F-10 Curriculum (V8)
F-10 Curriculum (V9)
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Ideas and resources that connect the learning of Indonesian language with other learning areas.
Jennifer Hemer from Natural Resource Management Tasmania explains what's happening in the seafood industry in her state and how digital technologies are used to make the industry more sustainable.
This PDF lists seven ways in which schools can support the Digital Technologies curriculum
This newsletter from the Digital Technologies in Focus project includes information about schools' projects, assessment tasks, artificial intelligence, augmented and virtual reality, the Australian Curriculum, and useful resources.
This newsletter from the Digital Technologies in Focus project includes information about schools projects, the Australian Curriculum, and useful resources.
Alyangula Area School is a government school located in Alyangula on Groote Eylandt, in the Northern Territory on the Traditional Lands of the Anindilyakwa People. Martin Levins is one of ACARA’s curriculum officers who works directly with the school to support the implementation of the Australian Curriculum: Digital Technologies. ...
This document presents the milestones in Faith Lutheran College's participation in the Digital Technologies in Focus project.
This document presents the milestones in St James Catholic College's participation in the Digital Technologies in Focus project.
Explore different soil textures and discover their various properties. Through simple soil testing, children will learn to appreciate the true value soils have in helping plants grow. The learning outcomes of this activity are for children to: - understand how soil texture influences the amount of water and air it holds - ...
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 ...
This learning activity is part of a sequence of 5 individual learning activities focused on creating a food garden. The order of these learning activities are: vision, site assessment, installing a no dig garden bed, planting and harvesting. OUTCOMES For children to: • appreciate what they would like to achieve from creating ...
This learning activity is part of a sequence of 5 individual learning activities focused on creating a food garden. The order of these learning activities are: vision, site assessment, installing a no dig garden bed, planting and harvesting. OUTCOMES of the learning activity are for children to understand more about the ...
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 ...
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. ...
Ideas and resources that connect the learning of Japanese language with other learning areas.
This is the third in a series of lessons to incorporate graphical user interfaces (GUIs) into your general-purpose programming. The series follows on from the Visual to text coding lesson series.
This article explores the challenges associated with using knowledge from different domains (and people) to work on a common problem, issue or puzzle. It acknowledges that the differences in how disciplines structure their knowledge raise challenges when working across disciplinary boundaries. The article identifies these ...
A hands-on activity to practise training and testing an artificial intelligence (AI) model, using cartoon faces, including a discussion about sources of potential algorithmic bias and how to respond to these sources.
This lesson sequence provides a bridge between visual coding (eg. Scratch) and General Purpose Programming languages (eg. Python or JavaScript). This resource is most suitable if you have never done General Purpose Programming and/or you benefit from slow-paced, step-by-step video tutorials.
For this project, students are introduced to the Arduino microcontroller and Arduino integrated development environment for programming a switch on an air conditioner. This lesson was designed by Cindy Thornton, Flinders Island District High School, Tasmania.