F-10 Curriculum (V8)
F-10 Curriculum (V9)
Tools and resources
Related links
Your search returned 69 results
This video demonstrates ways in which data can be manipulated in spreadsheets. It is the first in a series of four.
This PDF presents content descriptions and achievement standards for the Digital Technologies subject in the Australian Curriculum
This document presents the milestones in Faith Lutheran College's participation in the Digital Technologies in Focus project.
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 demonstrates ways in which data can be structured in spreadsheets. It is the third in a series of four.
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 PDF outlines Faith Lutheran College's proposal to participate in the Digital Technologies in Focus project.
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.
Resource description This resource provides strategies for assessing students' understanding of the ways in which data can be sourced, organised and represented to maximise options for analysis, evaluation, decomposition and visualisation in order to create digital solutions. The context of the resource is the liveability ...
This video provides an overview of computational thinking and how it can be taught in the context of other learning areas.
This document illustrates the network of people and resources that make up Faith Lutheran College's Professional Learning ecosystem.
Digital Technologies in Focus curriculum officers discuss a lesson about Artificial Intelligence and curriculum links for teachers
Dr Karen Joyce from STEM education provider She Maps discusses geospatial mapping and methods for teaching underpinning concepts to primary, secondary and tertiary students. Her presentation provides opportunities to think about how we might teach digital systems, data collection and interpretation to our students in context.
Andrew Harris from the Hagley Farm School in Tasmania shares ways in which the school is teaching Digital Technologies and its meaningful use in agriculture . For example, Andrew provides examples of ways students learn about digital systems and data collection.
This PDF provides a line of sight from content descriptions to achievement standards in the Digital Technologies subject in the Australian Curriculum.
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 resource provides strategies for assessing students' understanding of the ways in which data can be sourced, organised and represented to maximise options for analysis, evaluation, decomposition and visualisation in order to create digital solutions. The context of the resource is the liveability of the places in which ...
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.
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 ...
This infographic provides an overview overview of the concepts related to computational thinking.