F-10 Curriculum (V8)
F-10 Curriculum (V9)
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In this lesson sequence, students focus on the observable features of living things and their environment. Students follow and represent sequences of steps and decisions (algorithms) to solve problems.
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 work sample demonstrates evidence of student learning in relation to aspects of the achievement standards for Year 4 Mathematics. The primary purpose for the work sample is to demonstrate the standard, so the focus is on what is evident in the sample not how it was created. The sample is an authentic representation ...
In this lesson sequence, students identify characteristics of living things and distinguish living things from non-living things. They identify and describe patterns and understand how scientists use external features to group living and non-living things. Students describe and follow a sequence of steps involving decisions ...
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 comprises a collection of sample activities that incorporate visual programming (Scratch) into teaching and learning programs. They show the possibilities Scratch offers for integration. The projects are incomplete and are designed to be used as samples for inspiration or modification by teachers.
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 PDF provides a line of sight from content descriptions to achievement standards.
In this lesson students explore slalom sports and how competitors maximise speed when completing a course. Students research different slalom sports and then share their findings with the class. Students investigate the impact of distance and friction on time to complete a course through digital and unplugged activities. ...
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 explore a sequence of steps using Bee-Bots in the context of familiar narratives. They navigate a Bee-Bot to events within the story, first as a whole class and then in small groups. This activity can be integrated with English and the exploration of narratives. This lesson idea was created by Rebecca Vivian.
Students are introduced to the Bee-Bot as a robotic device. They learn about what the Bee-Bot is, the functions and how the Bee-Bot can be used for specific purposes. They learn how to develop a sequence of steps for the Bee-Bot to follow. This lesson idea was created by Rebecca Vivian.
In this activity, students learn about digital systems and how a circuit works using the Makey Makey toolkit. They sort conductive and nonconductive items into groups using an experimental approach. This lesson idea was created by Rebecca Vivian.
In this lesson, students act like the inventor of an everyday object that does not yet exist. Students abstract the essential details, and describe what need would be fulfilled by the new object and how, specifically, it functions. They will then translate the description into a format appropriate for modeling the object ...
This is the final in a series of lessons to transition from visual coding to text-based coding with a General Purpose Programming language. See next steps for suggested courses and learning sequences after this lesson. It builds on the coding concept of functions (by introducing the concept of return values. Functions are ...
In this lesson, students are presented with the challenging problem of measuring a volume of water using containers that are not the exact measurement size. Students will decompose a complex problem into discrete steps, design an algorithm for solving the problem, and evaluate solution efficiencies and optimization in a ...
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.
This unit of work is intended to teach years 9–10 students basic programming, using general purpose programming language.
Students revise and extend the recall of 10x. They describe and continue patterns created from multiplication, and solve multiplication and division problems.