Makerspaces for Students With Special Needs Blog Feature

By: Margo Ensz on December 13th, 2014

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Makerspaces for Students With Special Needs

Academic Subject: STEM | Academic Subject: Special Education

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Reposted from Edutopia.org--original article (found here) by Patrick Waters

Maker education is a new school of educational thought which strives to deliver constructivist, project-based learning curriculum and instructional units. Makerspaces can be full high school workshops with a bevy of high-tech tools, or as small and low tech as one corner of an elementary classroom. What defines a makerspace isn't just the tools and equipment, but the learning that happens as students begin making and creating projects. Educators need to design these spaces to reach a diverse set of learners, particularly populations underserved in STEM subjects, and students with neurological differences, learning differences, and special needs. Makerspaces provide a number of benefits and opportunities for typical students. It just so happens that the type of learning Makerspaces promote best is also the type of learning that students with learning challenges need most.

Exploration and Execution

Students with neurological differences or other special needs have great gifts to bring into the classroom. They also bring a set of challenges which the teacher must be prepared to help each student manage. Students with neurological differences often have difficulty planning, organizing and executing complex tasks, navigating the intricate social community around them, modulating and regulating their emotions, and connecting their academic work to later career choices. As educators, we can leverage their strengths and interests to increase their engagement and learning -- just like we do for any other student. Any curriculum that we develop and deliver to our students must take into account these challenges and incorporate deliberately designed avenues for addressing them head on.

Maker education places a premium on the balance between exploration and execution. Small projects lend themselves to indefinite tinkering and fiddling, while larger projects need complex, coordinated planning. Often, small projects can organically grow into larger and larger projects. This deliberate process strengthens and enriches a learner's executive functioning skills. Additionally, communication and collaboration are two of maker ed's fundamental values. Makerspaces allow learners to practice their social communication skills in a variety of groupings, whether affinity-based or role-specified and teacher-assigned. It's important for both groupings to be present in student learning spaces so that all students can practice their social skills in multiple settings. Lastly, makerspaces present unique opportunities to generate flow learning and allow the teacher to leverage high-interest projects and activities into learning objectives.New Call-to-action

Maker education gives space for the real-life practice of collaboration, integration across multiple disciplines, and iteration -- the opportunity to fail, rework a project, and find success. The benefits of a cooperative learning environment are well documented. And this environment reaps even more rewards for those students with neurological differences and other learning challenges.

Choosing the Best Tools

An educator must always be aware of safety considerations when working with tools and materials. While makerspaces allow for great opportunities, they also present safety challenges for students with special needs. Students should be "checked out" on individual tools, from basic devices like glue guns to the potentially hazardous like powered saws.

In the STEAMworks, a Houston, Texas makerspace designed for students with neurological differences, tool use builds on itself, and a student can’t move up the ladder to more powerful tools until he or she masters the simpler tools. Having multiple tools allows for multiple avenues of success, all based on a student's developmental readiness. For example, a hand-held coping saw, a powered scroll saw, and a laser cutter can all cut designs into thin plywood. Using a coping saw might be appropriate for a younger student, while a student with physical challenges might use the laser cutter.

Hands-on tools, such as the coping saw, are the best for students thinking in concrete terms, while technology-driven tools, such as laser cutters or 3D printers, promote abstract thinking. Choose your makerspace's tools and capabilities to promote the appropriate learning objectives. A makerspace provides a wide continuum of capabilities and projects to engage the variety of students it serves.

The Makerspace Environment

Engineering your room design to take into account students with special needs and neurological differences can be the difference between a welcoming class space and a scary class space. Students with neurological differences prefer limited visual distractions. Busy visuals and bulletin boards distract and confuse. Stick to safety posters with both text and visuals. Visual cues -- such as labels for classroom supplies, stuff storage, etc. -- will help to ground students. Break zones -- quiet, comfortable spaces -- gives students a place to calm and center themselves until they're ready to re-enter the busy academic world. Lastly, noise and odor pollution can quickly turn a vibrant workshop into an uncomfortable space. Hearing protection must be offered, and fumes from paints, solvents, and plastics should be minimized.

Makerspaces provide a wealth of learning opportunities for students with or without special needs. Careful consideration of design decisions and curriculum choices give educators the power to maximize the growth of students with learning differences and create Makerspaces that open exciting possibilities for all students.

Original article published October 22nd, 2014 by Patrick Waters on Edutopia.org