Addresses several issues related to humanizing science teaching, noting that in theory, such humanizing could cover any aspect of the changing relationship between man and science. Suggests that aims and objectives are needed so that materials for humanizing science can be adequately evaluated. (JN)

Provides answers to these four questions: (1) What is science like? (2) Who studies science? (3) How does science seem to students? and (4) What is science education like? (JN)

Discusses: (1) extrinsic ethics; (2) intrinsic ethics; (3) why ethics should be taught in science; and (4) ethics in the Science in Society course. (JN)

Describes the assessment of providing science education for the 16-19 age group. Also discusses the use of computer printers in science teaching and the Nuffield 11 to 13 science scheme. (JN)

Described is the Cognitive Acceleration through Science Education (CASE) project in Great Britain. The project is investigating the possiblilty of accelerating the rate at which secondary pupils' logical thinking develops by using the science curriculum. A pilot project and parts of the curriculum are discussed. (RH)

This section of the journal includes several short notes related to the teaching of science in secondary schools in Great Britain. Notes are included on ways of presenting science, rural science, designing experiments in chemistry, science for students with special needs, knowledge of the metric and imperial systems, and the use of spreadsheets.…

Describes a college-level physics course which focuses on both physics knowledge/skills and use of microcomputers. Types of experiments done with the computers and how students use the computers to treat data are considered. (JN)

Children in years three, four, and five of physics study were tested to determine their intuitive preconceptions about forces and equilibrium in the static case, as well as any changes in their conceptual framework that might have taken place as a result of maturity and instruction. (JN)

Suggests that many textbooks intended as standard A-level texts contain accounts of DNA synthesis which are out of date, and in some cases, contain unhelpful or misleading simplifications. An outline of recommended materials and guidelines on how recent advances aid the understanding of this process are presented. (Author/JN)

Discusses an easy way of interfacing physics experiments to a microcomputer, providing information on the "analog input port" of a BBC microcomputer. Also describes a capacitor discharge experiment with suggestions for several student activities such as investigating decay curve shapes. Program listing is available from author. (DH)

For the past three years there has been a decrease in the number of third year girls opting to continue studying physical science at Ellis Guilford school. Various methods to resolve this trend at the school are discussed. They include creating single-sex teaching groups for physics/chemistry and revising physics/chemistry syllabi. (JN)

Fourth-year students in eight classes were tested over a three-year period to determine the ease or difficulty with which they learned the conservation principle. A major focus was on ideas they held about the nature of energy before beginning the course. Results and implications for physics instruction are presented. (JN)

Describes main features of students' thinking about heat and temperature (developed before formal science teaching) and results of a study that shows that many notions about heat/temperature used by younger children are still apparent in the thinking of older students. The study involved interviews with 84 students in three age groups. (JN)

Presents and analyzes excerpts from an interview with one student to determine his conceptions of light (including the nature of light and of optical systems). Implications for instruction include taking students' initial beliefs seriously, approaching issues through actual experiences, and using intelligible, plausible, and fruitful…

Basic physical concepts of importance in understanding magnetic fluids (fine ferromagnetic particles suspended in a liquid) are discussed. They include home-made magnetic fluids, stable magnetic fluids, and particle surfactants. (DH)