certificate of…

The abilities to understand medical technology, to evaluate new devices and procedures, and to assess their effectiveness, reliability, costs, and risks in comparison with existing methods are discussed. A course in clinical biophysics offered at the State University of New York at Buffalo is described. (Author/MLW)

Describes general interest courses in physics, discussing enrollment patterns, philosophy and structure of the course, course goals, teaching methods, and student performance. Includes an outline of the laboratory syllabus for the course dealing with physics and the automobile. (JN)

Describes a course designed to give high school physics teachers the confidence and the tools necessary to teach physics. This course used traditional high school physics textbooks and followed a typical high school physics course format. (JN)

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)

After publication in 1982 of the Royal Society report "Science Education 11-18 in England and Wales," the Physics Education Joint Committee of the Royal Society and Institute of Physics was established. A working party of this Joint Committee has now produced this reduced-content 16+ syllabus in physics. The main intention of the working…

Describes a two-term course in electronic instrumentation for chemistry and physics students. The first term focuses on analog circuits and the measurement of voltage, current, and impendance. The second-term course focuses on digital pulses/logic, microcomputer organization, and assembly language programing and interfacing to experiments. (JN)

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 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…