Developing students' understanding of the nature of science (NOS) is seen as critical for educating scientifically literate citizens, and has emerged as an important curricular goal internationally. In Norway, a new curriculum reform has recently been implemented, intended to improve the Norwegian education in several ways. The reform aims to…

The article describes the analysis of the Italian physics curriculum documents in terms of the coverage of nature of science (NOS). NOS is not explicitly presented as part of the Italian high-school physics curriculum. The article focuses on analysing the implicit aspects of the curriculum documents. The Family Resemblance Approach (FRA) to NOS…

In this study, we examined the teaching emphasis of the history of science (HOS) in science lesson plans. The examination was based on a five-dimensional framework, which comprises conceptual, procedural, epistemological, affectional, and social dimensions. Content analysis was employed as the research methodology, targeting 71 copies of science…

Nature of science (NOS) is a key component of scientific literacy, so science teacher education on NOS is critical to ensure students' scientific literacy. According to mainstream NOS literature, explicit and reflective interventions are recommended to effectively teach NOS. This paper presents an experience for the initial education of secondary…

Many young women do not see a place for themselves in science evident from the lack of young women entering and persisting in science majors and careers. This problem persists despite progress in young women's performance on various science achievement measures and degree attainment. This is an equity problem and also a loss of human capital. As…

This article arises from a teaching experience at a state secondary school in London/UK that aimed at promoting a more culturally diverse teaching about Nature of Science (NOS) grounded on Global History of Science. Ideas from this field were employed to design four different teaching and learning plans (TLPs) that linked NOS and content from the…

This study provides an example of a systematic professional development project designed to build capacity for the teaching of nature of science and scientific inquiry, while not sacrificing the learning of more traditional science subject matter. Specifically, this project examined the impact of a 5-year professional development project on K-12…

The Irish national discourse on curriculum and assessment reform at the Junior Cycle level has been fraught with controversy in the past two years. The introduction of the new curriculum and assessment framework in 2012 by the then Minister of Education, Ruairi Quinn has led to significant media coverage and teacher union response. In this paper,…

Researchers at AAAS and BSCS have developed a six-week unit that aims to help middle school students learn important chemistry ideas that can be used to explain growth and repair in animals and plants. By integrating core physical and life science ideas and engaging students in the science practices of modeling and constructing explanations, the…

Many studies have shown that students' understanding of evolution is low and some sort of historical approach would be necessary in order to allow students to understand the theory of evolution. It is common to present Mendelian genetics to high school students prior to Biological Evolution, having in mind historical and epistemological…

Recent curriculum reform promotes core competencies such as desired "content knowledge" and "communication" for meaningful learning in biology. Understanding in biology is demonstrated when pupils can apply acquired knowledge to new tasks. This process requires the transfer of knowledge and the subordinate process of translation across external…

Presents a hierarchical list of principles that can be used as a guide in the construction of more successful science programs that have scientific literacy for all as a goal. Lists affective goals for science education. Discusses the role of teachers' attitudes and expectations in teaching this type of curriculum. (CW)

"How Students Learn: Science in the Classroom" builds on the discoveries detailed in the best-selling "How People Learn." Now these findings are presented in a way that teachers can use immediately, to revitalize their work in the classroom for even greater effectiveness. Organized for utility, the book explores how the principles of learning can…

The first (exploratory) phase of the Learning in Science Project focused on science teaching/learning in the Form 1 to 4 level (ages 10 to 14) and sought to identify problems and difficulties in several areas. Provided in this paper are comments obtained during structured/unstructured interviews (from students, ex-students, teachers, headmasters,…

The first challenge in designing and teaching any course is to decide what to teach. At most colleges and universities, the process of selecting course content is an extremely local enterprise. Sometimes the decisions are made by a small group of faculty members, but most often they are made by a single professor with the responsibility of…