As a result of the new era in science education reform, professional associations in science such as the American Association for the Advancement of Science (AAAS) have developed science standards for grades K-12. This paper describes a model for utilizing the AAAS Project 2061 benchmarks for these standards in a science methods course. The course…

This article discusses ways for improving the curriculum and methods of Russian secondary polytechnical education in the teaching of physics. (Author/RM)

Describes a physics course concerned with the physical principles underlying devices used and natured occurrences observed in daily experience. (SL)

Presents aims and objectives for a genetics course and indicates potential difficulties in teaching this subject area. Offers methods for determining and dealing with these difficulties and outlines assessment strategies for the cognitive, affective, and psychomotor areas. (ML)

Describes a course for nonscience students which aims to teach quantitative modes for investigating natural phenomena by specific oceanographic applications to Long Island Sound. Highlights aspects of the course's lecture series and field study program. Identifies resources needed for the course and discusses problem areas and student evaluation.…

Provides a description of a concentrated four-week term course that provided students with opportunities of association with applied science and engineering professionals. Reviews the program's organizational structure, project requirements, and summarizes students reactions to the course. (ML)

Describes an interdisciplinary course, Images of Creation in Science and Poetry, which was designed for science, humanities, and social studies majors. Explains the chronological time lines that serve as the course's organizing themes. Includes an outline, the table of contents of the class manual, and student reactions to the program. (ML)

Outlines a science-industrial arts survey course which presents basic concepts of chemistry as applied to practical experiences. Course topics include: paints; solvents; finishes; metallurgy of iron; precious metals; calorimetry; fossil fuels; batteries; adhesives; cement; and others. The short units were designed for students with limited…

Outlines a course (offered jointly by physics and applied science departments) which focuses on basic physics and nuclear war effects. Due to the emotional impact of issues discussed in the course, faculty implemented a plan which included the use of counseling professionals. (DH)

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 method for conducting a sophomore organic chemistry laboratory which included integrating projects with a writing task involving peer group interaction. Also includes background/theory, chemistry tasks, writing tasks, and evaluation. Included in appendices are an analytic worksheet and grading scale. (JN)

The laboratory of an organic chemistry course for dietetics students is based on the learning cycle approach (exploration, invention-concept introduction, and concept application). The laboratory program is divided into four sections: lab techniques, compound types, reaction types, and reaction characteristics. (SK)

Describes a two-quarter, freshman honors laboratory course at the Ohio State University, including selection of students, nature of experiments, and safety precautions. Specific instructions are not given to students, who then run reactions under conditions they devise. (SK)

Describes the development, content, and implementation of a two-credit graduate course for teachers at the University of Wisconsin at Stevens Point in the use of microcomputers for teaching high school chemistry. (JJD)

Selected aspects of a self-paced chemistry program are described. These include student selection, supervision requirements, and grading indicating that student selection is the key to a successful program. Also points out that quality/quantity of learning (determined by testing) is comparable to traditional lecture courses. (Author/JN)