Discusses the use of a co-teaching approach in a calculus-based, first-year, elementary physics class. Presents student questionnaire responses along with a discussion of the techniques, advantages, and disadvantages of this method of teaching. (MLH)

Describes the objectives, structure, and evaluation of an upper level, limited enrollment, elective course taught by a team of a physicist, a psychologist, and a literary scholar. Reports experience with the course since first taught in the Spring of 1972. (GH)

Describes the conduct of a one-semester laboratory course for electrical engineering sophomores through the use of rack-mounted instruments and printed circuits. Concluded there was greater student and instructor interest and creativity in both lectures and laboratory. (CC)

A description is given of an investigative chemistry laboratory course suitable for elementary education, business administration, and other nonscience majors. Emphasis is on analyzing various commercial products for effectiveness. (DF)

Describes a freshman introductory unit that utilizes team teaching techniques and close student-faculty relationships: Faculty from the divisions of Science, Social Science, Humanities, Rhetoric, and Psychology and Counseling cooperated in the designing and teaching of the course. The science segment includes lectures and laboratory exercises. (MA)

Summarizes the course content, teaching methods, and student background in a one-semester, lecture-type survey course carried out between 1969-72. Indicates that the interdisciplinary approach to science and society is equally important for both science and non-science majors in science courses. (CC)

Describes a course in introductory biology which utilized a teaching strategy emphasizing process rather than content. The strategy involved team teaching and a research paper/laboratory technique involving the students in decision making and the processes of scientific method. (GS)

Describes an experiment with a special section of a terminal" physics survey. The experiment consisted of systematically removing as much structure as feasible while using a lecture format. Evaluation indicates student enthusiasm and performance increase as structure disappears. (Author/TS)

Describes a chemistry course for liberal education college students, characterized by team teaching and application of knowledge to present problems and issues. (CS)

Updates the results of a six-year experimental course in physics whose goal was to translate the physicist's approach to science into an approach to the teaching of physics. Provides a course description and rationale and outlines the instructional procedures used. (GS)

Describes how problem solving was incorporated into a clinical science curriculum by using a team teaching approach. The review of the content domain, the examination of objectives and test items, and the steps in the team development are included. The steps in development of the program are considered. (KR)