F-10 Curriculum (V8)
F-10 Curriculum (V9)
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This sequence of lessons explores how conditions in the environment can impact on learning. Through investigating the environmental influences on our classroom, and learning environments such as light, noise and temperature, students collect data and identify the optimal learning environment.
Students work together to brainstorm the dangers, problems and pitfalls in using ICT and online spaces. They collaboratively agree upon a set of protocols and rules for using technology, and develop processes and procedures to follow when using ICT.
This activity invites students to explore simple mechanical elements such as cams, levers, and linkages, while creating a moving sculpture. This activity is simple to start but may become more and more complex as students become familiar with possible motions and imagine ways to artistically decorate their contraption. ...
This activity invites students to explore balance and stability by designing and building whimsical kinetic sculptures that tilt, slide, and suspend everyday objects and ordinary materials into surprising arrangements. Students explore stability, centres of gravity, balanced forces and symmetry through this hands-on, tactile ...
This activity invites students to design and make Whimsical Whirligigs, kinetic contraptions that can be powered by wind, crank, or motor. Students can create wind-powered paper creatures or machines with moving parts. A The activity includes a list of tools and materials required, assembly instructions, inspiration and ...
In this hypothetical exercise, young learners will explore what they would need to establish if they were to grow their very own pizza. The OUTCOMES of this learning activity are for children to: investigate where and how food is produced; appreciate the complexities of food manufacturing; expand their knowledge of food ...
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 ...
In this lesson, students explore connections between science, design, and technologies through the lens of food innovation and food science. Students look at interesting and unusual food products, using food textures as a jumping off point to explore the relationship between chemistry and food. Students then experiment ...
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 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 ...
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 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 learning activity is part of a sequence of 5 individual learning activities focused on creating a food garden. The order of these learning activities are: vision, site assessment, installing a no dig garden bed, planting and harvesting. OUTCOMES of the learning activity are for children to understand more about the ...
Watch as UNSW student and Blusat member William Frohlich talks about the design process. What are some of the important things to consider before you start to make a project? Why does William say it's important to be flexible with your designs? Design your own obstacle course for your family using objects from around your ...
Modular farms are flexible and self-contained systems that allow you to grow herbs and vegetables without the need for soil or sunlight. What are some advantages of modular farms? What may be some of the disadvantages?
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 ...
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 ...
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?
This cross-curriculum resource is designed to introduce Stage 2, 3 and 4 students to the design thinking process through a series of videos and interactive activities. This resource is also downloadable as a SCORM file: the downloaded version will only work if you upload it to a webserver, such as Moodle or Canvas.
A ball of plasticine sinks. Could you change its shape to make it float? Watch this clip to see some plasticine being made into different shapes. Find out which shape floats. Take a look at the shape of a motor boat. Why is it pointy at the front?