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,…

In times of economic downturn, college enrollments often increase. Entering students may come from diverse educational backgrounds and bring variable skill sets. In this article, the authors describe a skills-focused course developed to ensure that transfer and nontraditional students returning to education are prepared to succeed in…

Primary research articles discuss aspects of scientific inquiry that are important in understanding the nature of science. Yet, most introductory science courses use textbooks that ignore the scientific process; opportunities for explicit discussion of the nature of science are lost. In Hampshire College's science program, students read current…

New physics programs in Great Britain include a program with emphasis on mathematics and other sciences, and a joint honors program combining physics with another discipline, such as philosophy, economics, or English. Future programs may include even broader programs, in areas such as energy science or resources utilization. (MLH)

Describes a cooperative effort made to create a representative international network of centers for integrated science education and an instrument (given in the appendix) to describe integrated science education programs so they can become available to more users and adaptors. Some problems encountered in the instrument's development are…

Discusses processes for change that have been used to introduce innovative learning processes into laboratory courses. In one case the content of the course was not changed, just the order of presentation. In the second example cooperative learning processes were introduced in order to facilitate a change in the course content. (AIM)

Describes a time tested program of interdisciplinary service courses at a small college. Presents advantages as well as drawbacks. (Author/CP)

Described is Xavier University of Louisiana Piagetian-based general chemistry program. Laboratory experiments are in the learning cycle format and place emphasis on learning by doing. Aspects of the curriculum described include synopses of content covered, laboratory-preceding lectures, list of laboratory experiments covered, and evaluation of the…

This guide is designed to be used by local curriculum planners and technology education teachers responsible for the development, implementation, and evaluation of a technology education program. It offers recommendations that reflect the thinking of technology education leaders in Wisconsin and across the nation. The guide is intended to provide…

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)

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)