F-10 Curriculum (V8)
F-10 Curriculum (V9)
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Learn how to code the micro:bit to use the radio! In this DT Mini Challenge, you can create wireless networks to send pictures and messages around the room! You'll start by sending simple messages, but work up to making your own interactive games with your friends! Dive on in and you'll be sending secret messages in no time!
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.
Learn how to use the Turtle in Blockly to draw and create with code. You'll draw a satellite piece by piece, building up your coding skills and learning advanced programming concepts like loops and functions.
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.
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. Create a Smart Garden device to monitor the health of your plants, measuring temperature and wiring up a simple soil moisture sensor.
This planning resource for Year 5 is for the topic of Follow and create algorithms. Students create, follow, and modify algorithms involving a sequence of steps and decisions to experiment with multiplication and division, factors and multiples, and the relationship of these to divisibility. Students use digital tools such ...
This is the fifth in a series of lessons to transition from visual coding to text-based coding with a general purpose programming language. This lesson may take two to three 45-minute periods. It introduces how to create and use arrays (also called lists).
This is the ninth in a series of lessons to transition from visual coding to text-based coding with a General Purpose Programming language. This lesson may take two to three 45-minute periods. It explores creating powerful programs for managing and analysing data, by combining the previous skills of using loops and working ...
This is the eleventh in a series of lessons to transition from visual coding to text-based coding with a General Purpose Programming language. It builds on the coding concept of functions. With the addition of parameters, functions allow the programmer to adapt their reusable code’s behaviour, tapping into the Computational ...
This is the second in a series of lessons to transition from visual coding to text-based coding with a general-purpose programming language. This lesson may take two to three 45-minute periods. It introduces how to make decisions (branching) and identify data types.
Create a computer program to learn a traditional Aboriginal or Torres Strait Islander language.
This lesson sequence is a cross-age project that can be used for students in year 5/6 in collaboration with students from years 1-2. In this project, students collaborate on a code for an unplugged robot. They design, test and modify the robot and create instruction manuals.
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 ...
Create a game board where the player is provided with a number of decisions. Using Scratch and Makey Makey, students add multimodal elements to the story. These elements are activated using an Ozobot.
This is the fourth in a series of lessons to transition from visual coding to text-based coding with a General Purpose Programming language. This lesson may take two to three 45-minute periods. It introduces the combining of logical operators and and or for more complex decisions.
A hands-on activity to practise training and testing an artificial intelligence (AI) model, using cartoon faces, including a discussion about sources of potential algorithmic bias and how to respond to these sources.
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.
Design your own Australian flag by firstly examining common elements of flags, creating a step by step process (algorithm) to program your design after exploring a ‘block-based’ turtle drawing program such as Pencil Code.
Students create algorithms with a condition that tells the computer to repeat a sequence of instructions.