F-10 Curriculum (V8)
F-10 Curriculum (V9)
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Compost is created when organic materials such as twigs, leaves, dry grass and kitchen food scraps break down. Composting is a great way to reduce the amount of landfill that is produced, and also provides soil full of good nutrients that can be used on the garden. OUTCOMES of this learning activity are for students to: ...
Kevin Bradley, CEO of Save the Bilby Fund, and Cassandra Arkinstall, a researcher and volunteer at Save the Bilby Fund explain how important digital technologies are in the campaign to save the bilby from extinction. The video explains how digital systems are used to collect and visualise data and help eradicate threats ...
Plants are vulnerable to pests and diseases. This learning activity is designed for children to: understand how to cultivate healthy plants using organic gardening methods; look to natural ingredients as a solution to ridding plants of unwanted pests and diseases; and know how to make a natural pesticide and evaluate the ...
Making and planting a small wicking bed is a fulfilling activity. It upcycles materials, building awareness of waste and reuse. The completed wicking bed can suit small spaces – such as a balcony – demonstrating that even small spaces can be used to produce food. Its small size allows children to take ownership of its maintenance. ...
Invertebrates perform many different roles in a garden’s ecosystem and occupy many different habitats. In this activity, you will be completing an assessment of these animals. The aim of this activity is for children to identify invertebrates, appreciate different invertebrate habitats and understand the roles that these ...
This activity aims to explore water usage and water saving ideas. Every drop counts! OUTCOMES are for children to: understand the importance of water; look at ways to help save water; and undertake a water audit.
This is an illustrated retelling of the engineering decisions made to relocate a town from low to high ground following a dangerous flooding event. Based on a real-life event, the story shows the creativity, innovation and collaboration required to manage the process and focuses on the value engineers brings to the local ...
This is a comprehensive education package based on of the world's most exciting ecological restoration projects that is happening right now in Western Australia! It features interactive virtual tours, 3D skulls, videos, real-action inquiry projects, research projects, native animal educational card games and activities, ...
This learning activity is the fourth part of a sequence of 5 individual learning activities focused on creating a wildlife habitat. The order of these learning activities are: research, vision, design, planting and monitoring and care. OUTCOMES of this learning activity are for children to: understand the steps involved ...
Wicking beds are a fantastic invention, allowing crops to be watered more efficiently. Making a large wicking bed does involve a few steps and some preparation, however the benefits of this extra effort are water conservation, improved plant growth and better crops. The design of the wicking bed also provides opportunities ...
Creating a wildlife habitat can provide a home for a variety of local wildlife from the smallest insects and spiders to birds, reptiles, mammals and frogs. These habitats can provide a sanctuary for species that have been displaced through urbanisation, as built structures replace natural areas. The Vision activity determined ...
Learning about Aboriginal and Torres Strait Islander languages can help children build their understanding of land, water and people. This activity helps to assist the identification of the language group/s on which the school, youth group or home is situated. To understand local perspectives and support these activities, ...
This activity invites students to explore the phenomena of shadows and investigate the question, 'How can you change shadows?' Students work with shadow phenomena outdoors, indoors, or both to figure out how to change the size, shape, and position of a shadow. The activity is designed for use at home or in a classroom and ...
This activity invites students to explore how light is reflected from the underside of a water surface. 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 for further activities.
This activity invites students to use copper tape and surface-mount LEDs to make creative circuits on a flat surface, like a piece of paper. Students can make light-up greeting cards or create three-dimensional pop-up paper sculpture that have working lights in them. The activity includes a list of tools and materials required, ...
In this lesson sequence, students explore what happens as water soaks into or runs over the ground. They gain an understanding of a catchment from a sandpit model that show how water moves across the landscape. Students then trace the journey that their water takes every day, from catchment or aquifer to tap.
This activity invites students to explore how outside shadows changes over time and relate this to the movement of the Sun and Earth. Students are asked to go outside and trace an outline of their shadow, wait a while, try again, and observe and record how their shadow has changed. The activity includes a list of tools ...
This short video introduces the concepts of weathering and erosion by investigating why river pebbles are often rounded. Students can undertake an activity which demonstrates the process of erosion using sugar cubes. They are asked to predict what might happen (a hypothesis) and then observe what does happen and relate ...
This activity introduces weathering and erosion by investigating why river pebbles are often rounded. The download includes background information for teachers and an activity sheet for students. The activity demonstrates the process of erosion using sugar cubes. Students are asked to predict what might happen (a hypothesis) ...
This integrated unit of work explores the amazing structures of honeycomb by examining the properties of regular and irregular polygons and polyhedra. Students then move on to solve problems using geometric and algebraic reasoning.