You Want to Start a Maker Space. Now What?

You’ve read some blogs, maybe even read a book or two, you follow some insta feeds, and everywhere you go the term “Maker Space” seems to pop up. Hands-on learning is your style. You might even be a little out-of-the-box. Maybe you’re a lot out of the box! You desire to help your students learn how to problem solve and think creatively and be curious. You’re ready to jump in and start a Maker Space in your classroom or school. But where do you begin? Do you need a 3D printer? How big of a space do you need? The beauty of a Maker Space is that there are no rights or wrongs. The challenge of starting a Maker Space is that there are no rights or wrongs! Get my drift? It’s your first Maker Space challenge andyou haven’t even started it up! Get ready, because you are about to grow!

Creating a Maker Space can be something as simple as a small table or desk in a corner of your room. A Maker Space can be as elaborate as a dedicated room or bigger! If you have the space. Determine who will be using this space. Is it your classroom only? You might be collaborating with your other grade level teachers so a dedicated location like a commons area or maybe multiple small stations in multiple classrooms might be the solution. Don’t be afraid to think creatively and be flexible.

Once you have a location figured out you can start it up! It’s okay to start small.  You don’t need a 3D printer make your Maker Space come alive.  Collect clean recyclables and get some bins to sort them in. In fact, if you see a sale on bins, buy more. {You can thank me later!} Make tools available to your students {glue, scissors, a hole punch, scotch tape, masking tape, duct tape, maybe some small hand tools, hot glue gun}. Other materials such as string, craft sticks, pom poms, pasta,  straws…. Let your students start exploring when they have some down time or indoor recess.

Teach your students how to use tools responsibly. Wear safety glasses if needed. We have a five year old who uses the hot glue gun to glue and an eight year old who also uses a hot glue gun to glue and weld! Know your students and let them take on some responsibility and calculated risk. Chances are, many other students will quickly display their ability to be mature when the reward is good!

Once your students are familiar with the Space, offer them challenges. How tall can you build a tower? Build a bridge and see how much weight it can hold. Build a car and see how far it can roll down a ramp.

Need more help? Check out our guide to Designing a Maker Space. We include a huge list of ideas for stocking your Space, funding your Maker Space, four pages of links to incredible resources to help you to spur creativity!

Source: I find some amazing work at Freepik.com. The rockets on my image are from there!

Transform Your Teaching by Thinking Backwards with Seth Godin

Podcasts

I have recently become a podcast addict. I use the app Podcast Addict which just feeds my hobby. Yes, I now call it a hobby. It’s feeding my mind in a way that books used to {pre-kid days}. I still read, but not with the voracity that I used to. Now, I can fill my brain with quality words and ideas all while scrubbing my dishes or working on my design work. It’s another way to boost my creativity and inspire me.

I have a few podcasts that I’ve really begun to love, but in an effort to avoid getting in a rut listening to the same four podcasts, I began exploring other options.  I began with Creative Mornings and speaker Seth Godin.

Friends, are you trying to make a dent in the world? Are you trying to do work that matters? Work that fulfills you? Then watch the videos linked below now. I realize they are marketing and design focused, but these matter to you as a parent, an educator, a human being who is wanting to create or encourage the children in the world or yourself to create.

As I began listening, these two quotes from Seth Godin in these talks struck a me deep in my soul – and not in a good way:

…What they [industrialists] needed from workers were people willing to sit still for 10 hours, use a number 2 pencil, and follow instructions.

We were trained from the time we were three to ‘Do what we were told’“.

I don’t know about you, but I don’t want that. I don’t want that for my son. I don’t want that for our classrooms. I don’t want that for teachers teaching. I might have lofty goals  to #takebacktheclassroom and #takebacklearning but I believe our teachers and students have the right to learn in creativity-fostering, safe environments. It’s why we believe in Maker Spaces so much here at Brain Brigade. It’s what we live, think, breathe, feel, make, do. We help other teachers build Maker Spaces in their classrooms. We help homeschoolers build Maker Spaces at home. We make at home in our spare time and encourage our children and family members to ask, think, question, explore and more.

