Scientific misinformation and disinformation, proliferating via the internet and social media, are now significant problems. Proposed solutions vary substantially. Here, I describe a set of prospective benchmarks--10 competencies--that seem essential for reorienting science education to address the challenge. They include, first, elements of…

This article offers a retrospective synopsis of 70 years of development of a humanistic approach to science education. Instruction using the history of science, for example, provides a rich context for students to learn not only canonical science content on a need-to-know basis, but also content from the other domains of humanistic science…

An important distinction can be made between the science, technology, and society (STS) movement of past years and the domain of socioscientific issues (SSI). STS education as typically practiced does not seem embedded in a coherent developmental or sociological framework that explicitly considers the psychological and epistemological growth of…

Elaborates on the components of five domains of a taxonomy for science educators' concerns for teaching and curriculum development: information, process, creativity, attitude, and applications domain. (YP)

Science policy studies and the social studies of science are two ways to approach science-technology-society (STS) education. This paper applies the two perspectives to STS education and explores the implications of the two approaches for the domain of STS education and the relationship to science education. (YP)

Reports on a study of teacher education programs for science teachers in New England. Focuses on data regarding the amount and types of science content and secondary science methods courses, program emphasis in science content, science processes and methods, science teaching techniques, and effectiveness of science preparation. (TW)

Presented are the background, conference charge, organization, and results from the "Planet Earth" conference. Discussed were the goals and concepts that every high school senior should know when completing a pre-college education. The issues, goals, and concepts of a curriculum are suggested. (KR)

Describes a program in which teenage students serve as the explainers of the displays in a museum. Reports on a study designed to determine whether such programs can significantly affect students' social development, their attitudes toward science, and their interest in science, teaching, and museums. (TW)

Describes a specially designed preparatory course in science and mathematics for relatively "unprepared" adult students in Israel. Compares the achievements of these students with the achievements of those identified as "prepared" according to their formal education and qualifications. (TW)

Describes the development, implementation, and assessment of a mixed formal-informal Science, Technology and Society (STS) curriculum that incorporates collaborative projects with case studies, field trips, and formal class sessions. (Contains 44 references.) (Author/WRM)

Aims to clarify the relationship between science education and the science-technology-society (STS) theme and to develop a justification for the inclusion of the STS theme. Examines the current debate over definitions in science education, and provides an historical perspective of science education's purpose as a social institution. (TW)

Discusses the trend toward job displacement in the United States as a result of technological advancements. Considers the need for science education for the millions of out-of-school adult workers. Challenges the science education community to address this need in a timely manner. (TW)

Reports on a study to test the validity of the assumption that a teacher's conception of the nature of science directly influences his/her classroom behavior. Recommends a redirection in science education to promote more adequate conceptions of the nature of science in secondary schools. (TW)

Examines the philosophical basis for the development of authoritarian views in science education curricula. Argues that the deliberation of science curricula should address humanistic and societal issues as well as fact. Suggests that such deliberation requires a broader spectrum of individuals who involve themselves in the development of…

Analyzes the system and policy of science education in India. Describes its academic environment profiles, its teachers and students, and explains its curricula, examination systems, and research and development activities. (ML)