F-10 Curriculum (V8)
F-10 Curriculum (V9)
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This PDF gives an overview of the Australian Curriculum: Digital Technologies. It includes key points from the rationale and a step-by-step process for becoming familiar with the structure of the curriculum to assist planning. The document also provides links to key documents and sections of the Australian Curriculum as ...
This PDF demonstrates how using concepts derived from age-appropriate content, combined with multiple points of entry to and exit from a shopping-related task might remove barriers to learning. Students engage in purposeful and authentic open-ended explorations that require critical and creative thinking and incorporate ...
These matrices allow teachers to self-assess their ICT Capability and Digital Technologies proficiency. They include a notes section for teachers to plan future professional learning.
This article explores the benefits of an interdisciplinary STEM program in the quest for providing students with a holistic approach to problem-solving that reflects real-world practice. This is supported by a conceptual framework that comprises four constructs: systems thinking, situation learning theory, constructivism ...
This report reviews recent research literature in the areas of teacher capacity, integration of STEM disciplines, active learning and student engagement and participation to help inform the world of practice. The literature review was restricted to STEM practices in primary schools.
This PowerPoint presentation includes ideas for planning and developing action research projects to facilitate implementation of digital technologies.
This PowerPoint supports the assessment task, Staying fit, healthy and sun-safe. It is the last in a series of four resources.
This newsletter from the Digital Technologies in Focus project includes information about an On Country staff development day with Leonara District High School, cybersecurity, the Australian Curriculum, and useful resources.
This PDF provides a line of sight from content descriptions to achievement standards.
Use Python to program a micro:bit for sport! Get excited about coding even if you have no experience. You'll use the Python language to write your own programs, and make interactive games and tools to improve your health.
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 ...
Investigate home automation systems, including those powered by artificial intelligence (AI) with speech recognition capability. These suggested activities provide a level of differentiation to cater for students’ range of programming skills. They were developed in collaboration with the Digital Technologies Institute.
Incorporating 11 tutorial videos and two informative lecture videos, this learning sequence explores natural language processing, a significant application of artificial intelligence. Teachers and students are led through the coding in Python of a chatbot, a conversational program capable of responding in varied ways to ...
Sometimes we write and post things on social media in a hurry. Such posts can hurt people and even make them feel bullied. Wouldn't it be great if an Artificial Intelligence application could check our posts as we write them, and warn us if they were potentially hurtful?
In this lesson sequence students design, build and evaluate their own database and perform queries and build reports based on that database. Students should have prior experience creating a flat file database.