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)

A geochemistry course for chemists is described. Includes: (1) general course information; (2) subject matter covered; and (3) a consideration of the uses of geochemistry in a chemistry curriculum, including geochemical "real world" examples, geochemistry in general chemistry, and geochemistry as an elective. (JN)

Presented are goals and a topical outline for a one-semester chemistry course for students in the health professions. The outline is intended to be a model rather than an "official" course in the field. Several points are offered, particularly for faculty new to teaching such a chemistry course. (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 chemistry course designed, in cooperation with local public school districts, to intellectually challenge a group of 8th, 9th, and 10th grade students. Organic chemistry and biochemistry are integrated into the course (titled Chemistry and Everyday Life) to emphasize practical applications of chemistry. The course syllabus is included.…

Describes four courses in the undergraduate bachelor of science program in industrial chemistry at Keene State College (NH). They are (1) introduction to industrial chemistry; (2) polymers--synthesis and separation techniques; (3) inorganic industrial processes; and (4) organic industrial processes. (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)

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)

Describes a two-term course in electronic instrumentation for chemistry and physics students. The first term focuses on analog circuits and the measurement of voltage, current, and impendance. The second-term course focuses on digital pulses/logic, microcomputer organization, and assembly language programing and interfacing to experiments. (JN)

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,…

A senior-level, elective course on synthetic fuels was developed for chemistry and chemical engineering majors. The topics covered in this course, instructional strategies used, and independent student projects are described. (JN)

Describes a two-semester course designed to explain the economic aspects of the chemical industry to a variety of students in chemistry or related fields. Includes course objectives, suggested teaching methodology, and content of eight course categories (such as basic skills exercises, elucidation of specialty products, and alternate process…

Describes a scheme in which students are arbitrarily paired and presented with a menu of 11 experiments (as well as a figure illustrating their relationships). Each student performs seven experiments in triplicate during the 11 3-hour laboratory periods. Goals of this course are included. (JN)

Describes a course in chemometrics offered at Tufts University which is designed to provide college chemistry majors with an understanding of potential roles which computers might play in chemical research. (CS)

Briefly describes a course called Environmental Chemistry offered at McNeese State University (Louisiana) that stresses the role of science in the future. (CS)