F-10 Curriculum (V8)
F-10 Curriculum (V9)
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Life would be very different today if we did not have modern transport. In this activity, students calculate the time it would take for humans to travel long distances through different modes of transport. They then analyse the impact of these technological developments.
Humans are constantly working to develop and improve our technology and understanding. This resource provides step-by-step instructions to help students consider why innovative design and improvement is important. Students firstly identify as many types of transport they can think of and then discuss why new types of transport ...
This is an illustrated narrative describing the engineering decisions made to create wildlife corridors for safe passage for Australian fauna to protect them and the stormwater networks they had been traveling through. It shows the creativity, innovation and collaboration required, and focuses on the value being an engineer ...
This is an illustrated story retelling the real-life engineering decisions made to provide water to a Queensland town when its dam, the only source of water, ran dry. It shows the creativity, innovation and collaboration required to provide a solution that delivers a sustainable water supply. The downloadable PDF includes ...
In this lesson, students explore the life, work and times of Rube Goldberg. The lesson uses Rube Goldberg’s work to teach students about simple machines, how they function and their design principles. Working in groups, the students then design and create a Rube Goldberg machine that can complete a simple task. Students ...
This is an illustrated story of a real-life engineering solution designed to recycle glass waste and reuse it as reinforcement for concrete used in footpaths. The book explains the process of innovation to reach a viable solution. It shows the creativity, innovation and collaboration required to provide a solution that ...
This is an illustrated narrative describes the engineering decisions made when building an artificial reef to slow coastal erosion issues encountered on the Gold Coast. It shows the creativity, innovation and community collaboration required, focusing on the value being an engineer brings to the individual and the local ...
This resource investigates historical Australian Aboriginal agricultural production. Chapters include: Aboriginal agriculture- Firestick farming, Cultivation and cropping and aquaculture, Farming and living to the calendar, and the environmental impacts of firestick farming. Suggested answers document also available. The ...
This is an illustrated story retelling the real-life engineering decisions made to mitigate flood damage to a Queensland town that experiences frequent, dangerous flooding. It focuses on the value of being an engineer and how It benefits local communities. The downloadable PDF includes classroom activities.
In this lesson, students explore how architects consider sustainability factors when designing innovative climate-resilient homes. Students then design their own climate-resilient home for a location of their choice. In their designs they are asked to consider many factors such as the climate of the location, orientation ...
This is an illustrated retelling of the engineering decisions made to relocate a town from low to high ground following a dangerous flooding event. Based on a real-life event, the story shows the creativity, innovation and collaboration required to manage the process and focuses on the value engineers brings to the local ...
This is a unit of work that focuses on improvements in livestock and crop production brought about by agricultural practice, scientific research and technology. The unit is organised around six learning experiences that include investigating how agricultural products have developed over time; identifying the role of technology ...
This thermal comfort learning resource will guide students through an extended school based investigation. Students will develop and implement a chosen sustainability action and then evaluate and reflect on their success and their learning.
This is a video about how Australian farmers embrace technology. Using animation, photographs and commentary with occasional puns and jokes by a primary-school--aged boy, it sets the scene of the overall impact of technology, describes why Australian farmers have always been innovative; provides a definition of technology; ...
This is a video that defines and explores the concept of food security using animated illustrations, spoken commentary, and pauses for discussion. Identifying the accelerating growth of population and the proportion of people who are chronically hungry, it provides the United Nation's definition of food security and its ...
This is a video (4:15 min) about how the Stewart family is regenerating their family farm, Yan Yan Gurt West, in south-western Victoria. Presented by family members, the resource describes how the land was over-cleared in the past and its hydrology or water resources were compromised when swamps were drained. The regeneration ...
Finding the solution to a design problem involves generating creative ways to address a need or difficulty. Design is the key and it often involves an engineer. In this clip, explore what an engineer is and what they do, and see an example of how NASA engineers might plan, create and test an idea to fix a space station.
We don't normally associate robotics with farming but, in fact, robotics have revolutionised farming and agriculture in recent years. Find out how some strawberry farmers are using drones to disperse 'good' bugs for pest control management. Can you think of some other ways drones could be used to help farmers?
You don't need to be a big maths brain to become an engineer. Listen as Ashwini Ranjithabalan from Women in Engineering and IT at the University of Technology Sydney (UTS) describes how her understanding of maths grew from her interest in engineering. Sometimes understanding how maths can provide solutions to problems in ...
It's cool to program robots to play football, but there are many more useful applications for programming robots to react to what they are seeing. What are some of the examples David McKinnon gives? Can you think of some more examples?