Watch & listen to Seth Godin here and then listen closely to his Q&A, and then if you can’t get enough, check him out on this podcast station. While in the Q&A a person asks a question specific to education at 16:50. LISTEN to it. {Here’s the manifesto Stop Stealing Dreams he refers to}.

Create an environment where not only is it safe to fail, but it is required to fail.” Seth Godin

Are you doing that for your students? Are you allowing them to fail? That is what a Maker Space is all about. Students must fail. They must take risks. And our job as educators is to create an environment that is safe for our students to fail. That’s it. It’s why we do what we do.

It’s how we’re taking back our classrooms. It’s how we’re exchanging those number two pencils for hands on learning. It’s how we’re breaking the mold and how we want to help you break that mold in your own classroom and world.

What’s keeping you from scary work? What might get you fired? Run out of town? Encourage you to take risks? If you don’t know where to start, then contact us using the form listed on the About Us page. We want you to you be confident in changing your classroom and changing your world.

When Buses Fly

I arrive home to a school bus parked in my driveway. The tow truck that brought it is just pulling out. Mrs. Brainiac is here again to share a little more about Jerry Brainiac’s deep rooted craziness. I know the presence of this bus means we are getting involved in another STEM type project. Something creative, scientific, engaging and, yeah, crazy. Another activity designed to instill curiosity about science and technology coming right up. Oh boy. So fun! My mind races with thoughts about what hands on tinkering we will engage in now. In my yard. And driveway. Guaranteed we will learn about technology and science and engineering with this project.

Here we go! A fire truck is pulling in and the guys are bringing out the Jaws of Life to tear out the bus seats. Not as easy as it looks. And Jerry Brainiac is bringing out gallons of white paint and a pile of brushes. And the kids. Of course there will be kids, kids with paint brushes on my driveway. Ahhhh, it’s starting to take shape. It’s a Space Shuttle!

After weeks of this space craft sitting in my parking spot, it now has a big control panel installed, lights, a microwave (astronauts gotta eat), an Apple IIe computer and a bunch of other stuff.

I anxiously await the big day. Not launch day. The day the big shiny tow truck comes back and gets the space shuttle and tows it to the school where the astronauts are waiting in their little space suits that look suspiciously like the paper suits that surgeons wear.

And today is the day. After it arrives at the “launch pad” at “Cape Canavereosho” (if Canaveral and Neosho School were a couple) the astronauts run a giant extension cord out the window of the fourth grade classroom and plug in the shuttle. All systems are go. Ready for lift off. Start the countdown and hope that extension cord is long enough to make it to outer space.

 

The ‘nauts have a great time. They do some experiments with plants, make space meals, eat dehydrated astronaut ice cream which actual astronauts don’t really eat. They play video games on the Apple IIe and generally live the life of an astronaut for the day. Don’t forget to workout, living in low gravity can cause muscle atrophy.

The space shuttle was a huge hit. Everyone in town had watched it evolve from a school bus without an engine to a launch-ready space shuttle. The fourth graders loved planning it all out and took pride in finishing such a huge project. Hands on science and technology is more fun than just reading about it. And when you have fun, you retain more knowledge about the subject and have a greater understanding of the concepts used.

Mrs. Brainiac has many fond memories of the space shuttle school bus and all the weeks it sat in her driveway. Her favorite memory is the day the tow truck came to take it away and blocked the driveway. At the exact time she had to leave for work. What fun it was driving her car across the yard and ditch to get out that day and onto the road! More exciting (and probably more dangerous) then getting to ride in a real space shuttle. Good times!

