As science educators, we must view the changing nature of society brought on by technology and the global nature of society as an impetus to reexamine the nature of science instruction. We have been bestowed with the responsibility to educate students on a variety of topics that less than two decades ago did not exist. Many of these social issues are controversial in nature and are directly linked to the local, regional, national, and global communities in which we exist. However, (...) including these social issues in the extant curriculum of science has, at best, been limited. This is true even though the National Science Education Standards specifically indicate that science and technology, as well as science in personal and social perspectives, are integral to science education. The following study examines a group of science teachers’ beliefs about the implementation of controversial social/technological issues in the extant science curriculum. Indications are that teachers believe that social issues are important to study, yet lack the support from their communities to teach social issues. (shrink)

Changes in the past two decades of goals for science education in schools have induced new orientations in science education worldwide. One of the emerging complementary approaches was the science-technology-society (STS) movement. STS has been called the current megatrend in science education. Others have called it a paradigm shift for the field of science education. The success of science education reform depends on teachers' ability to integrate the philosophy and practices of current programs of science education reform with their existing (...) philosophy. Thus, when considering the STS approach to science education, teacher beliefs about STS implementation require attention. Without this attention, negative beliefs concerning STS implementation and inquiry learning could defeat the reform movements emphasizing STS. This article argues the role of STS in science education and the importance of considering science teachers' beliefs about STS in implementing significant reforms in science education. (shrink)

Despite claims that STS science education promotes ethical responsibility, this approach is not supported by a clear philosophy of ethics. This paper argues that the work of Emmanuel Levinas provides an ethics suitable for an STS science education. His concept of the face of the Other redefines education as learning from the other, rather than about the other. Extrapolating the face of the Other to the non‐human world suggests an ethics for science education where the goal of pedagogy is peace (...) with each other and the world through the rupture, eros and justice that arises from openness to the demands of the world. Understanding the infinite responsibility of the invocation presented by the face of the Other radically reconceptualizes science education from STS towards an E‐STS curriculum of responsiveness that critically employs the said of modern science and opportunities of experience to enable the next generation of citizens to act in peace to what the world is saying. (shrink)

A reanalysis of selected national and state-level STS implementation data is reported in this article. The results indicate that teacher education, suitable curriculum materials, and insufficient class time are major issues affecting STS implementation in the United States. Only three states have addressed 50% or more of the STS implementation criteria in their science curriculum frameworks as recommended by the National Science Education Standards. A closer look at one state (Florida) revealed that approximately half of the school districts had STS (...) in science, nearly a third had it in social studies, and the majority of STS instruction occurred at the middle and secondary levels. Additionally, STS is often taught via environmental concerns, and as such, it may be skewed toward activist positions rather than analyzing all (positive and we negative) aspects of the impact of science and technology on society. Using the data as a base, implications are drawn for teacher education, the development of materials, and general policy concerns regarding STS. (shrink)