F-10 Curriculum (V8)
F-10 Curriculum (V9)
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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.
This report examines the similarities and differences in the understandings about STEM education between experts and the general public in some American states. The authors contend that one of the most interesting findings is the role of Science: the general public equates STEM as Science, whereas the experts view all STEM ...
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, assessment tasks, artificial intelligence, augmented and virtual reality, the Australian Curriculum, and useful resources.
This document illustrates the network of people and resources that make up Faith Lutheran College's Professional Learning ecosystem.
This article explores the challenges associated with using knowledge from different domains (and people) to work on a common problem, issue or puzzle. It acknowledges that the differences in how disciplines structure their knowledge raise challenges when working across disciplinary boundaries. The article identifies these ...
This newsletter from the Digital Technologies in Focus project includes information about schools projects, the Australian Curriculum, and useful resources.
Alyangula Area School is a government school located in Alyangula on Groote Eylandt, in the Northern Territory on the Traditional Lands of the Anindilyakwa People. Martin Levins is one of ACARA’s curriculum officers who works directly with the school to support the implementation of the Australian Curriculum: Digital Technologies. ...
This document presents the milestones in Faith Lutheran College's participation in the Digital Technologies in Focus project.
This document presents the milestones in St James Catholic College's participation in the Digital Technologies in Focus project.
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 ...
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 suggests board and card games that are useful for exploring Digital Technologies key concepts and key ideas.
This article explores how children’s innate understanding of systems can be developed through deliberate educational programs that support systems thinking. This can happen by encouraging students to identify patterns, consequences and feedback (loops) associated with social, environmental and economic problems; and by ...
This PDF lists seven ways in which schools can support the Digital Technologies curriculum
This PDF provides a sequence of content for the Digital Technologies subject in the Australian Curriculum
This PowerPoint explains the benefits and techniques of literature reviews.
Digital Technologies in Focus curriculum officers discuss a lesson about Artificial Intelligence with Simon Collier and a student.
This informative digital text about how to make popcorn is for teachers to read aloud to students. The instructions use text and images to list the equipment needed and the steps involved in making popcorn. The resource includes a teaching sequence related to the Big Six components of literacy development (oral language, ...
Students select a suitable question for gathering data, they collect simple data and record responses, and then use a simple data display to represent, read and interpret data.