F-10 Curriculum (V8)
F-10 Curriculum (V9)
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In this coding challenge, students learn about programming in Blockly, including data representation, decomposition, design, branching, iteration, functions, variables, animations, tracing and evaluation.
Wombot is hungry and wants a carrot! With simple code, help Wombot through mazes, and learn to draw lines and shapes with code. In this challenge you'll learn the fundamentals of programming by using instructions to position Wombot on the screen. You'll help Wombot move and turn, and along the way learn to draw lines, patterns ...
Learn how to program a BBC micro:bit using Blockly. No experience required. Learn the basics of programming in Blockly with our full BBC micro:bit simulator.
This brief lesson provides an introduction to coding MakerBots (mBots) using a block language. It provides introductory information about the robot's sensors, motors and microcontroller so students can control the mBot.
Use blocks to program a micro:bit for sport! Get excited about coding even if you have no experience. You'll use drag-and-drop blocks to write your own programs, and make interactive games and tools to improve your health.
What makes even numbers special? What makes odd numbers… well… odd? Help these farmers plant their fruit trees in rows and patterns, and see what happens when we add, subtract and multiply different combinations of these numbers together! Use this low threshold, high ceiling task to explore the properties of even and odd numbers.
This activity challenges students to unpack a rule and see if it is being used correctly. Often students will just learn a rule and blindly use it. This task asks students to stop and think and then make corrections to ensure the rule works in all cases (generalise).
This unit of work explores coordinate geometry in the context of Voronoi diagrams. Students use linear coordinate geometry to construct Voronoi diagrams by finding the gradient of a line segment, then finding the midpoint, a perpendicular line and finally the perpendicular bisector.
Space Race is a simple board game that teachers can use to introduce the concept of algorithmic sequencing to students. The teaching points provided with the game assist teachers to introduce the use of an algorithm (a simple set of mathematical instructions) to describe the trajectory of an object across a grid plane from ...
This class warm-up game focuses on practising addition and subtraction strategies and developing algebraic thinking by using a rule applied to a list of numbers.
In this lesson, we explore algorithms and how they can be used to provide instructions to play a First Nations Australian instructive game. We also learn about aspects of First Nations cultures.
In this lesson, students will explore a story by an Aboriginal or Torres Strait Islander author that has a sequence that can be followed. Students will sequence the main elements or steps in the story in their own way and share with peers.
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.
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.
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.
Nathan Alison from Digital Learning and Teaching Victoria (DLTV) explains what systems thinking is and how it is used in the context of Digital Technologies. Nathan explains what we need to consider when teaching digital systems, covering topics such as networks, hardware and software protocols, people and processes.
This video provides suggestions for ways in which Digital Technologies can be used to develop students' learning in the Numeracy Learning Progression.