Presents eight separate articles on science education. Topic areas addressed include: an inservice course in primary science; improving physics teaching; reducing chemistry curriculum; textbook readability measures; school-industry link for introductory engineering; local education authority initiatives in primary school science; and "Winnie…

Reviews data from around the world documenting differences in educational attainment of males and females with emphasis on scientific subjects. Considers social and cultural factors which account for these differences and offers concrete ideas for creating a less sex-differentiated science and technology. (JDH)

A formative evaluation model was used to evaluate a physics curriculum for technical vocational high schools. The evaluation focused upon the curriculum materials; the student in the classroom, in small groups, and as an individual; students' conceptual frameworks; and students' ability to cope. (GDC)

First-year college chemistry students (N=359) were surveyed to determine how high school chemistry prepared them for college chemistry and to make recommendations to high school students preparing to take college chemistry. Survey results and recommendations are presented. (JN)

Recent thinking about the mathematics being used in science courses, with an emphasis on problem solving, is reviewed. Data from a survey of the mathematics content in secondary science textbooks are then presented, with suggestions for science instruction. (MNS)

The Metropolitan Area Schools Project offers a model of collaboration built up from the expressed needs of the constituencies it is designed to serve. The project focuses on the improvement of inner-city math and science education. The Project developers' role of broker is described. (Author/MLW)

Describes the general features of a new, optional learning unit that was developed and implemented in Israel high schools. The unit, which focuses on physics in medical diagnosis, deals with real practical problems and does not replace traditional physics. (JN)

Describes a second year, high school biology course in which students learn how to do independent investigations. Focuses on the research methodology used by the students (including Campbell and Stanley designs) and instructional strategies. (JN)

Proposes an approach to teaching analytical chemistry and chemical analysis in which a problem to be resolved is the focus of a course. Indicates that this problem-oriented approach is intended to complement detailed discussions of fundamental and applied aspects of chemical determinations and not replace such discussions. (JN)

Explores parallels between understanding of chemistry for younger teenagers with the learning of a language by younger children. Also discusses: (1) teacher perspective and the development of core science; (2) religion and science; and (3) the physics examinations of the Department of Science and Art. (JN)

Describes (in separate articles): computer simulations in science education; how junior high school students revised an experiment; a framework for assessment in science; physics, relevance, and understanding; a science module for a sixth form general studies course; and assessment of providing science education for the 16-19 age group. (JN)

In guided design, students are led through the process of solving open-ended problems in "slow motion." Steps in the decision making involved in and examples of guided design projects in a physical science course are outlined and discussed. Comments on student evaluation of the course are included. (JN)

Uses examples related to a head of cabbage to discuss: (1) sensory development in children; (2) the integration of sensory and cognitive involvement; and (3) a child's mode of exploring and discovering. Also discusses why science curricula need to be organized around a paradigm that is holistic. (JN)

Evidence relating to the impact on British schools of the Nuffield 0-level Biology Project is examined, particularly that related to possible changes in teaching style. Explanations for the persistence of didactic teaching are also discussed. (Author)

Presented are objections to the introduction of integrated science curriculums in elementary and secondary schools. (SL)