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3D Printing: New Dimensions in Student Learning
- 1. 3D Printing: New Dimensions in Learning Heather Durnin & Marc Westra @hdurnin @marcwestra heatherdurnin.com Gr. 8 Teachers AMDSB, F.E. Madill S.S. Wingham, ON
- 2. Today’s Topics 1. Why 3D printing? 2. How it works 3. Beginnings 4. Successess 5. Struggles 6. Curriculum Links 7. Accessing a printer if you don’t have one 8. FAQ
- 3. 3D Impact on Agriculture
- 4. MakerBot and Robohand 3D Printing Mechanical Hands PrintAlive BioPrinter
- 5. Creating a new type of manipulative Abstract => Concrete $500 - $2 500
- 6. Coil of melted filament
- 8. "We are all born makers" Chris Anderson
- 11. “In our classrooms, the joys of learning should wash over student AND teacher.” Jeff Goldstein
- 18. Numerous Free Software Options: Sketchup, Autodesk 123D Design, Tinkercad, 3D Tin,
- 19. “Don’t wait until you’re an expert to introduce something.” Reid Wilson
- 20. David Hann, @TeacherHann Don Mills Middle School
- 21. Design in the Science Classroom
- 22. Bridging the Distance Made in Space
- 24. #beta = exercise your patience
- 27. ● International education workshop materials ● teaches creative problem solving using The Design Process and 3D technology City X Project
- 29. Design Process: Empathize Define Ideate Prototype Test Share
- 30. Design Process: Empathize, Define, Ideate, Prototype, Test, Share
- 31. Step 5: Test
- 32. Prototype #2
- 34. “Allow students to teach each other.” Reid Wilson 123D Design
- 36. Luke’s soil pot 1) created on 123D Design, 2) moved onto SD card via Makerware
- 37. City X Project Communities: 123dapp.com/gallery or tinkercad.com/things
- 39. 3D Communities: Autodesk 123D Projects Thingiverse
- 40. In our classrooms, a teacher passes a piece of themselves to the next generation, so our children may go where none have gone before. Jeff Goldstein
Editor's Notes
- Marc and I are 2 of the 3 gr. 8 teachers at F.E. Madill, a 7-12 school in the small town of Wingham, in the northern part of Huron Country. Our classes are on a rotary schedule. Marc and I both teach Language and Phys. Ed.; he teaches history and geography while I teach science. The 3 gr. 8 classrooms are “normal” classrooms in the fact that many of the students we teach have diverse learning needs.
- While we can never get through all we’ve learned in our first year regarding 3D printing, throughout our presentation, we’ll be touching on the following topics, leaving some time at the end for questions.
- I’m often asked why I am interested in 3D printers. Aside from teaching, I’m also a farmer who drives a combine at harvest. Innovation usually starts with a problem, and on our family farm, equipment repairs are a daily and expensive occurrence. Last fall, Farm Industry News published an article on how 3d printers can quickly and cost effectively print needed combine parts including augers and corn snouts. These parts are not only costly, but the time needed to travel to a dealer due to a breakdown and get back before it rains can lead to heavy financial losses. Imagine if we had a 3D printer in our farm shop? I was fascinated and from there my interest grew.
- Today’s news is filled with stories of the advantages 3D printers offer to health care as they are used to manufacture prosthetics. Recently, engineering students at the Univ. of Toronto built a 3D printer that produces skin grafts using the patients own cells. The uses are limited only by our imagination. 3D printing is changing industry and business as it transforms the areas of repair, prototyping, and niche item production. With the price of a printer becoming more affordable, it is now possible to introduce this technology to our students.
- 3D printing provide students with a new type of manipulative for use in almost any class; one that allows them to move between the abstract and concrete by designing and creating. Because the price of printers have dropped, it’s become more accessible. Printers can now be purchased for anywhere between $500 - $2500, and the options continue to expand as more companies get into the business. We have a Makerbot Replicator 2X which was purchased through Sculpture Supply in Toronto.
- A 3D printer builds solid, three-dimensional objects out of a coil of melted filament. After students design an object using one of the various free software options, the 3D design files are translated into instructions using Makerware software and sent to the machine via USB or SD Card. Filament, which comes in various materials, runs up the back of the machine into the extruders.
