F-10 Curriculum (V8)
F-10 Curriculum (V9)
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In this lesson, students explore the multidisciplinary nature of contemporary engineering, and how engineering is pivotal to solving future challenges such as climate change, renewable energy and food security.
In this lesson students are invited to become food and fibre engineers to research how wheat, the largest agricultural crop in Australia, gets from the farm to the table. Students take an in-depth look at the wheat industry in Australia exploring how wheat is grown, harvested, processed, utilised, and exported. Students ...
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 ...
is lesson provides a great introduction to the idea of separating mixtures and enables students to consider separation as a process that operates on macroscopic levels. Students also learn about waste management and recycling processes in Australia. The lesson provides students with an opportunity to engage in hands-on ...
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 resource provides a scaffold for students to undertake a design challenge. The design challenge requires students to develop a shelter that protects humans from the hostile conditions on another planet. Students draw on their existing scientific understanding (for example, conductors and insulators), along with their ...
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 ...
Students learn about the important role engineering plays in conservation. They explore how engineers, industrial designers and ecologists collaborate to mitigate the impact of human activity on different species.
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.
Carbon nanotubes are a very tiny but super strong material used in manufacturing to create strong, lightweight products. Besides sporting equipment, find out what other kinds of products are made using these tiny molecules. What other qualities (besides size and strength) do carbon nanotubes have that makes them even more ...
Join Winston as he tests which materials slide down a ramp. Which ones will slip and which ones will grip? He's testing a wooden block, a stone, a glass bottle and an eraser. Predict what will happen. Watch to see if your prediction was right.
Meet Vint Cerf, the co-creator of the internet! In this clip, Vint and software engineer Paola Mejia explore the way computer networks talk to each other. Find out what an IP address is and why it's similar to a street address. What's the domain name system? And how does your computer find out the IP address of a website ...
Have you ever wondered what makes a paper plane fly? Think about the design of the paper plane as well as external factors like the various forces that are at play, then make a list of the design considerations and a list of the different forces.
Listen to electrical engineering student Kulsoom Hussain describe her dream career. What are some of the challenges she says she'll face in trying to achieve her goals? What can you find out about the energy sources used in Australia? How much renewable energy is used to power our country?
If you had to build a robot, where would you start? A good place to start is by brainstorming ideas with others. Think about your objectives, then think of other factors like the resources and the time you have available to you. Next, get some pen and paper and start drawing what you think your robot should look like based ...
Evan, a mechanical mentor for FIRST Robotic Competition's 3132 'Thunder Down Under', outlines the processes involved in designing, building and testing a robot in six weeks. What influences the team in their design and building processes? Can you think of anything else that might influence the design and build of the robot ...
See how boats can be made from wood, fibreglass and aluminium. Watch film of some Aboriginal men making a bark canoe. See how a special mould is used to make boats made from fibreglass. Find out why aluminium is a useful metal for making boats.
Sean, a robotics mentor for FIRST Robotic Competition's 3132 'Thunder Down Under', worked on the robot's intake system which allows it to take in the 'boulder', or the ball, so it can then shoot into the high goal or the low goal. What were some of the challenges he faced in designing and building this feature?
Why is it important to test things again and again in science? Would you be more likely to trust the results of one test or the results of many tests? Why?
This series of short videos from Khan Academy deconstruct and explain the way household items are designed and how they work including a digital alarm clock radio, a coffee maker, a tap light (a toggle switch light), a hair dryer, a DVD player, a universal remote and a digital camera.