This article explores the recontextualization of science in the Malawi Standard 6 syllabus for science and technology. It illustrates how relations of power and social control are enacted, using Bernstein's concepts of classification and vertical and horizontal discourse. The syllabus incorporates five 'disciplines': science, technology, health,…

The majority of this essay describes the content, pedagogy, and assessments associated with an undergraduate, interdisciplinary honors seminar on science and religion. The seminar is structured around five major themes: (a) philosophy of science, religion, and their interactions, (b) historical and contemporary case studies, (c) the controversy…

Sophomore liberal arts and engineering students enrolled in a course to learn and practice some basic chemical engineering side by side. The course was developed around the theme of indigo dyeing, which has an interesting history, fascinating chemistry and is accessible to all students. The students participated in a variety of active learning…

The Washington State University Honors College course, UH 290, "Science as a Way of Knowing," engages freshmen in scientific inquiry and scholarly literature research. The UH 290 instructor, a learning design consultant, and two librarians collaborated to develop and deliver the course's information literacy curriculum. The team used…

The introduction of an outcomes-based curriculum in South Africa together with a new syllabus for physical sciences for grades 10-12, prompted the development of an instrument to monitor conceptual understanding in chemistry at the secondary-tertiary interface. This instrument was used to evaluate placement within different programmes at tertiary…

The author suggests an interdisciplinary course for high school juniors and seniors which creates student awareness of the interaction between human values, science, and technology. Describes course objectives, course outline, student evaluation, and how the course can be adopted by schools. (CT)

Describes a course designed for students to gain knowledge with a degree of relevance by providing opportunities for student appreciation of the physics associated with features in everyday life. (GS)

Outlines one approach to the teaching of materials engineering design within the context of metallurgical engineering. This approach uses a problem solving situation and criteria for an appropriate problem are presented. (GS)

Describes a remedial course that uses an experiential approach. Presents the major topics in the course, outlines the subsections and modules used in the first unit, and explains the method used for student evaluation. (GS)

Describes an introductory astronomy course at Virginia Polytechnic and State University, Blacksburg, in which the Keller Plan (personalized system of instruction) is used. Course evaluation results and typical student comments about this self-paced program are provided. (JR)

Describes an organic chemistry course designed as a modification of the Keller plan; lists the basic assumptions of the course design; outlines how the course was conducted; and compares the grade distribution to that of a traditional class. (GS)

Reports on some objective data and presents some subjective conclusions on the use of self-paced instruction in an experimental electrical engineering course. Outlines some of the problems involved in the development of self-paced materials and identifies several demotivating factors associated with their use. (GS)

Describes a self-paced, learning-for-mastery course in undergraduate fluid mechanics. Includes the method of course assessment, method of student evaluation, and a description of the instructor's role and work load. Summarizes aspects of self-paced instruction considered favorable and unfavorable. (GS)

Describes a preservice physics course designed for elementary school teachers. Design considerations included the philosophy of teaching elementary science, the content needs of elementary teachers, and six competency-based instructional strategies. Presents course content, sequence, and method of student evaluation. (GS)