F-10 Curriculum (V8)
F-10 Curriculum (V9)
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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 engage in a hands-on exploration of local diversity. Students research and record local wildlife, learn about biodiversity in Australia, and conduct a ‘bush blitz’. They learn how to create dichotomous keys and translate their keys into a wildlife discovery app prototype. The resource includes links ...
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 PDF outlines Faith Lutheran College's proposal to participate in the Digital Technologies in Focus project.
In this STEM lesson students explore local temperature and rainfall datasets over time and represent trends in innovative ways.
In this learning sequence we explore data representation, learning about the way data in the form of text can be represented in binary (on and off states). In using the context of Acknowledgement of Country, we explore First Nations Australian language or group names written digitally as symbols and using a long thread of beads.
This PDF provides suggestions for organising and classifying discrete items according to different criteria, for example, shape, size, colour and type, and prompts students to identify ways in which school resources have been classified.
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 Science, Mathematics, Numeracy and Literacy. The resource includes an assessment planner and rubric, as ...
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 PDF provides a sequence of activities that allow students to view and create planning templates and algorithms when making 'Choose Your Own Adventure' stories. Older students can use the visual programming language Scratch to build their stories.
This tutorial shows ways in which environmental factors such as lighting and temperature can be measured and improved using micro:bits and sensor boards, and programmed using pseudocode and visual programming.
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 PDF presents content descriptions and achievement standards for the Digital Technologies subject in the Australian Curriculum
This PDF assists teachers in thinking about when and how to introduce Digital Technologies discipline-specific vocabulary.
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 PowerPoint supports the years 5-6 assessment task, How do digital systems represent data?
This PDF supports the assessment task, Staying fit, healthy and sun-safe. It is the third in a series of four resources.
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 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 ...