As part of the Advanced Placement (AP) Program's commitment to continually enhance alignment with current best practices in college-level learning, the AP Program is currently evaluating and redesigning courses and exams, one of which launched during the 2013-2014 academic school year: AP chemistry. The history of the AP chemistry course and…

Outlines a physical chemistry course which is designed for civil engineering juniors and seniors to solve environmental problems. (CC)

This college was the first to offer bachelors degree curriculum in industrial hygiene. (BB)

The program objectives are to instruct students in laboratory techniques, experimental procedures, evaluation of results, and laboratory project design. Integration of techniques which may span several areas of chemistry is emphasized in the solution of problems. Current course content of the program is listed. (GS)

Outlines a laboratory course entitled Inorganic Chemistry for Biological Sciences'' which is designed primarily for juniors in biochemistry, physiology, and soil sciences. Inclusion of relevant environmental topics is indicated. (CC)

Describes a revised chemistry sequence, designed for paramedical students, which does not require a high school chemistry prerequisite. The major thrust of the revision is toward the use of biochemically significant substances and phenomena as a framework to describe chemical principles. (GS)

Discusses the undergraduate liberal arts chemistry curriculum of Drew University which emphasizes preparation of students either for a chemistry vocation or for medical or other science careers. Indicates that interdisciplinary training, articulation of courses to students' background, and elimination of traditional course organization are main…

Encouraging scientific thinking through open-ended experiments, allowing students access to common chemical instrumentation, and introduction to laboratory techniques are goals of a high school science laboratory program. Course content (general, inorganic, and organic chemistry), limitations, and course evaluation are discussed. (Author/JN)

Describes the basic spirit and details of a one-semester lab-oriented chemistry course designed within a flexible, self-paced format for elementary education majors. Included are a syllabus and a competency measure. (CC)

Proposes an educational model for chemistry PhD education that emphasizes productivity and centrality of research. Supports greater development of communication skills and suggests a four-year timeline. Listed is a curriculum usable for most sciences. (ML)

Provides a framework of the disciplines of materials science and engineering as they have developed. Discusses the philosophy, content, and approach to teaching these courses. Indicates the range of crystallographic topics contained in the materials science and engineering curriculum at the Massachussetts Institute of Technology. (CW)