F-10 Curriculum (V8)
F-10 Curriculum (V9)
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This activity invites students to engineer a bottle racer: a plastic water bottle propelled by energy stored in a wound-up rubber band. The activity includes a list of tools and materials required, assembly instructions, what to do and notice, an explanation for the underlying science of what students observe and suggestions ...
This activity invites students to explore convection currents in water. Warmer water rising through cooler water bends light, allowing students to project its motion onto a screen and observe the flow. The activity includes a list of tools and materials required, what to do and notice, an explanation for the underlying ...
This resource provides a scaffold for students to complete a design challenge. The design challenge requires students to create a stomp rocket that can travel to a chosen planet in the solar system. The design challenge can also be used to investigate forces and energy. It can be delivered over a number of lessons, or it ...
This work sample demonstrates evidence of student learning in relation to aspects of the achievement standards for Year 8 Science. The primary purpose for the work sample is to demonstrate the standard, so the focus is on what is evident in the sample not how it was created. The sample is an authentic representation of ...
This investigative task focuses on energy transformations between kinetic (movement), electric and light energies. Students design, test and evaluate a system that uses energy transformations to meet an identified need. They work in pairs to design and construct a wind turbine tower that demonstrates how different types ...
In this sequence of 7 lessons, students learn about the transfer of heat, resultant changes in temperature and the conductivity of materials. They explore this concept through the context of what happens to playground equipment on a hot sunny day. By investigating sources of heat, how heat is transferred between objects, ...
This activity kit encourages students to design and construct a simple water wheel model that turns by the flow of water. Activities are guided by the design thinking process, and scaffolds students to research the applications of various simple machines, and the combinations of simple machines they might use to build a ...
In this unit of work, students develop their skills in working scientifically and their understanding of sound energy and energy transformations.
In this activity students investigate the energy transformations found in the First World War tank, Mephisto. This activity requires students to have an understanding of energy types and energy transformations and may be used to assess and extend student knowledge. This resource is part of a suite of activities from Queensland ...
In this activity, students explore the effect of colour of a surface on the absorption of light and the resultant energy transfers that occur. The activity includes a list of what is required, suggestions of what to do and notice, questions to ask, an explanation for the underlying science of what students observe and suggestions ...
In this sequence of 7 lessons, students learn about the role of the components in an electrical circuit and how they affect the transfer and transformation of energy. Using the context of blackouts, students explore how switches work and prototype backup electrical circuits. Professional learning for teachers is integrated ...
Peter Rowsthorn visits Dr Deborah Kerr at the WA Institute of Sport to answer the question 'How long does it take to walk off a donut?' Join Pete as he walks, jogs, rows and swims to burn off the energy from a single iced donut. As Dr Kerr takes Pete through his paces, learn how metabolic rate and muscle mass affect weight gain.
Take a journey with two 2013 Sleek Geeks Eureka Science Schools Prize finalists, as they present their take on the history of steam power. See how they link steam power, the properties of water and the way energy is converted. WARNING: if flickering light affects you, you may be best to avoid watching this video.
Electrons around atoms can absorb and emit photons of particular colours of light – see three different atomic models explain what's going on.
You know what happens when the pressure in a bottle reaches extreme levels: KABOOM! Discover with Ruben and Bernie how mixing together some everyday household chemicals can fuel a fizzy fountain or a model rocket, with spectacular results. This is chemistry in motion.
Fiery red, cool blue and sunny yellow are phrases used to describe feelings associated with colours. But what actually is colour? Why is it there and what helps us to see it? Follow Chloe Sheridan as she unravels the complexity of seeing colour by delving into its physics and biology. She entered this video in the 2013 ...
Find out about renewable energies such as wind, water, solar and biomass energy including how they provide energy, development of energy technology and environmental impacts in the electronic book. scientists and inventors involved. Explore some real-world engineering feats involved in producing today's energy supplies, ...
This lesson plan investigates ways in which automobile manufacturers seek to reduce injuries that occur in car accidents. Students note the effects of car accidents on human bodies, the factors that influence the type and severity of injuries, and the safety ratings of vehicles in which they travel regularly. The resource ...
When electrons in your retina absorb photons of light they don't emit light, they cause a molecule to change shape - and that lets you see colour!
Visit the world's largest nuclear fusion reactor, which uses the same process as the Sun to produce energy. Look at the new advances in fusion technology which mean, for the first time, a fusion reactor should now be able to produce more energy than it consumes. It offers a future alternative energy source, but is not without ...