F-10 Curriculum (V8)
F-10 Curriculum (V9)
Tools and resources
Related links
Your search returned 104 results
This lesson sequence allows students to explore design thinking processes to investigate how games are designed, created and played. Students analyse the audience of games, understanding the importance of empathy in the design process. The learning sequence culminates in a showcase: students sharing the games they have ...
Learn about the differences between animals, and how biologists use programming to help them do science! We'll learn about the features of animals, and how to use their differences in order to classify them. So hop in and learn some science!
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 coding challenge, students learn about programming in Blockly, including data representation, decomposition, design, branching, iteration, functions, variables, animations, tracing and evaluation.
This PDF gives an overview of the Australian Curriculum: Digital Technologies. It includes key points from the rationale and a step-by-step process for becoming familiar with the structure of the curriculum to assist planning. The document also provides links to key documents and sections of the Australian Curriculum as ...
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 proficiency with Digital Technologies. They include a notes section for teachers to plan future professional learning.
This article explores the types of systems in our world, their characteristics and how our behaviour can initiate and respond to changes in their performance. The author differentiates between systems thinking and a system and elaborates on those factors that contribute to systemic behaviour.
This PDF lists seven ways in which schools can support the Digital Technologies curriculum
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 Mossman State School's Professional Learning ecosystem.
This document illustrates the network of people and resources that make up Bethany Christian School's Professional Learning ecosystem.
This PDF outlines Green Hill Public School's proposal to participate in the Digital Technologies in Focus project.
Wodonga South Primary School caters for students in years F-6 and has approximately 540 students. Simon Collier is the curriculum officer who works with the school to support implementation of the Australian Curriculum: Digital Technologies. Teachers at the school have chosen to focus their project on professional learning ...
This Word document provides sequences of achievement standards for the Technologies learning area in the Australian Curriculum
This PDF assists teachers in thinking about when and how to introduce Digital Technologies discipline-specific vocabulary.
This PowerPoint presentation includes ideas for planning and developing action research projects to facilitate implementation of digital technologies.
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.
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.
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 ...