by James Wallace Harris, Monday, February 20, 2017
For the first two-thirds of my life sense of wonder mostly came from science fiction, but in the last third science is supplying more wonder. I have theories as to why. First, aging is making me more fascinated with reality. Second, I’ve lived long enough to feel the real world is science fictional. For example, my science fiction book club is reading Little Fuzzy by H. Beam Piper, a 1962 novel about the discovery of cute creatures on a distant planet that might be sapient. As a kid in the 1960s, that was an exciting idea. But in 2017 we know animals are far more intelligent than we thought and in ways far more exciting than an old science fiction novel. Learning how and why has a great sense of wonder.
The dimensions of sapient behavior have become far more fantastic than fiction, including old stories about robots. For example, The Door Into Summer by Robert A. Heinlein, published in 1957, and first read by me in 1964. Heinlein’s character Dan Davis built household robots – which dazzled me back then. But today I could build my own robot with a Raspberry Pi kit, producing a completely different kind of sense of wonder. I could also download open source machine learning toolkits. This era of Makers and DIY produces a different kind of wonder. Science fiction is great, but I believe I would now give a kid a subscription to Make Magazine before telling her to read science fiction.
More and more when I watch a great documentary I want to know the details about how things are actually done. I don’t want to just be an observer. Last night I watched a wonderful episode of NOVA on PBS that has more sense of wonder than any science fiction novel I can remember reading in a very long time.
It was about origami.
Origami?
Yes, origami. You know, paper cranes…
It was titled “The Origami Revolution” – about how the art of folding paper has inspired scientists, mathematicians, and engineers. The producers completely blew me away. Origami is a fascinating craft, even an art form, but not one I ever paid much attention to. The program began by reporting the latest developments in the art, which go way beyond making simple paper cranes. Using a single sheet of paper, it’s possible to make very elaborate 3D shapes by just folding paper (and without cutting).
Cranes are simple, requiring about thirty folds. Modern advanced origami art like above requires hundreds of folds involving very complex geometry. This is where the excitement started for me – because they brought in mathematics. The program introduced Erik Demaine, showing him working on a 60-page mathematical algorithm with Tomohiro Tachi for computerized origami folding. Can you imagine the mathematics of creating the above work of origami? I can’t, but I wish I could. Tachi has developed a software program Origamizer that the two of them hope will eventually be able to create any 3D figure from a 2D piece of paper. Their theorem should prove it’s possible.
“The Origami Revolution” then goes on to survey wide-ranging work in biology, genetics, chemistry, physics, astronomy that have been influenced by what we’re learning from folding. This has been happening for decades, so I feel a little left behind. The program generated a tremendous sense of wonder in me, probably because this new research offers so much far-out potential, including building robots and spacecraft, and even claiming that dark matter theoretically reveals folded shapes in the structure of the universe.
Here’s a 2008 TED Talks by Robert Lang which give more details than the episode of NOVA, including some examples that are more impressive than shown in the TV show. Follow the link in his name to his website for even more information.
Understanding how modeling 3D structures from a 2D source teaches us about nature, because once the mathematics of folding were revealed scientists began seeing folding in nature, including plants, insects, and even the cosmos. From there it goes into applied engineered structures.
(This isn’t folding per se, but I think it’s related. See SmartFlower Solar.)
If you watch “The Origami Revolution” count all the far out bits of technology. You’ll realize that many of them were never discussed in science fiction. When I was young, I thought science fiction explored ahead of science, but after all these decades I’ve learned something different. Science fiction trails science. This show could inspire countless science fiction stories. Even while watching the TV show I imagined other folks seeing it and thinking up science fiction stories as they watched. They will magnify the demonstrated concepts, extrapolate, speculate, imagine, and come up with possible future scenarios to dramatize. I’m sure they will create far-out tales.
But I think getting older is making me both more patient and less patient. I’m becoming impatient with fiction. It’s easier to skim over the drama, and just zero in on the current science. Now that I’m retired, I have more time to fool around with tech toys. I spend less time reading about imaginary futures, and more time trying to figure the details of now.
You can also watch the full episode of “The Origami Revolution” on YouTube.
JWH
