F-10 Curriculum (V8)
F-10 Curriculum (V9)
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This video explains ways in which the Digital Technologies curriculum and the Information and Communication Technology (ICT) General Capability can be implemented in schools. This video is the last in a series of three.
This video is a summary of a progress report into the implementation of Digital Technologies in the Alyangula Area School.
Incorporating 11 tutorial videos and two informative lecture videos, this learning sequence explores natural language processing, a significant application of artificial intelligence. Teachers and students are led through the coding in Python of a chatbot, a conversational program capable of responding in varied ways to ...
Sometimes we write and post things on social media in a hurry. Such posts can hurt people and even make them feel bullied. Wouldn't it be great if an Artificial Intelligence application could check our posts as we write them, and warn us if they were potentially hurtful?
This PDF suggests board and card games that are useful for exploring Digital Technologies key concepts and key ideas.
This document includes ideas for planning and developing action research projects to facilitate implementation of digital technologies.
Kevin Bradley, CEO of Save the Bilby Fund, and Cassandra Arkinstall, a researcher and volunteer at Save the Bilby Fund, explain why the bilby is an important indicator of the health of an ecosystem, and how their decline impacts other wildlife. This video gives an overview of what the Save the Bilby Fund does as they work ...
This document illustrates the network of people and resources that make up St James Catholic College's Professional Learning ecosystem.
This webpage features archived newsletters from the Digital Technologies in Focus project. The newsletters include information about schools' projects, assessment tasks, the Australian Curriculum and resources.
In this lesson students engage in a hands-on exploration of local diversity. Students research and record local wildlife, learn about biodiversity in Australia, and conduct a ‘bush blitz’. They learn how to create dichotomous keys and translate their keys into a wildlife discovery app prototype. The resource includes links ...
This resource comprises two activities that allow students to explore the concept of chance in Mathematics. Students use computational thinking while using a micro:bit as a digital system to generate and collect data. Students implement programs involving branching and iteration in visual and general-purpose programming languages.
This tutorial shows ways in which environmental factors such as lighting and temperature can be measured and improved using micro:bits and sensor boards, and programmed using pseudocode, visual programming and general-purpose programming.
This PDF is a one-page summary of the key findings of an external evalation of the Digital Technologies in Focus project in Australia’s most disadvantaged schools.
This newsletter from the Digital Technologies in Focus project includes information about schools projects, the Australian Curriculum, and useful resources.
This PDF outlines St James Catholic College's proposal to participate in the Digital Technologies in Focus project.
Use Python to program a micro:bit for sport! Get excited about coding even if you have no experience. You'll use the Python language to write your own programs, and make interactive games and tools to improve your health.
Find out about Digital systems. Use this topic from the Digital Technologies Hub to learn more, get ideas about how to teach about it, find out what other schools are doing and use the applications and games in the classroom.
This sequence of seven lessons challenges students to use simple equipment to predict, observe and represent motion. They create a series of graphs to represent motion and construct instruments to measure forces in one and then two dimensions. They interpret these representations to develop concepts of force and motion. ...
Ever wondered how your photos, emails and messages get sent between devices? Watch as software engineer Tess Winlock explains what binary information is, and how it gets from one place to another. Can you explain what 'bits' are? How about 'bytes'? In the past, binary information was sent using physical systems like semaphore ...
Watch as Jamie Teherani from MIT, demonstrates how a big, mechanical computer made from wood works. What does it have in common with the high-tech computers of today?