By Ken Shulman | Arts at MIT
One student confesses that motors have always freaked them out. Amy Huynh, a first-year student in the MIT Technology and Policy Program, says “I just didn’t respond to the way electrical engineering and coding is usually taught.”
Huynh and her fellow students found a different way to master coding and circuits during the Independent Activities Period course Introduction to Physical Computing for Artists — a class created by Student Art Association (SAA) instructor Timothy Lee and offered for the first time last January. During the four-week course, students learned to use circuits, wiring, motors, sensors, and displays by developing their own kinetic artworks.
“It’s a different approach to learning about art, and about circuits,” says Lee, who joined the SAA instructional staff last June after completing his MFA at Goldsmiths, University of London. “Some classes can push the technology too quickly. Here we try to take away the obstacles to learning, to create a collaborative environment, and to frame the technology in the broader concept of making an artwork. For many students, it’s a very effective way to learn.”
Lee graduated from Wesleyan University with three concurrent majors in neuroscience, biology, and studio art. “I didn’t have a lot of free time,” says Lee, who originally intended to attend medical school before deciding to follow his passion for making art. “But I benefited from studying both science and art. Just as I almost always benefited from learning from my peers. I draw on both of those experiences in designing and teaching this class.”
On this January evening, the third of four scheduled classes, Lee leads his students through an exercise to create an MVP — a minimum viable product of their art project. The MVP, he explains, serves as an artist’s proof of concept. “This is the smallest single unit that can demonstrate that your project is doable,” he says. “That you have the bare-minimum functioning hardware and software that shows your project can be scalable to your vision. Our work here is different from pure robotics or pure electronics. Here, the technology and the coding don’t need to be perfect. They need to support your aesthetic and conceptual goals. And here, these things can also be fun.”
Lee distributes various electronic items to the students according to their specific needs — wires, soldering irons, resistors, servo motors, and Arduino components. The students have already acquired a working knowledge of coding and the Arduino language in the first two class sessions. Sophomore Shua Cho is designing an evening gown bedecked with flowers that will open and close continuously. Her MVP is a cluster of three blossoms, mounted on a single post that, when raised and lowered, opens and closes the sewn blossoms. She asks Lee for help in attaching a servo motor — an electronic motor that alternates between 0, 90, and 180 degrees — to the post. Two other students, working on similar problems, immediately pull their chairs beside Cho and Lee to join the discussion.
The instructor suggests they observe the dynamics of an old-fashioned train locomotive wheel. One student calls up the image on their laptop. Then, as a group, they reach a solution for Cho — an assembly of wire and glue that will attach the servo engine to the central post, opening and closing the blossoms. It’s improvised, even inelegant. But it works, and proves that the project for the blossom-covered kinetic dress is viable.
“This is one of the things I love about MIT,” says aeronautical and astronautical engineering senior Hannah Munguia. Her project is a pair of hands that, when triggered by a motion sensor, will applaud when anyone walks by. “People raise their hand when they don’t understand something. And other people come to help. The students here trust each other, and are willing to collaborate.”
Cho, who enjoys exploring the intersection between fashion and engineering, discovered Lee’s work on Instagram long before she decided to enroll at MIT. “And now I have the chance to study with him,” says Cho, who works at Infinite — MIT’s fashion magazine — and takes classes in both mechanical engineering and design. “I find that having a creative project like this one, with a goal in mind, is the best way for me to learn. I feel like it reinforces my neural pathways, and I know it helps me retain information. I find myself walking down the street or in my room, thinking about possible solutions for this gown. It never feels like work.”
For Lee, who studied computational art during his master’s program, his course is already a successful experiment. He’d like to offer a full-length version of “Introduction to Physical Computing for Artists” during the school year. With 10 sessions instead of four, he says, students would be able to complete their projects, instead of stopping at an MVP.
“Prior to coming to MIT, I’d only taught at art institutions,” says Lee. “Here, I needed to revise my focus, to redefine the value of art education for students who most likely were not going to pursue art as a profession. For me, the new definition was selecting a group of skills that are necessary in making this type of art, but that can also be applied to other areas and fields. Skills like sensitivity to materials, tactile dexterity, and abstract thinking. Why not learn these skills in an atmosphere that is experimental, visually based, sometimes a little uncomfortable. And why not learn that you don’t need to be an artist to make art. You just have to be excited about it.”
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