F-10 Curriculum (V8)
F-10 Curriculum (V9)
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The focus of this activity is for students to conduct an experiment that involves chance.They will use the information they gather to represent their findings.
The aim of this task is to provide a rich, contextual activity through which students can begin to explore the addition and subtraction of one- and two-digit of numbers in everyday contexts.
In this lesson students engage in a hands-on exploration of local diversity. Students research and record local wildlife, learn about biodiversity in Australia, and conduct a ‘bush blitz’. They learn how to create dichotomous keys and translate their keys into a wildlife discovery app prototype. The resource includes links ...
In this lesson students are guided through solving a problem using mathematical modelling. Students are guided through the process of formulating a problem that can be solved using a mathematical modelling approach. A professional sporting context allows students to engage in a common basketball scoring move: shooting ...
In this lesson, students conduct a statistical investigation, collecting and analysing data using percentages, and choosing efficient calculations and strategies. The investigation is communicated visually and verbally to the teacher and peers. Students reflect on feedback and consider revisions for the investigation.
This teacher guide provides information about earthquakes and online portals to download real world earthquake data, as well as two student inquiry activities. Each activity includes instructions on how to access and use the relevant portal as well as questions that prompt students to find, record, and interpret the data. ...
This PowerPoint explains the benefits and techniques of literature reviews.
This article provides a literature review of how computational thinking fits into a school curriculum. The aim of the report is to provide educators with an overview of the current research in this field and the work that is being done in teaching computational thinking.
This PDF is an extensive report on the success of the Digital Technologies in Focus (DTiF) project, with a focus on curriculum and pedagogy and learning outcomes. The evaluation gathered qualitative data to create rich case study accounts of six schools' engagement in the project and its impacts and outcomes.
This PDF outlines St James Catholic College's proposal to participate in the Digital Technologies in Focus project.
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.
This article explores ways of building integrated STEM programs so that students have opportunities to make connections to crosscutting concepts and real-world problems. This is proposed through the lens of a framework.
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 PDF is a one-page summary of the key findings of an external evalation of the Digital Technologies in Focus project in Australia’s most disadvantaged schools.
This newsletter from the Digital Technologies in Focus project includes information about schools' projects, visual programming, the Australian Curriculum, and useful resources.
This document illustrates the network of people and resources that make up St James Catholic College's Professional Learning ecosystem.
The Leading Curriculum Change Using an Ecosystem Approach: Digital Technologies in focus: Supporting implementation of Digital Technologies evaluation report (June 2021) reports on ACARA’s National Innovation and Science Agenda funded project for the period June 2016 to June 2021. This report is highly relevant to those ...
These matrices allow teachers to self-assess their proficiency with Digital Technologies. They include a notes section for teachers to plan future professional learning.
This report examines the similarities and differences in the understandings about STEM education between experts and the general public in some American states. The authors contend that one of the most interesting findings is the role of Science: the general public equates STEM as Science, whereas the experts view all STEM ...
This PDF lists seven ways in which schools can support the Digital Technologies curriculum