Maker Spaces: Appleton Maker Space Tour

Last week I traveled to Appleton, Wisconsin and visited the MakerSpace located there. It was located in a small building behind a hair salon. It is a great place for members to tinker, fabricate and collaborate in making projects that appeal to them. Each month members pay a fee to have access to all of the equipment, materials and storage located in the space. The president of the organization, Chris, gave me a tour. There were several large work areas for woodworking, metal work, electronics, planning and storage. All were equipped with the machines for an inventor to do hands on learning.

A maker space is a great space to have access to all of the various machines needed to invent at a fraction of the cost of purchasing these on your own. There were lathes, saws, planers, welders, drill presses, and many more machines that could be useful for anyone wishing to be creative. I really liked their planning room that had a floor to ceiling whiteboard that was 12 feet wide and 8 feet wide. Members can use the board for drawing, creating lists or planning a project.

Chris introduced me to one of the members who is building an airplane in the space. He had the frame and wheels already made and was working on the wings. It reminded me of the old days when early flight pioneers made airplanes in their garages.

Craft Stick Truss Bridgeu

These are the kinds of spaces that we need in schools! We don’t need
all of the fancy and expensive equipment, but we do need areas where students can invent, create, fabricate, and experience failure and success. A corner of a classroom with craft sticks, glue guns, wires, light bulbs, and any number of inexpensive items helps children use their hands and minds to invent. Let’s get away from this culture of constant testing and get back to the real world!

Hydroponics 101.3: The Circulation Method

Hydroponics-101

Picking up where we left off in our Hydroponics series… The circulation method of hydroponics is ideal for you if you have a few more dollars to spend (as compared to the more limited Kratky Method) and you would like your students to make a hydroponic system in the classroom. It is a great way to integrate the engineering design process and STEM into your curriculum as well as offer authentic learning to your class. It also offers you a way of integrating principles of chemistry and physics into your curriculum.


 

We’re currently in a series exploring Hydroponics and Aquaponics.
{Read the previous entries here Hydroponics 101.1 and Hydroponics 101.2}


 

In the circulation method, you need to provide a nutrient trough for the plants to bathe their roots in. This can be done in many ways. Two methods that I have worked with are a floating bed system and a rail system. With both systems I had great success.

Circulation-Method1

With the floating bed system, have your students construct a sturdy box of 2×4 lumber about two feet wide and four feet long. Attach a piece of plywood on the bottom and drill a hole for a bulkhead attachment to allow water to drain from the bed to a reservoir below the bed. Next, place a rubber pond liner inside the box and cut a small hole in the liner to match up with the hole you drilled earlier. Screw down the bulkhead and tighten it so that water will not leak out of the box. Now cut 2 inch holes into a piece of ½ inch thick pink Styrofoam insulation board. I used a 2 inch circular hole saw in a drill bit and ran the drill BACKWARDS so that the Styrofoam was not shredded.

Circulation-Method2

Now you are ready to fill the reservoir with water. I use a large plastic container (about 25 gallons) with a small aquaponics pump on the bottom and a hose running up to my growing bed. I fill the reservoir with water, add my nutrient solution, turn on the pump and circulate the water. Monitor the water height in the bed so that when you add your plant cups their roots are touching the water. I also would recommend you add a PVC pipe below by attaching it to the bulkhead with a PVC fitting so that water flows back to the reservoir.

Next we’ll explore light requirements, planting and monitoring your system.

Hydroponics 101.2: The Kratky Method

Hydroponics-101

Hydroponics gives your students an opportunity for hands on, authentic learning that is novel, STEM related and gives them a chance to tinker. We’re currently exploring Hydroponics and Aquaponics in a blog series (read Hydroponics 101.1).

Choosing the container that you wish to use for your hydroponic system is crucial. There are two ways that you can approach this. You can either place your plant in a container that has no water and nutrient movement which is Kratky method) or you can re-circulate the water continuously using a pump and aerator. Which method you choose depends on your space and budget.

Hydroponics-for-Classroom-or-Home

With either method, you should begin your plants two to three weeks before transplanting them into your hydroponic system.

