F-10 Curriculum (V8)
F-10 Curriculum (V9)
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This infographic provides an overview overview of the concepts related to computational thinking.
The Years 7-8 assessment task focuses on digital systems (integrating Digital Technologies and Science). The digital systems assessment task activity guide can teach and assess students’ understanding of how digital systems can be used to monitor the classroom learning environment. Students will learn how to create environmental ...
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) ...
Learn how to program a BBC micro:bit using Python — no experience required. Learn the basics of programming in Python with our full BBC micro:bit simulator. Create a Smart Garden device to monitor the health of your plants, measuring temperature and wiring up a simple soil moisture sensor.
This set of printable cards provides definitions of six aspects of computational thinking.
This tutorial provides step-by-step instructions to support the learning of Scratch, a visual programming language. The tutorial is designed for educators who would like to learn how to use Scratch.
This PDF provides a line of sight from content descriptions to achievement standards in the Digital Technologies subject in the Australian Curriculum.
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.
This article explores the concept of computational thinking within computer science learning and in relation to other learning areas. The authors assert that because of its focus on analysis, computational thinking is not only suitable for computation but also the development of systems-based on computation.
Russell Scott, Co-Founder of multimedia design company Vortals, demonstrates some of the ways he teaches students about augmented reality, virtual reality, 2D, 3D and game design.
Paul Mead, from STEM education provider She Maps, discusses unconscious bias in young students and how She Maps is spreading the word about women who work with technologies in the field. He discusses digital systems and explains how geospatial systems and geographical information systems are used to collect, analyse and ...
This video provides an introduction to the ways in which Digital Technologies can be used to develop students' learning in the Numeracy Learning Progression.
This webpage features newsletters from the Digital Technologies in Focus project. The newsletters include information about schools' projects, assessment tasks, the Australian Curriculum and resources.
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 PDF provides a sequence of activities in which students create algorithms to measure the time taken for a vehicle to travel from a starting line to a finish line. Students connect micro:bits and laser receiver sensors to measure time, then create programs to undertake the timing using visual and general-purpose programming.
This article explores the relationship between computational and critical thinking as it applies to solving technological problems. Research evidence derived from classroom experiments strongly suggests that using computers to solve problems enhances students’ abilities in solving real-world problems involving mathematical ...
Digital Technologies in Focus curriculum officers discuss a lesson about Artificial Intelligence with Simon Collier and a student.
In this lesson, students act like the inventor of an everyday object that does not yet exist. Students abstract the essential details, and describe what need would be fulfilled by the new object and how, specifically, it functions. They will then translate the description into a format appropriate for modeling the object ...
In this project, students build their own augmented reality (AR) artwork using free digital tools with Artivive. Students can augment an existing artwork or design their own. This new technology allows artists to create new dimensions of art by linking classical with digital art.
This is the eleventh in a series of lessons to transition from visual coding to text-based coding with a General Purpose Programming language. It builds on the coding concept of functions. With the addition of parameters, functions allow the programmer to adapt their reusable code’s behaviour, tapping into the Computational ...