- The filament is fed into the extruder, heated to 230 C and laid down in layers to slowly build a solid object layer by layer from the bottom up. It’s a process similar to a mig welder or a tiny hot glue gun. The display on the machine lets you know how far along the build is, in terms of time and % of build. The object quickly cools and can be removed the build plate almost immediately after printing.
- In our relatively young teaching careers, we have noticed that our students come alive whenever they are presented with an opportunity to make something out of nothing. They are, as Chris Anderson quipped, “...born makers”, whether they cook, sew, or take photos. When asked on the year-end surveys, our students tell us time and time again that their favourite activities of their grade 8 year were making gingerbread cookies at Christmas, building catapults in the wood shop and creating layered jello models of cells.
- The education system of the past had students going to school for 20+ years to “Learn” a particular skill-set tied to one career (engineer, chef, lawyer). When their school careers were over, they went to work to “Do” - to practice what they had learned in preparation for their career. However, the problems we now face in the 21st century and beyond, require skills and a mindset that vastly differ from before. Our population of 7 + billion requires us to create new food systems; global warming is forcing us to think about how coastlines will be saved. The world that our graduates are entering requires them to have experienced a new kind of learning. An education in which learning is married with innovation. We need graduates who know how to do more than memorize facts. They need to learn how to discover - to think beyond what has been impossible in the past. But how is this learning achieved?
- This new type of learning builds on the foundational educational theories of Jean Piaget’s constructivism, Seymour Papert’s constructionism and the problem-based learning model. We are attempting to make our classrooms a place where, as Piaget taught, “knowledge is a consequence of experience”. It is through the doing that learning happens. We wondered, could the 3D printer take us and our students to the same place of student engagement as our catapults and gingerbread cookies? 3D printing is not just a niche technology. Even though it may not currently seem so, there’s great potential for 3D printing and computer aided design (CAD) to be hotly demanded skills that will revolutionize industries. In the same way that social media managers and mobile app programmers were far from being in demand or even existing 15 years ago, there’s no telling how 3D printing will manifest itself in future society. For that reason it is important that kids begin to learn the basics of this budding technology.
- We’ve discovered, first-hand that “kids have always made things, technology has the potential to supercharge learning.” And so our foray into 3D Printing began. A proposal was submitted AND - with special thanks to our forward-thinking Director Ted Dougherty - purchased. We began to witness successes as soon as the box was opened. First and foremost, TEACHERS ARE NO LONGER PURVEYORS OF KNOWLEDGE: Remember, we knew NOTHING about how to set up a 3D printer - we plunged head first, figuratively and literally into the box and started to set it up. Teachers no longer have a monopoly on knowledge. As teachers, we have moved from the front of the classroom to sitting in a desk beside our students and are participators in new learning. Three of our students took the lead from the very first day. They helped unpack the printer, found a youtube video with setup instructions and helped us solve the plethora of technical issues we’ve had since. There were other students - students who are middle of the road students in the usual paper-and-pencil activities - who, when given an opportunity to work in a technical environment, really came to the top of the class.
- Students took the lead in sharing their new knowledge with the many others within our school and the greater district. We have heard that the wait-time for some engineering students to access the 3D printer at their schools is up to a year. It’s not that way at FE! Our policy from the beginning has been accessible for many, not a few. As a 7-12 school, there are have been numerous others interested in utilizing the printer for various projects. Grade 11 and 12 students have borrowed the printer to complete projects in design class. We have had students from other schools coming in to use the printer as well, A gr. ⅘ class from another school used it to build bridges. When the grade 7 teachers discovered that the printer was available, they borrowed it for a number of weeks to experiment with their students. Within the first 7 months of having it running, 3 gr. 8 classes, high school kids, 3 gr. 7 classes, plus the ⅘ class = approx. 200 students
- A favourite education quote comes from W.B. Yeates, when he argued that, “Education is not the filling of a pail, but the lighting of a fire.” Our students know that the 3D printer is capable of printing toys such as model MInions from Despicable Me or Super Mario, or key chains. We needed them to understand that 3D printing technology is transforming the world - but not in 10 years - in the here and now. We needed to ignite a fire of curiosity in our students.
