F-10 Curriculum (V8)
F-10 Curriculum (V9)
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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 PDF provides a sequence of activities in which students create algorithms to measure the time taken for a vehicle to travel from a starting line to a finish line. Students connect micro:bits and laser receiver sensors to measure time, then create programs to undertake the timing using visual and general-purpose programming.
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.
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 tutorial provides step-by-step instructions to support the learning of Scratch, a visual programming language that uses graphic elements rather than just text to translate logic. The tutorial is designed for educators who are learning to use Scratch.
This PDF provides a line of sight from content descriptions to achievement standards in the Digital Technologies subject in the Australian Curriculum.
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 outlines Mossman State School's proposal to participate in the Digital Technologies in Focus project.
This PDF comprises four worksheets that allow students to observe, investigate, manipulate and program simple line-following robots (Ozobots), engaging in the computational thinking process while working with data.
This set of printable cards describe ways in which computational thinking can be applied when carrying out simple everyday tasks.
This tutorial provides step-by-step instructions to support the learning of Scratch, a visual programming language. The tutorial is designed for educators who would like to learn how to use Scratch.
This PDF provides a line of sight from content descriptions to achievement standards.
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 lesson will explore how to program the Sphero using functions and show the benefits of decomposing the behaviour of the Sphero into functions, instead of writing line by line repeated behaviours. This lesson idea was created by Claudia Szabo.
This lesson will explore how to program the Sphero using functions and show the benefits of decomposing the behaviour of the Sphero into functions, instead of writing line by line repeated behaviours. This lesson idea was created by Celia Coffa.
This activity allows students to use the visual programming software Lightning Lab to control Sphero to act out the role of a fictional character. This activity uses Charlie and the Chocolate Factory by Roald Dahl as an example. This lesson idea was created by Steven Payne.
In this lesson students will be using components of the LilyPad development kit to create a circuit of LED’s that are controlled using a basic Arduino program, written in the Arduino IDE. Starting with a simple sequence of turning a LED on and off, the students can be challenged to choose a piece of music with a steady ...
Students are introduced to Ozoblockly and basic programming concepts. Using Ozoblockly, students program Ozobot to follow a path and travel through a maze that they have created. This lesson idea was created by Steven Payne.
Students are introduced to Ozobot and how drawing lines and colour codes can control it. This lesson allows students to experiment with different lines and codes to create a path for Ozobot to follow. This lesson idea was created by Steven Payne.