Design thinking
What is it?
Design thinking is a methodology used to solve complex problems and find useful solutions. In relation to education, this is a creative process where students generate new ideas for further development and evaluate these based on criteria to help them design meaningful solutions to problems posed. This type of thinking is often used to help promote creative thinking, teamwork and have students take responsibility for their own learning.
Australian Curriculum definition
Design thinking
Use of strategies for understanding design problems and opportunities, visualising and generating creative and innovative ideas, and analysing and evaluating those ideas that best meet the criteria for success and planning.
The NMC Horizon Report: 2017 K–12 edition
This reports highlights the emerging emphasis on 'deep learning approaches', including project-based learning and collaborative learning.
This TED Talk compares 'playground' versus 'playpen' models of learning and demonstrates how creative expression can help very young learners become creators, not just consumers, of technology.
Rubik's Cube: A question, waiting to be answered
This 2-minute video focuses on the need for inventors and the type of thinking required.
This 3-minute video focuses on the importance of skills such as problem-solving, innovation and creativity.
Unpacking the curriculum: Ten key concepts
Use this 4-minute video to understand the 10 key concepts that underpin the design and content of the Australian Curriculum: Digital Technologies.
Creating digital solutions: Investigating and defining
This 5-minute video explores the first of the skills related to solving problems computationally: those of investigating and defining the problem. Find out more about what is expected at each level of the curriculum in order to begin to create digital solutions.
Creating digital solutions: Generating and designing (algorithms)
This 8-minute video explores the second of the skills related to solving problems computationally: those of generating and defining algorithms. Find out more about what is expected at each level of the curriculum in order to begin to create digital solutions.
From STEM to STEAM: Young artists can become engineers, too
This personal article encourages teachers and parents to think outside the box when considering STEM projects.
Macquarie ICT Innovations Centre
MacICT provides professional learning for teachers on the integration of information and communication technologies (ICT) in teaching and learning.
In this sequence of lessons students make a paper prototype of an eco-calculator to demonstrate human impact on the environment and suggest changes in behaviour. This is an unplugged activity with an opportunity to extend learning to create a digital solution using Scratch.
Behaving with real class: using a text-based language
This lesson sequence offers approaches to teaching object-oriented principles using text-based programming. It attempts to address the problem that many programming languages are too complex and their environments too confusing for many students.
Students follow and describe a series of steps to program a floor robot. Plan a route to program a robot to follow a path and write a sequence of steps (algorithm).
This lesson sequence intentionally uses a visual-based programming tool to introduce designing and validating algorithms. Those students who complete this task can move to code the result in any text-based language with which they are familiar.
Making maths quizzes 1: Plan and test our programs
In this sequence students plan, create and edit a program that will ask maths questions that are harder or easier depending on user performance.
In this lesson sequence students write a simple suite of programs that can be used to facilitate an SRC election though the collection and processing of data. It assumes that students have been introduced to Python programming language.
Making maths quizzes 2: Implementing a digital solution
In this sequence students implement a digital solution for a maths quiz. They test and assess how well it works.
In this lesson sequence students use the Zen Garden website to reflect on criteria for effective design. They then explore the benefits of stylesheets in separating style and content, and learn how to use them.
Students explore aspects of animal adaptation prior to applying their knowledge to construct their own digital creature using littleBits electronic sets.
Everything you always wanted to know
Students design, build and evaluate their own database and perform queries and build reports based on that database. Students should have prior experience in creating a flat file database.
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.
Design thinking process: empathising
In this lesson students understand design thinking as a process for solving problems creatively. Students explore the design thinking process of empathising and seek to understand more about the users and the problem they are trying to solve. This particular lesson explores reducing litter through the design brief although the activities can be used to empathise with any design.
This website provides a link to Tickle, a free app that enables you to program various robots and air drones. There are also supporting resources.
Tynker is an online platform designed to teach students how to code using games and stories. Students can learn the fundamentals of programming and design using Tynker's inbuilt visual programming language.
This website provides tools and materials for teaching and learning computational thinking, problem-solving, and computer programming across secondary year levels.
Gamestar Mechanic is a game-based online digital learning platform designed to teach the guiding principles of game design and systems thinking.
St Aidan's Anglican Girls' School
Learning digital technologies outside of the traditional classroom.
In this competition you develop a technology project of your choice and then present it to a panel of judges. Projects are submitted in two categories: years 3 - 6 or years 7 - 12.
This is a one-hour competition where you’ll have to use your problem-solving skills to perform procedures and answer questions.
Work as a team to program your robot to compete against others in a game of soccer, a dance routine, or a rescue mission.
Use robotics and technology to explore STEM in a range of competitive events, workshops, camps and conferences.
These resources support the Hour of Code, a global movement supporting and inspiring students to code.
This is a broad and comprehensive collection of online courses and materials to teach coding and computer programming fundamentals to students of all ages.
Students learn about STEM by entering the challenge to design and build their very own video game.