During my eight-plus years of teaching students in a makerspace-style environment, Iย have witnessed first-hand a surge of interest in problem-based curriculum from both ourย youth and their parents due to its ability to engage students and to help them retainย the knowledge.
This is why the marriage between the classroom and the makerspace is so potent. Itย fills the gap between classroom theory and the physical world. Historically, sparseย classroom budgets have been the root cause for a lack of modern equipment in theย classroom. This made sense, of course, when an entry-level 3D printer could cost moreย then $20,000. Now, a derivative of the technology can be purchased with the proceeds ofย a single bake sale, or even through parent donation.
The beauty of the makerspace is its ability to not only inspire students, but toย accelerate their knowledge intake through exciting and imaginative curricular application.ย In order to facilitate this, schools need to consider the design constraints imposed by makerspace equipment and how it might affect classroom layout.
There are two ways that a makerspace can be integrated into your school: either asย part of the existing classroom environment or as an entity unto itself. While each presentย different challenges, each can be profoundly effective in assisting and inspiring students.
Classroom Environment
As part of the classroom environment, the makerspace mentality and equipment canย be instrumental to the success of the curriculum and engagement of the students.ย Students embrace the responsibility of using technical equipment, and when they seeย the potential this equipment provides, their excitement helps motivate their peers.
The decision to merge Makerspace and classroom should extend department-wide,ย as it helps to improve knowledge retention among students. This idea of โverticalย articulationโ applies typically to curriculum, yet is just as effective when working withย equipment.
For example, students are educated and conditioned to use calculators in theirย math classes. When they leave class and go to a science course that needs them to solveย an equation, chances are they are going to reach for that calculator. If every classroomย had a 3D printer, they would reach for that, too.
The benefits that makerspace technology can afford the classroom environment isย astounding. One of the largest hiccups that has prevented innovative exploration in theย classroom is the presence of standardized curriculum. With the help of makerspaceย technology, innovation and imagination can now supplement and support theย standardized curriculum, making the classroom more exciting and engaging forย student and teacher alike.
Most classrooms integrate the idea of a โlabโ or โactivityโ that takes the studentsย away from the books and requires them to apply the concept in a physical manner. Thisย allocated time is optimal for the education and integration of makerspace technology.
Here are potential content areas where makerspace equipment could benefitย the classroom environment:
โข Science: makerspace technology can be used to assist in the physical modeling andย assembly of chemical compounds, cell and bone structures, and in developing anย understanding of how data is acquired and analyzed.
โข Technology and Engineering: Makerspace technology can supplement a wide arrayย of projects that would normally require multi-thousand-dollar machines. It directly tiesย into courses that focus on architecture, design and manufacturing, robotics, industrial andย mechanical engineering, electronics, and virtually all other technology education and engineering curriculum.
โข Art: Makerspace technology can provide a medium for a large number of artisticย projects. This can include modeling, photography, computer-controlled art, light andย sound, and so on.
โข Mathematics: Makerspace technology can help illustrate many mathematicalย concepts through the production of physical objects. Equations and their relationships canย be physically constructed, altered and computed all within the classroom.
Standalone Makerspace
In the event that the makerspace cannot coexist with the classroom environment, itย might function better as an entity unto itself. This standalone makerspace can serve as aย โgo-toโ resource for individual classrooms and student projects alike. As makerspaceย equipment can be implemented into areas with relatively large space constraints, the repurposingย of a small classroom or teacher workroom can make the decision a breeze.
With any workshop environment, it is important to clearly define the person in chargeย of the materials and equipment, as well as the spaces limitations. This supervisor,ย whether it be teacher or otherwise, is solely responsible for the spaces maintenance andย upkeep, as classrooms depend on the resources.
As you can imagine, a situation where multiple classrooms are dependent on a singleย Makerspace ends up in a scheduling and resource nightmare. Compounded with the needย for students to be directly involved with the equipment’s use, it is important to ensureย that this space can in fact support the classrooms that depend on it. It isnโt fair to bring 35ย students into a small Makerspace and expect them to all get a chance to use theย equipment. This is why it is so important to understand the Makerspace’s limitations inย order for it to succeed.
Aside from operating as a classroom resource, the makerspace can serve as a resourceย for individual student projects and initiatives. Depending on your schoolโs schedule, thereย is often time where students are not required to be in class. For example: during lunch,ย before or after school, or during designated club/activity time. It can also provide aย manufacturing resource for student organizations like TSA, FIRST LEGO, FIRSTย Robotics, and Odyssey of the Mind.
Adam Kemp directs the Energy Systems Research Laboratory at Thomas Jefferson High School for Science and Technology and is active in the Maker community. His first book, The Makerspace Workbench, is a compilation of years of experience designing and creating both inside and outside the classroom. You can also find Adam on Adafruit Industries’ blog, “Ask an Educator.”
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