This paper, the third in a series on Earth System Science Education, describes various pedagogical ways forward when science teachers are addressing the curriculum implications of the recent interdisciplinary field of Earth System Science (ESS). Parts I and II introduced the key ideas of ESS and the implications for the Australian Curriculum:…

Constructing Direct Current (DC) electric circuits is simple and engaging for primary students, but that is not all there is to learning about electricity. Mandatory learning in the Australian Curriculum: Science (ACARA, 2018) expects Year 6 students to explain some of the processes underlying electric circuits. The abstract nature of key…

The implementation of social constructivist approaches to learning science in primary education in Vietnamese culture as an example of Confucian heritage culture remains challenging and problematic. This theoretical paper focuses on the initial phase of a design-based research approach; that is, the description of the design of a formal, written…

After providing some glimpses of his private life, Peter Fensham, a leading figure of the prestigious Faculty of Education, Monash University (and now emeritus professor at Queensland University, Brisbane, Australia), gives some suggestions about the conditions that help students to learn meaningfully. He began his career in the field of physical…

Today more than ever, students want their school experience to be relevant. They live and learn in a media-saturated environment where information abounds, but wisdom is often lacking. Teachers must tie their science curricula to students' real-life experiences: When their students see the utility of scientific thought and reason in helping them…

Students enter the classrooms with a preexisting knowledge of science concepts. These science concepts sometimes show inconsistency with the accepted ones by the scientists and called as misconceptions. Studies applied science field have to get possession of abilities that not only detect these misconceptions also help to solve these problems.…

How teachers view the nature of scientific knowledge is crucial to their understanding of science content and how it can be taught. This book presents an overview of the dynamics of scientific progress and its relationship to the history and philosophy of science, and then explores their methodological and educational implications and develops…

Constructivism is a widely influential perspective in science education research. However, there have been strong criticisms of attempts to adopt constructivism as a principle underpinning official science curriculum policy (for example in New Zealand). Over the past decade recommendations for classroom pedagogy in extensive official guidance…

The International Polar Year-Research and Educational Opportunities in Antarctica for Minorities (IPY-ROAM) program was designed to increase minority participation in polar science by immersing participants in an academic program that included a trip to Antarctica. The IPY-ROAM program was focused on increasing public understanding of the polar…

Current school science curricula attempt to reflect contemporary constructivist-provisionalist related epistemologies as accepted by professional science. It is argued that conversely, the effect of science education is the creation of pupils holding naive-realist epistemological beliefs, largely inductivist-positivist absolutists who chase an…

Discusses the policy and practice implications of five articles published in this issue. Argues that the "one size fits all" approach cannot work in systemic reform. (Contains 23 references.) (YDS)

Presents the findings of a qualitative study carried out in a poor and problematic area of Brazil to investigate whether constructivist teaching practices are evident in the daily lessons in state elementary schools. Some teachers were found to employ genuinely constructivist methods. Analyzes the theoretical background, methodology, and…

Examines the role played by metaphor in supporting and conditioning thinking about theoretical models of learning in science education. With special reference to von Glasersfeld's theory of radical constructivism, suggests that much of the controversy appearing in the academic discussion of this theory stems from the injudicious use of metaphors…

This article traces the development of a contextual approach to the teaching of science (physics) subsequently called the Large Context Problem (LCP) approach. This approach is based on the general observation that learning could be well motivated by a context with one unifying central idea capable of capturing the imagination of the students. The…

Focuses on the gap between research findings and implementation of the results into science teacher education programs, curricula, and professional practices. Addresses one implementation issue that needs to inform future research, teacher education, professional development, and classroom instruction: How views of science, learning, discourse,…