This article describes how the Advancing Science and Engineering through Laboratory Learning (ASELL) Schools program was developed. ASELL School's directive is to facilitate the embedding of inquiry-based learning in secondary school classrooms through workshop-based teacher professional development (PD). The approach of ASELL Schools is to…

Smartphones are increasingly used in schools to achieve a number of educational outcomes; from developing measurement skills to enabling collaborative learning. When used as a measurement device in science classrooms, a few questions emerge. How good are the measurement capabilities of smartphones? Can smartphones lead to a more positive learning…

Most international curricula require students to develop conceptual and procedural understandings along with developing an understanding about the nature of science. Moreover, science education endeavours to produce scientifically literate citizens capable of making informed decisions about the social-scientific issues in their everyday lives;…

If you think physics is only for older children, think again. Much of the playtime of young children is filled with exploring--and wondering about and informally investigating--the way objects, especially toys, move. How forces affect objects, including: change in position, motion, and shape are fundamental to the big ideas in physics. This…

Australian science curricula have promoted the use of investigations that allow secondary students to engage deeply with the methods of scientific inquiry, through student-directed, open-ended investigations over an extended duration. This study presents the analysis of data relating to the frequency of completion and attitudes towards long…

DNA barcoding is increasingly being introduced into biological science educational curricula worldwide. The technique has a number of features that make it ideal for science curricula and particularly for Project-Based Learning (PBL). This report outlines the development of a DNA barcoding project in an Australian TAFE college, which also combined…

Magnifying objects can foster wonder in young children because they can make new observations of familiar things. This activity helps children explore common substances and familiar materials using a magnifying glass. Magnification can help people observe living things more closely providing a link to the work of scientists and the magnifying…

Energy is one of the most complex yet central concepts taught in schools and is featured in the Australian Science Curriculum, as one of the six key organising ideas (Australian Curriculum, Assessment and Reporting Authority (ACARA), 2015). The literature portrays a multitude of complications associated with teaching energy (see Millar, 2005 for a…

Through the science curriculum, teachers can use students' passion for screen content to motivate them to explore innovative new ways to bring their science learning to life through video making. Communicating science concepts using multimodal literacies can be a particularly powerful way for students to learn about science, especially when they…

Large gender gaps in performance on questions involving projectile motion have been observed at high school and university level, even amongst high-achieving students. This gap is particularly problematic because projectile motion is typically one of the first topics formally taught in physics, and this may give girls an inappropriately negative…

The Australian Curriculum (n.d.) describes chemistry as having three interrelated strands, Science Inquiry Skills, Science as a Human Endeavour and Science Understanding. It also states "... the three strands of the Australian Curriculum: Science should be taught in an integrated way". This article will explore a model for integrating…

If you think of play as "the work of children" (Whitebread, Basilio, Kuvalja & Verma, 2012) then toys are surely the "tools of their trade". The involvement of scientific principles in how they work makes certain toys ideal stimuli for science investigations. This article describes a practical investigation suitable for…

EngQuest, an initiative of Engineers Australia, provides an exciting, non-competitive way for students to participate in free, fun and educational engineering activities involving mathematics, science and technology. This article describes a project designed to teach middle school students how to construct a water catchment system. Water…

The computer game sensation "Minecraft" has become a mainstay amongst school students of all ages. Anecdotally, at Geoscience Australia, we have observed that "Minecrafters" often draw comparisons between their Minecraft experiences and the real world. For some students, the line between reality and fantasy is blurred. At the…

In this paper, we report on a case study of how three teachers personalised learning in science through supporting a group of Year 8 students to engage in individual inquiry projects. The case study demonstrated how heavily transmissive teaching can be avoided by restructuring classes to optimise student group and individual work and timely…