F-10 Curriculum (V8)
F-10 Curriculum (V9)
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This lesson sequence is a cross-age project that can be used for students in year 5/6 in collaboration with students from years 1-2. In this project, students collaborate on a code for an unplugged robot. They design, test and modify the robot and create instruction manuals.
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 tell stories inside cardboard boxes using craft materials and light. Turn on and off LEDs using a homemade switch and a circuit made with copper tape. The activity includes a list of tools and materials required, assembly instructions, inspiration and ideas, and encourages a tinkering mindset.
This activity invites students to use copper tape and surface-mount LEDs to make creative circuits on a flat surface, like a piece of paper. Students can make light-up greeting cards or create three-dimensional pop-up paper sculpture that have working lights in them. The activity includes a list of tools and materials required, ...
Once the design plan for a satellite is approved, it's important to identify the appropriate materials, tools and equipment needed to construct the new product. Watch this clip to find out what an engineer might do to select and test the components and techniques needed to build a satellite like NASA's MAVEN spacecraft. ...
Designers and engineers improve upon existing products all the time. How important do you think it is to update and enhance something like a weather satellite? Can you think of some other objects that could be improved upon?
Artificial lighting methods have changed with the invention of new lighting technologies designed to be more energy efficient and to reduce the use of resources. Since electricity has been used as an energy source, incandescent and fluorescent globes and, more recently, light emitting diodes (LEDs) have been used in our ...
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.
What makes tall buildings strong and stable? View this clip to find out how a tall building made from concrete is made even stronger. Look at a model of the building to see how it will look when it's built. See if you can pick up some design tips to help you build your own tall structure!
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?
How can we make our contemporary world more inclusive? This Stage 5 Design and Technology module, Build a better world - investigating inclusive and accessible technologies and spaces, explores inventions and architectural designs that seek to improve access for those with disabilities throughout their everyday routines. ...
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.
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?
This lesson plan introduces students to the practice and applications of using drones to take aerial photographs. Students learn safety procedures regarding the use of drones then capture images of simulated disaster areas. Students observe the use of drones in science and technology-based endeavours and suggest new applications ...
This lesson plan engages students in finding ways to reduce plastic waste in food packaging. Students investigate problems created by plastic waste then observe ways these issues are being addressed. They design new packaging for food items that currently produce excessive waste then test their designs objectively. The ...
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 ...
Have you ever tried making a bridge out of dried spaghetti? What about a spaghetti bridge that can support a roadway and small car? Watch as teams of first-year university students reveal and test their designs. How did they decide what kind of bridges to build? Have a go at designing, testing and building your own spaghetti ...
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 ...
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.
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.