Describes a curriculum development project in which the Science Education Center of the University of Oklahoma and the science department of Norman (Oklahoma) High School prepared and classroom tested complete courses in biology, chemistry, and physics using the learning cycle principles of exploration, conceptual invention, and discovery. (JN)

Describes a one-semester biochemistry course designed for students who have completed courses in biology, CHEMStudy chemistry, and physical science. Course goals include presenting biochemical concepts (in preparation for college courses), challenging students considering science-related careers, and serving as a springboard for science fairs. (JN)

Describes a high school chemistry program which uses a team approach. Organizational structure, instructional strategies, student involvement, and outcomes (including the development of a third year of chemistry using an independent study approach) are considered. (JN)

In an experiment with 14-year-old biology students, the presence of pictures enhanced pupils' scoring chances on a criterion-referenced, multiple choice recognition test. However, the pictures had little effect upon pupils' ability to comprehend the topic as measured by a cloze test. (GC)

Presented is an edited version of testimony given before the U.S. House of Representatives Sub-Committee on Science, Research, and Technology. Reviews the underlying assumptions behind the federal role in science education. (EB)

Elementary school science curricula being produced commercially are reviewed by NSTA Curriculum Review Center. Emphasis is given to the Modular Activities Program in Science (MAPS). (EB)

Presented is the second of a two-part article describing the introductory undergraduate physics course taught at the University of Liverpool, England. This part of the article concentrates upon the laboratory aspect of the course. (SL)

Presented are justifications for including optics in the science curriculum, an outline of optics instruction as presently presented in English secondary schools, and a review of probable future trends in optics instruction. (SL)

Discusses an undergraduate course which includes lectures, laboratory, and field trips and is designed for the interim winter semester. The course is interdisciplinary, involving a study of the biochemistry, pharmacology, and physiological significance of compounds from marine flora and fauna. (MLH)

The purpose of this science education document is to provide resources and advice for teachers, professional development personnel, and teacher educators to help them implement state standards in Oregon's schools. To move all students to these standards, educators must have an environment where several things occur: (a) all teachers are informed…

Even the best program in education will fail to have the intended impact if its essential elements are not implemented properly. Degree of implementation is, then, critical to draw valid conclusions on program outcomes (e.g., Scheirer & Rezmovic, 1983). Especially important is the information on the fidelity with which a program is implemented.…

The main goal of this review was to identify mathematics and science curricula as well as professional development models at the middle and high school levels that had been deemed effective based on their success in increasing student achievement. Because of its emphasis on student achievement, this approach differs from that typically used at the…

This paper explains the Head Start on Science and Communication Program (HSSCP) developed by the Laboratory of Student Success (LSS) at Temple University Center for Research in Human Development and Education (CRHDE). This program uses an inquiry approach and teaches problem solving skills to students. The program consists of a 2-week summer…

This paper examines the history of environmental education in New Zealand over the last fifteen years, reviewing that history in the context of concurrent changes in the school curriculum and wider society. Preliminary conclusions concerning the potential role of environmental education as a socially transformative agent are developed as a lens…

This paper addresses problems inherent in traditional science teaching and argues that the pitfalls of assimilation and exclusion can be avoided by adopting an anthropological approach: regarding scientists as a sub-cultural group with its own language and ways of thinking about, investigating, and explaining phenomena and events, its distinctive…