Inquiry and lecture/lab methods of instruction yield different results in conceptual and problem-solving tests, while no difference exists in factual tests. The author recommends that the inquiry method of teaching be refined so that it can become a practical classroom instructional strategy. (CT)

An example of how a traditional activity on motion and acceleration can be adapted to the learning-cycle format is described. The three challenge statements given to students to solve are provided. The key learning-cycle steps of exploration, expansion, and extension are discussed. (KR)

Presents techniques aimed at promoting a higher level of student-faculty interaction and active student participation in the learning process in introductory physics lecture classes. Discusses group problem solving, the use of flash cards, and assessment. (JRH)

Alternatives to traditional, large-class lecturing are discussed. They include using canned lectures, demonstrations and lecture experiments, computer simulations, problem-solving strategies, breaks during lectures, and movies. Moving out of large classrooms to laboratories and resource rooms (or giving an examination) is also suggested. (JN)

A way in which to shift the focus away from lecture and the professor during class time to student-centered discussion groups is presented. An exercise used in a course on chemical process analysis that uses the group discussion method is included. (KR)

Techniques for providing variety and effectiveness within the lecture format are described, including the oral essay, participatory lecture, problem-solving approach, alternating mini-lectures and discussions, modeling analytical skills, debate, simulation and role-playing, and the affective/emotional media lecture. (MSE)

How the computer can be used to support and improve the following teaching and study methods in geography is discussed: lectures, reading, tutoring, small group teaching, simulation, educational games, model building, problem solving, field work, written work, and exploratory data analysis. Educational problems involved in each application are…

Describes a method for promoting student interest and involvement in an undergraduate marriage and family course. Supplements lectures with problem-solving sessions for small groups. Uses session outcomes to encourage critical evaluation by the class. Combines the traditional scholarly approach with an interactive personal involvement. (NL)

Suggestions to help faculty discover ways of achieving interactive, investigatory, and intimate learning environments in large settings are provided. The instructional objective is to empower students to take responsibility for their own learning. (MLW)

Reports on the development of a modified Problem-Based Learning approach to a freshman course. Enables faculty to teach basic biochemical concepts and principles as well as their application to clinical cases. Includes the syllabus and workshop goals based on Bloom's taxonomy. (MVL)

Teachers are exposed to many varieties of inservice education throughout their careers. It is critical to evaluate the success of such programs. One criterion of success must be the degree to which teachers effectively implement what they have learned. This study examined the effects of an inservice education program emphasizing problem solving on…

A handbook for University of California, Los Angeles, (UCLA) teaching assistants is provided compiled from materials developed at UCLA and other college teaching programs. Separate sections cover: teaching roles, meeting the first class, leading sections, teaching one's own course, motivating students, teaching tips, preparing examinations,…

In its use of complex, real-world problems to introduce concepts and motivate learning in an active and cooperative learning environment, problem-based learning is a powerful alternative to the passive lecture in introductory college science. Use of technology and multimedia instruction, focus on large classes, and use of interdisciplinary…