Core concepts provide a framework for organizing facts and understanding in neuroscience higher education curricula. Core concepts are overarching principles that identify patterns in neuroscience processes and phenomena and can be used as a foundational scaffold for neuroscience knowledge. The need for community-derived core concepts is pressing,…

Over the past 10 years, there has been a technical revolution in the life sciences leading to the emergence of a new discipline called bioinformatics. In response, bioinformatics-related topics have been incorporated into various undergraduate courses along with the development of new courses solely focused on bioinformatics. This report describes…

Describes the Global Learning and Observations to Benefit the Environment (GLOBE) program, which is designed to use satellite data for activities. (KHR)

Described is the course of study for a physics major at Eastern Illinois University, Charleston, Illinois. The program varies from the typical physics curriculum in that classical mechanics is taught in the sophomore year rather than waiting until the junior year as seen in the typical physics major's curriculum. (DS)

Describes the Moonsnail Project, which engages middle school students in discovery learning and the process of science by making them collaborators with scientists in the investigation of genuine scientific hypotheses. Reports on the first workshop held in summer 2001 and a scientific conference held in summer 2002 that provided vehicles for the…

This paper reviews science curriculum issues surrounding the education of students with disabilities. The background of science education for these students is explored, and three curricula designed especially for them are examined, including a curriculum from the Biological Science Curriculum Study, the "Full Option Science System," and…

Illustrates how teachers designed new science learning environments based on research readings from science and technology studies and studied teaching and learning within these environments. Examples of students' science-related activities include videotaped laboratory activities, taped interviews, and student-produced artifacts collected over…

Summarizes major features and broad principles of design determined by the editorial panel of the Australian Academy of Science School Chemistry Project. Features discussed include roles of practical work, theory text and laboratory manual, structure of materials, subdivisions of content in text, writing, and appeals for assistance in the project.…

Examines reasons for dissatisfaction with the limitations of single-discipline approaches to engineering education. Considers the development of a systems-based interdisciplinary course. Provides an example at the University of Bradford. (YP)

Describes the development of systems thinking and the form taken in the study of work and organizations. Discusses some criticisms from social scientists. Explores the relationship among systems, interdisciplinarity, and engineering education. (Author/YP)

Discusses the necessity of interdisciplinary and systems approaches in engineering education for analyzing complex issues. Presents several recent problems. (YP)

Recommends systems subjects as part of college curricula for providing students with broader skills and with background that does not become outdated. Topics included are requirements of a basic examination, cooperation with other professionals, and examples of systems technologies and interdisciplinary research. (Author/YP)

Argues that systems thinking can be developed by experiential learning activities which complement both intradisciplinary projects and technical knowledge inputs. Discusses the development of systems thinking, the form of engineering curricula, and assessment. (Author/YP)

Describes modular science units for use in New Zealand primary schools. Includes a description of format, trial units, final product, and list of titles, as well as samples of a title page and page from a teacher's guide. (DS)