F-10 Curriculum (V8)
F-10 Curriculum (V9)
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This video explores multiplicative strategies, methods and models to solve a given worded problem. It uses a scenario of a student helping a sibling to explore and discuss methods for solving the problem: ‘How many months has a 25 year old been alive?’ It shows how prior knowledge is required to know what type of calculation ...
This unit of work involves in-world Minecraft explorations and in-class activity. It is intended for students in regional areas to know and understand the issues that surround safety on and around rail lines. Students consider why there are safety issues, how technical systems at active crossings can go a long way to making ...
Ideas and resources that connect the learning of Japanese language with other learning areas.
This planning resource for Foundation is for the topic of Number sequence. Students establish foundational ideas and skills in number. There is a focus on subitising – instantly recognising and naming the number of objects in small collections of up to 5 (without counting).
This planning resource for Foundation is for the topic of Direct and indirect comparisons. Students are introduced to measurement through direct comparison.
This planning resource for Year 1 is for the topic of Place value. Students further establish part-part-whole when exploring one- and two-digit numbers. They use partitioning to think about and represent numbers in different ways.
This planning resource for Year 1 is for the topic of Informal units. Students develop their understanding of uniform informal units to measure the length of objects.
This planning resource for Year 2 is for the topic of Number sequence. Students extend and deepen their knowledge of the number system. They work toward recognising, representing and ordering numbers from 0 up to at least 1,000.
This set of printable cards provides definitions of six aspects of computational thinking.
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 ...
This resource provides activities in which students collect, represent and interpret data about the fruit and vegetables they bring to school.
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 outlines a way in which students can use micro:bits and magnets to create and program metal detectors.
This resource provides examples of ways Aboriginal and Torres Strait Islander Histories and Cultures can be integrated into Digital Technologies. Examples include 'classification and sorting data' and 'designing solutions'.
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 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 PDF illustrates how the National Literacy Learning Progression can be used with Digital Technologies to support student progress in literacy.
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 article explores the relationship between computational and critical thinking as it applies to solving technological problems. Research evidence derived from classroom experiments strongly suggests that using computers to solve problems enhances students’ abilities in solving real-world problems involving mathematical ...