F-10 Curriculum (V8)
F-10 Curriculum (V9)
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The Leading Curriculum Change Using an Ecosystem Approach: Digital Technologies in focus: Supporting implementation of Digital Technologies evaluation report (June 2021) reports on ACARA’s National Innovation and Science Agenda funded project for the period June 2016 to June 2021. This report is highly relevant to those ...
In this lesson students learn the features of the five main biomes, and use ClassVR headsets and CoSpaces to design and create a virtual biome to explore. They research and identify the features of a biome and then create their own virtual environment. The resource explores the human impacts on biodiversity and explore ...
In this lesson, students explore different approaches to data representation, with the aim of engaging audiences with scientific data. They explore local temperature and rainfall datasets over time and represent trends in innovative ways. Students learn about different ways to visually represent climate change, looking ...
This resource provides strategies for assessing aspects of the Digital Technologies subject in the Australian Curriculum that relate to the representation of data in binary code. The resource includes an assessment planner and rubric, as well as links to curriculum and learning resources.
This video provides an overview of computational thinking and how it can be taught in the context of other learning areas.
This PDF demonstrates how using concepts derived from age-appropriate content, combined with multiple points of entry to and exit from a shopping-related task might remove barriers to learning. Students engage in purposeful and authentic open-ended explorations that require critical and creative thinking and incorporate ...
This PDF provides a list of suggested books or similar that identify and discuss key concepts, key ideas and related ways of thinking about Digital Technologies.
This three-page document gives suggestions for selecting and organising Digital Technologies resources, including physical equipment, unplugged activities and online links. It includes a simple template that may be helpful in documenting these.
This article explores how the relationship between systems thinking and computational thinking would provide a conceptual basis for transformational change – change that considers the social and environmental impact of technology.
Simon Collier, Digital Technologies in Focus Curriculum Officer, takes viewers though a lesson from the Digital Technologies Hub exploring how machine learning can be used to organise photographs.
This document illustrates the network of people and resources that make up Faith Lutheran College's Professional Learning ecosystem.
This video demonstrates ways in which data can be authenticated in spreadsheets. It is the second in a series of four.
This resource provides strategies for assessing aspects of the Digital Technologies subject in the Australian Curriculum that relate to data using contexts from other learning areas and General Capabilities, including Mathematics, Numeracy and Literacy. The resource includes an assessment planner and rubric, as well as ...
This PDF provides suggestions for using bread tags and plastic bottle caps to collect, organise and represent data.
This Word document provides sequences of achievement standards for the Technologies learning area in the Australian Curriculum
This PowerPoint explains the benefits and techniques of literature reviews.
This newsletter from the Digital Technologies in Focus project includes information about schools' projects, the Australian Curriculum and useful 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 video demonstrates ways in which data can be analysed and visualised. It is the final in a series of four.
This article explores the benefits of an interdisciplinary STEM program in the quest for providing students with a holistic approach to problem-solving that reflects real-world practice. This is supported by a conceptual framework that comprises four constructs: systems thinking, situation learning theory, constructivism ...