User Generated Education

Recently I had the privilege of facilitating two half day workshops entitled, A Framework for Maker Education. The workshop including several mini-sessions of participants creating their own maker projects (Paper Circuits, Squishy Circuits, Gami-Bots, Brush bots, and micro:bit projects). What struck me most during these creating sessions was the high degree of energy, excitement, and joy in the room – it was palatable – with 100% participant engagement. As evidence, see the photos below:

This slideshow requires JavaScript.

The conclusion I came up with for this energy and engagement was that the human need to create is innate; and that too many people, starting during their childhood public education, stop creating. When they were given the opportunity, permission/invitation, materials, and methods, they fully embraced making and creating.

I believe that educators can be intentional in setting up environments where learners’ propensity to create flourishes. Some elements that can assist with this kind of unbridled making and creating include:

• Open ended projects that promote self-directed differentiation and personalization.
• Choice of projects, methods, materials.
• Some structure but lots of room for a personal touch; lots of room for creativity.
• Educators letting go of expectations what the final project should look like.
• Focus on the processes of learning.
• Focus on the social emotional aspects of learning – collaboration, persistence, acceptance of failure.
• Acceptance of a learner’s projects based on their own criteria of excellence rather than of the educator’s.
• Reflection is built into the process so learners can revisit their projects with a critical eye.

Open ended projects that promote self-directed differentiation and personalization

Open ended projects equal lots of options for what the learners can make. So given similar materials and methods, each learner is able to create a project based on his or her own interests and skills. For example, during the workshop, learners were instructed how to make a simple paper circuit but then transformed that paper circuit into a personalized art piece as can be seem in the images above.

Open ended projects permit each student to naturally and instinctively to work at or slightly above his or her ability level.  One of results or consequences of providing such activities is an increase in learner engagement, excitement, and motivation. Open ended learning activities permit and encourage learners to bring their “selves” into the work. They become agents of their own learning. Because of this freedom, they often shine as true selves come through. Learners often surprise both the educator and themselves with what they produce and create. It becomes passion-based learning.  Not only do the activities become self-differentiated, they become personalized. (Natural Differentiation and Personalization Through Open Ended Learning Activities)

Choice matters

Choice in the maker education environment can include a choice of projects; a choice of materials; and a choice of methods. During the maker education workshop, learning stations were set up from which the learners could choose: more advanced paper circuits, Gami-bots, bristlebots, Squishy Circuits, and micro:bit projects. Not only were the learners able to choose which projects they wanted to create, but these projects offered them the option to add their own personal touches.

Learning that incorporates student choice provides a pathway for students to fully, genuinely invest themselves in quality work that matters. Participating in learning design allows students to make meaning of content on their own terms. Education works when people have opportunities to find and develop unaccessed or unknown voices and skills. Audre Lorde poignantly describes this “transformation of silence into language and action [as] an act of self-revelation.” Opportunities for flexibility and choice assist learners in finding passion, voice, and revelation through their work. (Student Choice Leads to Student Voice)

Some structure but lots of room for a personal touch; lots of room for creativity.

Learners, during these workshops, were provided with foundational skills for making the projects through direct instruction, videos, handouts that could then be used as springboards for their own creativity. Maker activities such as these were new to these learners; scaffolding was needed in order for them to develop the foundational skills which in turn increased their creativity.

Direct instruction is provided through structured and prescribed activities with the goal of learners then being able to eventually go into self-determined directions. There has been some criticism leveraged against out-of-the-box maker education kits, programmable robots, and step-by-step maker activities. My contention is that learners often don’t know what they don’t know; and that giving them the basic skills frees them to then use their creativity and innovation to take these tools into self-determined directions. (Scaffolding Maker Education Learning Experiences)

Educators letting go of expectations what the final project should look like.

In Focusing on the Process: Letting Go of Product Expectations , I discussed the following:

To truly focus on the process rather than products of learning, the educator needs to let go of expectations about the specific products that should be produced by the students. There are expectations regarding some of the processes in which learners should engage (e.g., divergent thinking, questioning, researching, creating, innovating) but the educator lets go of the pictures in her or his mind about what the products should look like.

