Discusses why polymer chemistry should be added to the general chemistry curriculum and what topics are appropriate (listing traditional with related polymer topics). Also discusses when and how these topics should be taught. (JN)

Described is the Cognitive Acceleration through Science Education (CASE) project in Great Britain. The project is investigating the possiblilty of accelerating the rate at which secondary pupils' logical thinking develops by using the science curriculum. A pilot project and parts of the curriculum are discussed. (RH)

Describes geology teaching in a penal institution, considering class offerings, teaching structure, teaching schedule, security, cheating, student characteristics, women prisoners in geology classes, and outside field trips. Sample laboratory schedule is included. (JN)

Discusses possible reasons for the variations in current biochemistry laboratories (including staff expertise, equipment limitations, no laboratory textbook with modern experiments, and diverse student backgrounds). Also proposes a more uniform coverage of subject areas and techniques by providing a sample course format. (JN)

Describes a course which emphasizes the relationship between chemistry and a student's daily life and between chemistry and his/her major (art or communications). Includes course outline and information on course content, student projects, source material, and teaching methods. (JN)

Describes a course which examines the history and philosophy of the relationship between science and society and applies these concepts to such current issues as sociobiology. Includes course outline, instructional strategies, and bibliography of pertinent books, papers, and lecture notes. (JN)

Describes the philosophical orientation and methodology employed in a laboratory chemistry program at Princeton University. Discusses the program's approach and use of challenging experiments, teaching assistants, and mastery teaching. (ML)

Describes general interest courses in physics, discussing enrollment patterns, philosophy and structure of the course, course goals, teaching methods, and student performance. Includes an outline of the laboratory syllabus for the course dealing with physics and the automobile. (JN)

Described is an environmental chemistry course for nonscience majors at McNeese State University. The course emphasizes consumer chemistry. Topics discussed include prescription drugs, refinery processes, nuclear chemistry and chemistry and the environment. Texts, supplementary materials and a detailed course outline are included. (DS)

Outlines the importance of teaching the methods of science. Describes ways in which teachers can incorporate lessons about scientific methodology into any existing introductory science course. (JRH)

The major program components of the Biology 30 curriculum are outlined in this document. These key elements include: (1) process skills; (2) psychomotor skills; (3) attitudes; and (4) concepts (subject matter). Each of the components has been assigned an emphasis rating (expressed in a percentage) and a priority rating (designated by a ranking of…

An introductory human anatomy course designed to provide the basic understanding of human structure necessary for further study in allied health and related fields is described. First, a general course description provides an overview; discusses the courses' place within the science curriculum, noting that it does not meet the general education…

Describes an approach to teaching engineering design that involves analyzing, designing, building, and testing a simple structure. Explains the procedures for the various activities and discusses how the design concept can be incorporated into other courses. (ML)

Highlights the value and need for instruction in logic in the sciences. Describes a geology course for nonmajors which incorporates elements of logic. Explains how principles were identified and how materials and activities were developed for the course. (ML)

Describes an individualized chemistry course based on mastery learning. The course uses the CHEM Study inquiry approach and textbooks with students proceeding at different rates, according to their individual abilities and interests, through a prescribed set of learning activities involving readings, sound pages, films, experiments, problem sets,…