We describe an intentionally designed, cross-disciplinary curriculum that promotes a broad humanistic understanding of the process of science, and how this curriculum supported graduation in science and mathematics. Combining the expertise of philosophers, sociologists, and social psychologists with that of scientists, this cross-disciplinary…

By arguing for "putting science education in its place," this essay cautions against overstating the role of science education with respect to global crises with technical components, like climate change. At the same time, it challenges the assumption that science education has no role in addressing equally urgent and widespread problems…

This paper, the second in a series of three, explores the representation of Earth System Science (ESS) in the Australian Curriculum (ACARA, 2018a)) through the Cross Curriculum Priority area of Sustainability and the Australian Curriculum: Science (F-12), with a focus on F-10. Part I (in Teaching Science, 68.1) overviewed the current…

Approaching elective courses and courses on special topics in Chemistry can seem daunting at times, given the varied backgrounds of the students, together with the broad nature of topics. Often, institutions may give incentives for creating sustainability related course offerings, but knowing where to start and how to organize the information…

This paper, presented in three parts, overviews the current understandings of the Earth System and the relatively recent interdisciplinary field of Earth System Science (ESS) from a school education perspective. The representation of ESS in the Australian Curriculum is explored through the Cross Curriculum Priority area of Sustainability and the…

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:…

While biomedical and life science research have embraced interdisciplinarity as the means to solving pressing 21st century complex challenges, interdisciplinarity in undergraduate education has been more difficult to implement. As a consequence, disciplinary rather than interdisciplinary capstones have become ubiquitous. Disciplinary capstones are…

Transforming the chemistry curriculum to an interdisciplinary perspective is essential for preparing students to meet interdisciplinary career demands and to brace themselves for the challenges of complex environmental and health issues. The study introduces four interdisciplinary electrochemistry STEM-lab activities as an alternative to the…

In primary and secondary schools, the disciplines encompassed in "STEM"--Science, Technology, Engineering and Mathematics--have usually been studied as separate subjects, with little effort directed towards non-anecdotal integration. "Integrated STEM education" is one of the most recent interdisciplinary proposals and, under…

The SunSpaceArt (SSA) project, led by the author, a solar scientist at the University of Cambridge, comprises a diverse team of scientists and visual artists who run STEAM (STEM + Arts) workshops in schools, space camps and at other venues (museums, science centres and so on). The project focuses mainly on 7- to 12-year-olds, which is a key age…

"Science and Children" routinely addresses the challenges teachers face in integrating the "Common Core State Standards" ("CCSS") alongside the "Next Generation Science Standards" ("NGSS") (e.g., Forsythe, Jackson, and Contreras 2018; Sweetman and Sabella 2018). This article aims to extend this…

Students not familiar with chemistry tend to misinterpret analytical chemistry as some kind of the sorcery where analytical chemists working as modern wizards handle magical black boxes able to provide fascinating results. However, this approach is evidently improper and misleading. Therefore, the position of modern analytical chemistry among…

Epistemic Insight is a research and education initiative that is seeking to establish effective ways to help school students to appreciate the power and limitations of science. In particular, the idea is that experiences and explanations devised by a teacher who is focused on what happens inside the science classroom might not be interpreted as…

In this chapter, eight foci relevant for science educators are presented and illustrated by paradigmatic examples and discussed in two parts. The first part "from science education to practice and authorities" discusses the four foci of: (1) developing concepts for instruction; (2) responding to the needs of schools; (3) connecting…

The Parallel Curriculum Model (PCM) lends itself to considering curriculum development from different angles. It begins with a solid Core Curriculum and can then be extended through the Curriculum of Connections, Practice, and Identity. This article showcases a way of thinking about the creation of a PCM unit by providing examples from an…