F-10 Curriculum (V8)
F-10 Curriculum (V9)
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Students explore the design thinking process of ideation and reflect on different ways we can generate ideas in order to solve a problem with a design brief. This particular lesson explores healthy eating through the design brief although the activities can be used to ideate any design.
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.
Use the tasks in this lesson to introduce concepts that underpin artificial intelligence (AI). The majority of the tasks are unplugged (do not require a digital device). Use the downloadable AI cards with your students to explore what they know about AI.
This unit of work is intended to teach years 9–10 students basic programming, using general purpose programming language.
In this lesson, students create a 360 educational Google Tour about Uluru and the Aboriginal peoples who are the traditional owners of the land.
This is a simple Boolean (true/false) application where its asks the user’s age - if you are over 15 then you can watch G and M rated movies - if you are under 15, then you can only watch G rated movies. This lesson was designed in collaboration with Jason Vearing QSITE (Gold Coast Chapter).
This lesson sequence focuses on the incremental or Agile approach to development and encourages students to follow the evolution of a temperature conversion tool for a Food Technology teacher. It uses an Excel spreadsheet application as the prototyping tool.
In this lesson, students design and implement a new user-interface that allows a user to interact with a digital program. This lesson idea was created by Rebecca Vivian.
As a general purpose programming language, python has a number of libraries that can be used for different purposes. PyGame is a free and open source python library that makes it easier to make multimedia applications like games.
In this challenge students use the BBC micro:bit as an embedded system to create different pieces of a virtual pet game. Students in the process learn about the micro:bit’s features and can think about how to make their own version of a virtual pet game, or even an entirely new project. Discover how embedded hardware (micro:bit) ...
In this coding challenge, students learn about programming in JavaScript, including data representation, decomposition, design, branching, iteration, functions, variables, animations, tracing and evaluation.
In this coding challenge, students learn about programming in Blockly, including data representation, decomposition, design, branching, iteration, functions, variables, animations, tracing and evaluation.
Learn how to make interactive webpages and build a surprisingly addictive game! In this DT Challenge, you'll learn the web technologies that form the foundations of the internet. In this course you'll learn the basics of HTML, CSS and JavaScript! You'll build webpages using text and images, and learn how to make them interactive ...
This PDF provides a sequence of activities that allow students to view and create planning templates and algorithms when making 'Choose Your Own Adventure' stories. Older students can use the visual programming language Scratch to build their stories.
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 and visual programming.
This PDF provides a sequence of content for the Digital Technologies subject in the Australian Curriculum
This PDF assists teachers in thinking about when and how to introduce Digital Technologies discipline-specific vocabulary.
This PDF uses colour coding to provide a line of sight between key concepts, content descriptions and achievement standards in the Digital Technologies subject in the Australian Curriculum.
These matrices allow teachers to self-assess their ICT Capability and Digital Technologies proficiency. They include a notes section for teachers to plan future professional learning.
This article explores ways of building integrated STEM programs so that students have opportunities to make connections to crosscutting concepts and real-world problems. This is proposed through the lens of a framework.