Describes a generalist chemistry program being offered as a part of the liberal arts program at the University College of the Australian Defence Force Academy. Provides a rationale for developing the new generalist curriculum and contains syllabi from two chemistry courses in the program. (TW)

Discusses the potential of experiments as a vehicle and to motivate students to use text references to look up further information such as nomenclature, molecular geometry, properties and reactivities for various ions and molecules. Describes the procedures and discussion for three such experiments. (TW)

Argues that cookbook chemistry laboratory experiments do little to teach scientific inquiry. Suggests providing students with laboratory experiences that follow the introduction of a concept and challenge students to investigate that concept through an experiment involving very few initial instructions. Lists some such challenges used in chemistry…

Describes two laboratory demonstrations in chemistry. One uses dry ice, freon, and freezer bags to demonstrate volume changes, vapor-liquid equilibrium, a simulation of a rain forest, and vaporization. The other uses the clock reaction technique to illustrate fast reactions and kinetic problems in releasing carbon dioxide during respiration. (TW)

Reports on a study that examined the differential effectiveness of traditional and discovery methods of chemistry instruction in Zambia. Compared were the teaching of science concepts, understandings about science, and scientific attitudes to learners at the concrete and formal levels of cognitive development. (TW)

Reports on a study into the effectiveness of implementing an interactive videodisc science lesson on titration into a high school science program. Describes the titration lesson and the equipment used in two chemistry classes. Results were generated from achievement and attitude instruments, along with observational data. (TW)

Lists five experiments or demonstrations involving hypodermic syringes. The titles of experiments are Boyle's Law, Charles' Law, Atmospheric Pressure, Expansion of Gases, and Boiling at Reduced Pressure. Provides a list of materials, the typical data, and graphs where appropriate. (YP)

Explains ways three chemists use college courses, evening lectures, and television and radio programs to educate the public about the importance of chemistry. Indicates that exposure to the fundamentals of chemistry in the early grades may have a significant effect on changing the public's attitudes toward chemistry. (RT)

Describes the development of a topics course offered jointly by the chemistry and biology departments at Macalester College (Minnesota). Outlines the syllabus for the course. Discusses teaching and laboratory methods used. (CW)

Decribes a study which compared computer assisted instruction (CAI) with a parallel paper-and-pencil module to assess the impact on students' achievement and attitudes in chemistry. Supports the contention that CAI works as well or better than more traditional methods and tends to promote positive attitudes. (RT)

Describes a one-year high school course in applied chemistry and introductory art. Gives a course overview by art and chemistry topic. Discusses color, painting surfaces, clays and glazes, texture and line, jewelry making, photography, art history, and chemical hazards in art. (CW)

Discusses the need for more safety instruction in high school and college chemistry courses. Reports on a national survey of 2019 college and university chemistry departments. Includes survey results and the descriptions of 50 accidents which the institutions reported. (TW)

Discusses some aspects of electrodeposition and electroplating. Emphasizes the materials, techniques, and safety precautions necessary to make electrodeposition work reliably in the chemistry laboratory. Describes some problem-solving applications of this process. (TW)

Outlines the simple exercise of measuring the length of an object as a concrete paradigm of the entire process of making chemical measurements and treating the resulting data. Discusses the procedure, significant figures, measurement error, spurious data, rejection of results, precision and accuracy, and student responses. (TW)

Describes an undergraduate chemical engineering course at Brigham Young University to provide training and experience in oral presentation, familiarity with the chemical engineering literature and exposure to a wide range of engineering topics. Summarizes the course description. Discusses the course evaluation. (CW)