In the Kratky method you mix your nutrients in water and fill a container. Next, you prevent light from shining on the solution by duct taping or painting the container, then you cut a hole in the top of the container for your plant basket and you set the plant into the container with some of the roots not immersed in the liquid so they can get oxygen from the air. The upside is that you can grow lettuce and quick maturing plants in about 30 days. The downside is that the nutrient solution will run out or will begin to smell after about a month because no aeration of the solution takes place. This method is simple.

It is very important not to let light hit the solution or algae will begin to grow and use up all of the nutrients meant for your plant. This method is great for windowsill gardens or in small spaces that receive sunlight most of the day.

Hydroponics-101pt2

I’ve noticed some differences with each method. First, root development is much greater in the circulation method and plants do grow a bit larger (see photo comparison). Secondly, the nutrient solution can be used for a longer period of time due to aeration. I have eaten my lettuce from both systems and both salads tasted very good.

Next week I will tackle a circulating system. But before then we’ll be posting on adding fish to our high school aquaponics system!

Friday Follies: It’s All Fun and Games Until….

Saturday morning. Spending some time challenging a couple hundred kids with fabricating foam rockets. They are loving getting out of the classroom and into the cafeteria for a hands on experience building foam rockets and then launching them. They persistently brainstorm ways to get the rockets to go farther and higher. Through trial and error, mistakes and occasional failures, they achieve success! Rockets are flying everywhere. Bouncing off walls and garbage cans, other kids and the occasional unwary instructor who happens by. The curiosity, creativity and risk the kids take with the engineering design process are inspiring. If through this activity we can connect to real life applications and get them into Maker Spaces and Maker Labs, it will all be worth it. Worth the drive to the city early this morning to set up. Worth the exposure to all the kid germs and sticky hands grabbing hot glue guns from my helpful hands. Worth the parents hogging the supplies because they are as excited as the kids to engage in novel learning. And definitely worth the experience of having these wild ones use me as a target to aim the rockets at. “What if we hit Miss Sue? Do we get a prize?” No. No, you don’t. Rockets

Yes, it’s me, Sue Brainiac. The Head Brainiac Jerry’s long suffering wife. Brainiac Jerry loves offering events for poor underprivileged inner city kids that have never had the opportunity to torture Mrs. Brainiac with their attempts at foam rocket building. Yes, I understand that offering STEM activities encourages collaboration among students and sparks excitement about learning that may lead to a little girl becoming an engineer or a boy realizing he COULD go to college and do fun stuff for a living. It’s novel learning at its best. Developing synapses in the brain through presenting challenges to solve. Showing kids that tenacity and grit and hard work can actually be fun and rewarding. Blah blah blah. Okay. Kids learn to love science and math and make it applicable to everyday life. How nice for them.

But on a lovely Saturday morning , Mrs. Brainiac could be enjoying coffee on the deck and instead she is supervising kids from ages five to, well, whatever age the oldest parent is. Using scissors and hot glue and rubber bands. All her favorite things for kids to play with. And now the finished rockets are bouncing off her in spite of the oath to “not aim at anything living” that we made them take prior to launch.

How about we go back to the traditional education experience? Worksheets. Lectures. Videos of other people making things. Kids love watching other people have fun in videos. Tests! What about tests? Those take up lots of time and keep kids busy. And why aren’t these kids playing video games? That would keep them out of Mrs. Brainiac’s hair.

The worst part is all the questions they have. What if we use an extra rubber band? What if we angle it? How about if we make the fins longer? Shorter? More fins? Less fins? I have no idea! I’m not a scientist! But I am smart enough to let them figure it out themselves by trying it. And then when they figure it out and tell me, I smile knowingly as though I knew the answer all along and say, “There, now aren’t you glad you figured that out by yourself without me telling you the answer?”

Augh, the kids found me hiding behind the waste baskets writing this blog on my Ipad. “We want to make rockets, we want to make rockets.” Well, when do I get to make one of these rockets? I’m sure I can find a way to hit that top window they are all aiming for.