Maker Mindset, then MakerSpaces

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Gary Stager and Will Richardson both have similar ideas about MakerSpaces. They’re worried they’ll add to inequality, and that they’ll continue to be used as hangars for equipment and technology, relegated to a few narrow functions, and ultimately not really put to use.

Gary says in one source (not quoted in Will’s article):

The greatest threat to realizing the potential of the maker movement in the schools is the coupling of the words “maker” and “space:’ It turns out that
it is comparatively easier to hang a sign on a room full of stuff than it is to change classroom practice.

The makerspace threatens to repeat the historical accident of the computer lab :The enthusiasm of an early adopter and presence of new technology created a specialized bunker that kids would
visit each fortnight for the next two generations — like a field trip to colonial Williamsburg . We need to avoid any chance that making, like computer integration , will remain a novelty and be left to a “specialist ” while other teachers remain disengaged .

Gary’s article

And then, Will says this…

Much in the way that schools have spent tons of money on iPads and Chromebooks that have changed little in terms of the culture of learning or in the agency and autonomy kids in classrooms have to learn in classrooms, the same danger exists for Makerspaces. As Gary says, making is a “stance.” It’s a way of thinking about learning and schooling, not something that suddenly happens because of new technologies.

Why it’s so difficult for schools to put vision and philosophy ahead of tools and tech escapes me.

Will Richardson’s Blog

Screen Shot 2017-03-16 at 10.09.33 PMToday I listened to a new podcast on Thursday, Meaningful Making.  It’s good.  I like it.  They had a lot of good insights, including the recognition that the Maker community tends to skew white and geeky, and that we need to do more to promote greater diversity in the Maker community — shout out here to @Mr_Hutchinson_ who does remarkable things with very little… (but boy, do these podcast guys need Toastmasters… lots of uhs, and ummms. repeated words, filler statements… I recognize that a podcast is a different format than a radio show, but if you’re going to be a professional or semi-professional speaker, you owe it to your audience not to repeat yourself too much if you expect your audience to give you an hour of their time.)

Yet something one of the participants said gave me pause.  He said that there was a regular problem on the standardized tests that involved folding a net mentally, to see if it made a shape.  Could the students fold a given 2D net of triangles and squares into a 3D shape, and would the resulting net be complete? The teacher used a 3D printer to make a number of ‘manipulables’ — an ugly, not-really-elegant word — for  students to play with in order to see whether or not the given ‘flat nets’ folded into regular shapes.

Oh… you mean….

The people at Mathisfun.com have been producing these raw nets for at least a decade. They were one of the first things I turned to in the MakerSpace at my school in 2010 — because there were few things cheaper than paper for teaching Maker skills and Maker mindset to children, and when we started we had virtually no money for tools or materials other than what I could beg, borrow, or recycle.

It’s also a ready-made computer activity: “Use graphic design to make a net — a flat design — that when cut out and folded turns into a three-dimensional shape that can be measured.” It’s then less interesting to produce flat ‘manipulables’ that don’t fold into 3D shapes — and the kids who cut out and fold the real thing will find their skill improved when it comes to imagining the folding of 2d images, because their hands will have done it already. — Principle #4, what the Hands Do, the Mind Knows.

I produced one in five minutes in a word processing application and posted it as a screenshot here, but even a rough cut-out of the weird cross do-hickey on this page will produce a 3D cube.  This cube can be assembled inside out, too, creating six surfaces for decoration, or to make dice, or to assemble into structures, or to talk about crystalline structures… After all, that’s what ancient people noticed about crystals a long time ago: that they came in distinct shapes that appeared to be related to standard geometric forms like hexagonal prisms and cubes and octahedrons.

I’ve said elsewhere that Maker teachers need to be focused on the past (Principle #10, Past vs. Future Orientation) so that the students can be future-focused. The Maker teacher thus becomes a library of solutions, if you will, and can give a student guidance about how to put materials or technologies or techniques to use.

But it’s not always helpful if we turn to the flash and the heat and whiz-bang of the 3D printer when one of the key experiences we want students to gain is the knowledge of how to turn a 2D material (like paper) into a 3D object (like a cube or an icosahedron). I recognize that a) every person has their own entry point to Making; and b) people need to learn how the tech works before they can adopt the right mindset around teaching it to others.  That’s fine.

But we should be conscious of not over-investing in the technology for technology’s sake. Paper has the advantage of being scaleable in a way that 3D printing isn’t, yet, for schools.  Paper is a wonderfully diverse material: ephemeral in a way that 3D printer plastic isn’t, mark-able in a way that plastic isn’t, recyclable in ways that 3D printer plastic isn’t, and as dependent on how we mark it, as how we choose to shape it or design it to function.  It also folds, and it can be sewn, and it can serve as template for other projects; and it can teach complex concepts in short order which can then be programmed!

I do believe that this approach takes some of the “discovery” component out of student learning. After all, you’re using an adult’s graphic design skills and an adult’s mental library of past technologies to present students with ideas.  But you’re also putting ideas in student’s minds at the same time that you’re giving them tools and materials practice.  Just in this blog post, I’ve linked to the idea of using paper to:

  • build scientific instruments
  • teach core concepts of solid geometry
  • train the mind to recognize geometric 2D nets as 3D or not-3D objects
  • building books (which a 3D printer can’t really do)
  • fold origami patterns
  • build templates for sewing projects (including clothing)
  • building and coloring planetary globes
  • building cultural objects
  • teaching algorithms for cryptography (and introducing students to the ideas of secret-keeping).

So, guys — great podcast so far, really.  But you’ve spent two weeks talking about how awesome computers and 3D printing are.  Maybe you can remind people that cardboard and paper have important roles to play, too?

#edcampswct follow-up

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During the last session of yesteday’s #Edcampswct (see edcamp.org about what an Edcamp is), I led a discussion on MakerSpaces and Maker Programs.  I want to summarize what points I made there, and provide links to deeper insights on those subjects; and make a few further points that I don’t think I made in the time allowed, but were on my mind.

Here are the key points, which are further summarized below (@MrPerraultGES took a photo of my notes):

  1. Visual Thinking
  2. 2D makes 3D
  3. Tools Make Tools Make Things
  4. What Hands Make, Mind Knows
  5. Recycle and D.I.Y.
  6. Space Requirements
    1. Tool Storage
    2. Materials Storage
    3. Project Storage
    4. Workspace
    5. Input/Receiving
    6. Archive Process
    7. How-To Library
    8. Repair (and Sharpening)
    9. First Aid
  7. Best Practice vs. Liability
  8. (And to these 7 steps  I’m adding—
    1. Games and Game Playing
    2. Past vs. Future Orientation )

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