A college professor who desired to practice what she preached and an elementary teacher who wanted to observe a hands-on science curriculum on a day-to-day basis form a teaching partnership. They offer insights on their successes, obstacles, and methods for improving hands-on science programs. (ZWH)

Students in general and science-oriented curriculum courses used concept mapping as the basis for developing lesson plans after having first learned the technique through a "fast-track" approach developed by the author. Resulting lesson plans were high in quality with few, if any, sequencing errors. (LZ)

Reports on one rigorous evaluation and search for desired components of a science methods course at a large state university. Student evaluations of assignments are used to rate them for effectiveness. Provides a model for other instructors interested in course evaluation. (LZ)

Examines three anecdotal cases of the teaching of evolution theory in an exploration of the best approaches for teaching about evolution. Three instructional options are presented: (1) readings in natural history, (2) commercially prepared activities, and (3) the use of small-group (peer) discussions. (LZ)

Examines the question of whether variables associated with middle school classroom practices and instructional emphasis would contribute to a prediction of science course placement in later grades. Concludes that what happens in early schooling does have a direct and substantive impact on later education. (ZWH)

Developmental assumptions that are frequently regarded as constraints on elementary school science curricula are analyzed. The argument that elementary school children cannot function as experimentalists because they have not yet attained formal operational thought is not supported by the Piagetian or non-Piagetian research reviewed. (SLD)

Article discusses the Science-Technology-Society approach and describes a study (n=116) of differences in learning outcomes for Taiwanese students who study college biology in an issue-oriented format with students who study in a concept-oriented format. Students in the issue-oriented format class had statistically higher scores for concept…

Discussed is the idea that scientific illiteracy among scientists lies at the heart of the problems with undergraduate science education. Included is a description of a science literacy course for nonmajors and a proposed list of the most important ideas underlying science. (KR)

Presented are 13 concepts considered important in estuarine education. These concepts were chosen by a panel of professionals in estuarine education, research and management. Included are the study methods, results, and implications for science education. (KR)

Described is a curriculum development project aimed at stimulating girls' interest in physics with a view to encouraging more girls to pursue the subject further. Included are the background information, implementation, and implications for science teaching. (KR)

The results of a survey sent to members of the National Association of Biology Teachers (NABT) asking what they believed to be the essential topics to be covered in the introductory high school biology course are provided. Interpretations of the data and recommendations are included. (KR)

The importance of integrated science and mathematics at the elementary/middle school levels is discussed. The history of the movement, the rationale, associated research questions, problems with integrated instruction are presented. A description of commercial resources, professional organizations, projects, printed resource materials, and…

The questions of how science should be taught and why science education is failing are addressed in this article. The science/technology/society (STS) perspective and the importance of students becoming scientifically literate are emphasized. The essential elements of a high quality science curriculum are listed. (KR)

Synthesizes existing, isolated bits of information on U.S. secondary student enrollment in advanced science courses. Among the findings for grades 10, 11, and 12, the percentage of those students enrolled in Advanced Biology is 20, 26, and 54. Advanced Chemistry is 0, 33, and 67; and Advanced Physics is 0, 10, and 90. (PR)

The purpose of this study involving 12 classrooms was twofold: (1) to understand the conceptual frameworks that sixth-grade students use to explain the nature of matter and molecules, and (2) to assess the effectiveness of 2 alternative curriculum units in promoting students' scientific understanding. Results reveal that students' entering…