- To this end, the match and tinder came in the form of a presentation that challenged the students to research and present a real-world application of 3D printer to their peers. We asked them to find an online article/video that described the 5ws/How and who benefits of 3D printing technology. Our students found articles ranging from 3D printed orthotics which are a fraction of the cost of traditional orthotics, 3D printed drones being used in the military, 3D printed columns that can withstand earthquakes.
- As student and teacher learning developed, so did our fluency in new vocabulary. Words and phrases such as “Filament, build plate, stl files” frequently filtered into student discussions. Students continued to suggest words that needed to be added to our growing list as they took ownership of their learning.
- Students are very respectful and conscious of the cost associated with printing, and so they weighed and determined the price of several items based on a filament cost of $53/kg. This exercise tied in directly with their current math unit on rate and ratio. The cost to print most of their pieces ranged from 50 cents to just over $1.
- The time required to print each item they design is determined not only by the size but by the resolution or quality of the print, which can adjusted. On their own initiative, students decided to compare the quality and time of a detailed castle in high, medium and low resolution. Determining the cost and time required are important steps in the students’ introduction to 3D printing, particularly if you have a large number of students using the printer. The printer will be running throughout the day so it’s important students are conscious of print-time for each project.
- As mentioned earlier, students design an item using one of the various free software option before moving to the print stage. For those students who were choosing to spend their lunch hour in my classroom, I suggested they first play with Sketchup and AutoDesk 123D Design. I had no experience with either, but had read both were good options.
- These students quickly picked up how to use these programs, and willingly agreed to introduce Sketchup to 60 of their peers. And just like a good teacher does, they wrote an extension to their lesson by creating a model for the students to produce in the next lesson. For me, the most exciting piece of this experience is watching who becomes the “teachers”. We often see those “C” students who fly under the radar in the regular classroom, becoming the class experts as they reveal their love of learning in this context. As with any new undertaking, students had lots of questions. Who better to turn to than other students.
- Students from Donview Middle School skyped in from their wood shop class shared their experiences with Sketchup and 3D design. We were so envious of their workshop which they use on a daily basis. We continued to wonder, why was shop class ever taken away from the majority of elementary schools?
- As part of our gr. 8 science unit, students had built catapults in the high school wood shop. But these catapults were all identical. Now that the students were familiar the design software, they were challenged to apply what they had learned in their Mechanical Systems unit, and improve on the design, adding a part created on the 3D printer.
- It’s important the printer is accessible to others beyond our classroom. A gr. ⅘ teacher from Sprucedale Public School, was given release time to meet with me for ½ day in order to learn about the printer and software. Back in her classroom, she introduced her students to one of the simpler software options, Tinkercad, and they applied what they had learned in their science unit on Bridges as they designed their own bridge. Andrea emailed the files to me, we printed off the students’ work, and sent their bridges, some with their names on them as they had designed, back to them. This is a similar communication process used to manufacture 3D objects on the International Space Station. You can learn more about that process on the website, Made in Space. Many school and public libraries, along with some independently operated makerspaces, are offering the use of 3D printers for those without one of their own.
- While we hoped that the process of implementing the 3D printer in our classrooms would be full of gumdrops, rainbows, and kitties, this has not been the case. Unlike the photocopier, there are no 3D printer technicians employed by AMDSB - who is going to fix it if we break something? With a “we can handle anything” mindset, we plunged headlong into our new reality. There have been many valleys, storms and pitfalls along the way, though we are slowly moving upwards.
- For example, we were shipped the wrong type filament and it took two painstaking weeks to problem solve the issue. We inserted the ABS and were off to the races again. Since we’re running BETA-based 3D design software (123D Design), our students are experiencing frustrating glitches and unexpected freezing mid-way through their design process. It forces students to be constantly saving their work to make sure it doesn’t get lost after glitches.
- Thomas Pritchard, a recent CHSS graduate took part in SHAD - an engineering camp: his team developed a product called Evita to get rid of phantom power loads (a toaster, though not in use but still plugged in, is still drawing a tiny amount of power from the grid). This device will automatically disconnect that toaster from the grid and relieve phantom power loads. Through a family friend (who happens to be the Principal of our school), he contacted us to build a prototype on the printer.