The benefits for learners when the educator lets go of final product expections include:

• They are not limited by my expectations nor the expectations of a lesson or assessment developed by an outside entity (e.g., textbook or testing company).
• Their engagement, motivation, curiosity, and excitement increase.
• They learn to tolerate and then embrace ambiguity.
• They learn skills such as self-directed learning, taking initiative, locating resources, asking for help that can be transferred to all learning endeavors.
• It reflects and models how learning occurs outside of school.
• There is an increased investment and pride in their work.
• They develop both a sense of confidence and a sense of competence.

Focus on the processes of learning.

When educators let go of expectations of what the products should be, which I believe is especially important in a maker education environment, the focus becomes on the processes of learning.

Focusing on the learning process emphasizes the students’ responsibility in the learning-teaching interaction. It both enables and encourages students to engage in their own learning. This engagement helps both students and teachers to build learning up from standards and to achieve competencies needed in our modern world. (Is Learning a Product or Process – part 2 )

Accept a learners’ projects based on their own criteria of excellence rather than of the educator’s criteria.

When the educator lets go of expectations of the final product, the learner develops his or his criteria of success. During one of my maker education workshops, one of the participants finished the basics of the introductory LED paper circuit activity. While the other participants were adding their artistic slants, J. sat there with her simple paper projectseemingly satisfied with her project. I went over to talk to her. She said that she was finished, and I said back to her, “That’s fine. You don’t have to do any embellishments if you choose not to.” She later told me of a second grade teacher who criticized her art (yikes – that teacher should have been fired). J. told me later that this acceptance of where she was at actually became encouragement for her to take some risks for later projects in the workshop. Her reflective piece included the following:

I learned a lot about myself about how I actually had been discouraged till now to try any kind of artsy or crafty projects, however, with encouragements from partners and Jackie, I was encouraged to go further and do/attempt additional Maker projects/products.

Focus on the social emotional aspects of learning – collaboration, persistence, acceptance of failure.

When the maker activities are open ended and process-oriented, social-emotional skills such as collaboration, acceptance of failure, and persistence naturally emerge.

Self-Awareness: Making in all its forms requires a full range of skills including cognitive, physical, and affective skills. Given this need for multiple and diverse skill set, effective and successful making comes from an accurate assessment of one’s strengths and limitations as well as having optimism and confidence that challenges can be overcome within the making process.

Self-Management: Making, especially making something new, often includes developing goals on the fly, revising those goals, and managing frustrations as the maker works through and learns new skills, processes, and knowledge related to that make.

Relationship skills: The power of being a maker is amplified when one works collaboratively on projects, gets help from others, and shares findings with others. (Maker Education and Social-Emotional Development)

The educator in this context plants the seeds of social emotional learning (SEL) through the use of language of SEL and strategic questioning such as:

• What processes are you using to develop, assess, and revise your goals while making?
• What strategies are you using to manage any frustrations or failures that are occurring during making your project?
• How your using others to help you with your project?
• How are you collaborating with your peers?
• Are you asking for help if and when you get stuck making your project?
• How are you sharing my ideas with others?

Here are some of the reflective comments by my workshop participants related to their social emotional learning:

This was the first time I had experimented with making electrical circuits and we tried some fun activities that I hope to apply in my classroom. In the first activity I learned that having a creative context or backstory to the work was motivating and helped me to extend myself beyond the basic task. In the final activity I found I was able to respond to a problem, persevere and create an original solution while maintaining the integrity of my design.

We were able to learn that in order to succeed we must try and try again. At times it was frustrating but we were able to collaborate between the team and find solutions and were able to solve the problems we faced.

Today I was reminded of the power of learning environments which invite creative, collaborative thinking  – curated with a variety of flexible materials which offer endless possibilities and room for all people to enter into play.

Reflection is built into the process so learners can revisit their projects with a critical eye.

Insuring that a reflective piece is included in the maker education process assists learners in developing their own criteria of excellence and evaluating their performance based on this criteria. The reflection process is as or even more important as the making itself. John Dewey famously stated, “We don’t learn from experience . . . we learn from reflecting on experience.” Reflection can be a form of making in itself. Participants, during my workshops, were given the option to reflect on their learning using online tools such as word clouds, video creators, audio pieces, photo essays, online storybooks. What follows is a sampling of reflections from my maker education workshops. I used Google Slides so all reflections are aggregated in one location for access by all participants to later review and examine them: