The increased emphasis on theory in undergraduate/introductory chemistry courses suggests a need for beginning students to understand philosophic aspects of scientific theory. Discusses alternative viewpoints on theory development and how misapprehensions about this can influence student creativity; argues for formal introduction to theory…

Indicates that spatial ability describes a variety of different behaviors and briefly reviews efforts to define intelligence factors and identify processes involved in solving tasks requiring spatial ability. (DS)

Describes a one-semester, three-credit hour course integrating the fundamentals of kinetics and the scientific/engineering principles of heterogeneous catalysis. Includes course outline, list of texts, background readings, and topical journal articles. (SK)

Presented are views on prospects and retrospects in chemical education. The teaching of elementary chemistry is also discussed. (HM)

Discussed are the calculations of heats of combustions of some selected fossil fuel compounds such as some foreign shale oils and United States coals. Heating values for coal- and petroleum-derived fuel oils are also presented. (HM)

Discusses the principles which the author believes are important for the style of primary science in the United Kingdom. These are spontaneity, open-mindedness, and integration. (HM)

Discusses some of the problems associated with the organization of a British chemistry course. Results that can be achieved in this Mode 3 O-Level chemistry course are also discussed. (HM)

Compares elementary school science curricula in Japan, Thailand, the Republic of Korea and the Philippines. Tables summarize data for some of these countries concerning general characteristics of the curricular design, general objectives of elementary and secondary science curricula, teaching units covered, and hierarchy of process skills. (CS)

This commentary discusses an unstated assumption made in a Do It Yourself Curriculum Guide, that "any combination (of outcomes you select for your school curriculum) is as good as any other." Other inadequacies in the Guide are included. Discusses also the problems associated with justifying science in the school curriculum. (CS)

Discusses from the physicist's point of view the connection between biology and physics and the usefulness of physical laws for understanding biological processes. Discusses these fields of research in secondary school science: molecular science, regulation, statistics and information, corrosion and evolution, chance and necessity, and…

Regardless of how easy a course is made for nonscience majors, few attempts have been made to use students' abilities within the academic context to enhance their appreciation of science. The teaching of nonscience majors must be viewed by the science teacher as important as the teaching of science majors. (MLW)

Describes the secondary and college level courses in social biology taught in the early 1960s that first linked the human situation to basic biological principles and concepts. Provides a general description of the present status of social biology in England. (CS)

Reported are previsit, during visit and postvisit activities for a class zoo trip. A list of basic zoo manners and a zoo visit checklist of ideas for students are also included. (DS)

Described is science education's role in the back to the basics movement. Science education is described as providing opportunities for the development of (1) logical structures, (2) the understanding of the scientific processes, and (3) the development of creative problem solving techniques. (Author/DS)

Describes three levels of courses to treat adequately the ground state electronic structures, the spectroscopy, and the photochemistry of inorganic molecules. Suggests sequences for the courses without repeating material taught in previous courses. (Author/JN)