Discusses ways in which science in the primary curriculum might develop in the future. Shares a dream for the future that includes confident teachers using good equipment, teaching challenging science, emphasizing both the use of evidence to support arguments and the development of language to clarify thinking. (JRH)

Presents the results of a study that identifies misconceptions in chemistry by means of a two-tier diagnostic instrument. Data indicate that similar misconceptions are held by both Singaporean and Australian populations. Focuses on covalent bonding and structure. (DDR)

Points out the opportunities provided in teaching with information technologies. Explains instructional design by teaching the course entirely on the Internet. Describes characteristics of effective education and the role of the instructor in an on-line course. (Author/YDS)

Discusses the interaction of scientific knowledge and everyday human experience using a phenomenological framework that allows a picture of meaning constitution to emerge. Concludes that construction of a model of curriculum work on the levels of planning, implementation, and evaluation involves translation between the setting of everyday…

Comments on Fensham's (2002) argument that it is "time to change drivers for science literacy". Explains the science, technology, and society (STS) movement which has been a candidate for remodeling the curriculum to achieve universal scientific literacy. Makes a plea for teaching students how to find out about the science underlying current…

Describes techniques to help introductory students become familiar with Avogadro's number and mole calculations. Techniques involve estimating numbers of common objects then calculating the length of time needed to count large numbers of them. For example, the immense amount of time required to count a mole of sand grains at one grain per second…

Describes the structure of science education in Bhutan, a kingdom in the Eastern Himalayas. (YDS)

Develops an integrated approach based on the use of general systems theory (GST) and the concept of 'mapping' scientific knowledge to provide students with tools for a more holistic understanding of science. Uses GST as the core methodology for understanding science and its complexity. Discusses the role of scientific community in producing…

Traces the history of secondary school science in Mauritius to identify factors that may have influenced its link to technology of local significance. Reports that while there are many educational and vocational opportunities, the education system is founded on literary lines with examinations. Subsequent selection at different levels has become…

Delineates a rationale for the study of teacher beliefs about issues of culture and its impact on science teaching and learning. Asserts three major categories of teacher beliefs to examine for designing teacher education programs that aim to meet the challenges of increasingly culturally diverse classrooms. Discuss implications for science…

Project 2061 of the American Association for the Advancement of Science (AAAS) developed and field-tested a procedure for analyzing curriculum materials, including assessments, in terms of contribution to the attainment of benchmarks and standards. Using this procedure, Project 2061 produced a database of reports on nine science middle school…

Examines the ideal ecology curriculum in terms of education rationale, goals, and content. Reviews available data sources with regard to environmental education. (KHR)

Explains why the isolated sphere models are physically unsound. Describes an improved model for attempting a qualitative explanation of charge concentration. (YP)

Discusses the six program standards of the national science education standards: program consistency; embedded content, inquiry, and connections; resources; equitable and excellent science programs for all; science integrated with mathematics; and communities of learners. (MKR)

Discusses the need for multicultural science education for all students, compares the nature of science in Africa to traditional Western science and examines the pros and cons of each, considers contributions to scientific knowledge by Africans and African Americans, and presents suggestions for integrating these contributions into the classroom.…