Constructionism
Above image from: https://classroom.littlebits.com/projects/rc-car-0c993f0b-d422-4071-9590-7e1d04937638
This week the theory of constructionism will be explored and how learning through doing is achieved.
Why Constructionism?
Donaldson, (2014) claims that learning is an active process whereby firsthand experiences are used to construct meaning, ideas and knowledge and is what shapes our understanding of the world. Additionally, when meaningful experiences become personal, the construction of new knowledge will be enhanced (Donaldson, 2014). For example, when students are allowed to create, design or construct products such as robots or other crafts, a personal connection to that product is formed and the process becomes engaging to them (Donaldson, 2014).
The theory has spawned a movement around making as a way to effectively learn in schools which is named the ‘The maker movement’ (Martinez and Stager, 2014). Martinez and Stager, (2014) advocate for the potential of learning through creation and encourages schools to go beyond the textbook and standardised ways of learning. The movement views students as capable and competent learners who can create and construct materials, objects, code, programs, etc. Martinez and Stager, (2014) state that students should be able to enjoy and become lost in the process of making projects and this will in turn enable them to learn what they need to against the curriculum whilst enjoying the meaningful experiences that the makerspaces provide.
LittleBits
LittleBits is one of the technologies that can aid in facilitating the ‘maker’ approach to learning (Sphero, 2020). The LittleBits kits that the company provides help student creativity and ingenuity develop through the process of creation where their ideas can manifest into physical forms (Sphero, 2020). The kits provide fun and meaningful learning experiences, as well as crucial real world skills needed for the future leaders of the world (Sphero, 2020).

From the image above, there is an array of projects and builds to choose from and student’s own creations can be shared to the ever growing repertoire of inventions (Sphero, 2020).
Issues
Many of the issues that teachers have expressed revolved around the support or lack thereof for the implementation of this way of learning (Bower et al., 2018). Resources and funding would need to be heavily considered when teachers want to utilise the makerspace approach of learning which was also a major concern (Bower et al., 2018). Additional technical difficulties and troubleshoot could arise when designing tasks or executing them as with all technology (Bower et al., 2018). However with continual improvement of technology and a change in mindset over time, this new makerspace learning approach would be revolutionary.
Reference List
Bower, M., Stevenson, M., Falloon, G., Forbes, A., & Hatzigianni, M. (2018). Makerspaces in primary school settings: advancing 21st century and STEM capabilities using 3D design and printing.
Donaldson, J. (2014). The Maker Movement and the rebirth of Constructionism. Hybrid Pedagogy
Martinez, S., & Stager, G. (2014). The maker movement: A learning revolution. Learning & Leading with Technology.
Sphero, (2020). LittleBits Classroom. Retrieved from: https://classroom.littlebits.com/welcome