- At the banquet on Oct. 23, Thomas’ team won several awards at the national competition including second place out of 15 projects from across the country for the prototype, first for their applications of scientific principles, and best overall out of all the projects, tied with UNB!
- Our most recent activity with our grade 8 students is the “City X Project”. City X Project is an initiative of IDEAco (The Coalition for Innovative Development, Education and Action), a nonprofit organization. IDEAco’s mission is to build and empower communities of Changemakers around the world.
- City X Project introduces students to the 6 step design process, the same process the 21st world the students will graduate into will demand they follow. This process helps students understand a challenge and the people it affects, generate possible solutions, develop a final product, and then share with the world.
- The first step involves learning what the printer can build, and they soon understand the answer - anything! The students are then assigned a real world problem in the context of a story with elements of gaming. We are able to walk young students through the process of invention through which they learn the value of empathy, understanding the people who are facing the challenge and the larger social issue to which their assigned problem relates such as healthcare, education etc.
- Once students have generated multiple ideas for solving the problem, they build a quick prototype based on their preferred idea.
- In the Test phase, students share their ideas with a partner. They learn that testing reveals what works, what doesn’t work, and how a prototype can be improved.
- As they move onto building prototype #2, students experience the relationship between failure and the overall success of an invention Once the final prototype has been created, students were introduced to the 3D software. This year, we decided to stay away from online programs like Tinkercad due to wifi issues we had last year when using the program, and start with Autodesk 123D Design.
- Riley and Jake, who taught the class Sketchup last year, were more than happy to be back in their gr. 8 classroom, firing up the printer and putting together a plan for teaching over 70 students.
- They spent half a day with our students, teaching them the basics of 123d Design and how to create a simple object. During that time, we quickly saw their successors emerging as they grasped the program and began to help their peers.
- You know the student is engaged and proud of their work when they capture images of their designs.
- Now the students were ready to design their clay prototype on the 3D printer. On day 5, after a 5 min. brush-up, students dove back into 123D Design, bringing their final prototype alive on the screen. Students are excited to see their design move from abstract to concrete.
- The final step has students sharing their designs in the City X Project online community found at 123dapp.com/gallery or tinkercad.com/things. Use Cityx as the search query. Many of these inventions are tagged with the global cities of the students who make them, and students will be able to learn how others around the world solved the same problem. Extension lessons, such as influence of culture, can be pursued.
- Learning about 3D printing with our students means we don’t always have the answer. We have decided to remove ourselves from the front of the class to sitting in a desk beside our students, becoming co-learners. In doing so, we work to create an environment in which any problem is solvable. Our students tinker, make, build, test, and refine. These are skills that will assist our students solve any problem they might face in their futures. The introduction of this technology into the classroom has the opportunity to take teacher and students into never-before-dreamed of heights.
- How do we know we’ve achieved success? The first way we know is when we hear “I LOVE LANGUAGE CLASS” from a student who normally struggles with a conventional Language Arts program. The cycle of success and confidence is rejuvenated as this students begins to believe in themselves and their skills as a student. Since students talk about what they are excited about, we now hearing them excitedly sharing their projects with their peers - not in the classroom - but on the yard at recess.
- To be sure, technology should not and cannot replace tried and tested sound teaching practices. There are those who might wonder, “where is the curriculum in all of this 3D designing?” We have gone to great lengths to ensure that our projects are tied directly to the curriculum. Our students are still reading and writing, learning about the roles and function of the organelles in cells in Science, and about settlement patterns in Geography. However, we strongly believe that the 3D printer has the capacity to take us to a new level of thinking with our students.
- Rather than rushing through the curricular demands, we have slowed down our program delivery in order to become more in line with Stager, who has argued that our students simply need a supportive environment to tinker with an idea long enough to make it work. Allowing kids to deeply engage with a project they are passionate about also helps produce more positive memories of school, Stager said. “The reason the Maker Movement is so exciting is it can re-energize the classroom and it can make high quality memories of education.” It’s the getting out of the desk and getting our hands dirty that we remember from our student-days. We hope that through the use of the 3D printer we are able to offer a program that is innovative, preparing our students to solve real problems with never-before thought of innovations.