On entry to university, high-achieving physics students from all across Australia struggle to identify Newton's third law force pairs. In particular, less than one in ten can correctly identify the Newton's third law reaction pair to the weight of (gravitational force acting on) an object. Most students incorrectly identify the normal force on the…

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…

Interdisciplinary teaching is a teaching method that is not as easy as other teaching methods to integrate into the everyday school schedule. This paper serves as an example and gives explanations on how this didactic approach can be applied. The lessons described were conducted successfully with a Year 11 class at a secondary school in which the…

Trends in contemporary science education emphasise the benefits of out-of-school learning experiences to help schools link science with everyday life (Tho, Chan, & Yeung, 2015). With the help of state-of-the-art technology, mobile devices--particularly smartphones--have the ability to work as data-logging tools for students to perform…

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…

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…

Familiar toys can be used to scaffold young children's learning about basic physics as well as guide scientific inquiry. Teachers looking for resources to engage young children and develop science inquiry skills need look no further than the toy box. In this two-part activity, children first construct a Lego® car and use it to explore the effects…

A Smartphone is not only a mobile device that is used for communication but is also integrated with a personal digital assistant (PDA) and other technological capabilities such as built-in acceleration, magnetic and light sensors, microphone, camera and Global Positioning System (GPS) unit. This handheld device has become very popular with the…

This paper is a response to Hoban and Neilsen's (2010) Five Rs model for understanding how learners engage with slowmation. An alternative model (the Learning MMAEPER Model) that builds on the 5Rs model is explained in terms of its use in secondary science preservice teacher education. To probe into the surface and deep learning that can occur…

For the case of objects thrown from an elevated position, students tend to believe an object thrown at an upward angle will always land farther away than one thrown horizontally at the same speed. That this is not always the case comes as a great surprise to many. By analysing the situation of a horizontally-thrown object outdistancing one thrown…