So as we've seen, dynamical systems are capable of producing chaotic behavior; aperiodic, unpredictable, irregular outcomes. But there's a lot more in the world than just chaos; than just unpredictability. And happily so. There's patterns, there's structure, there's organization - yes and chaos, and randomness, and unpredictability, and the butterfly too, but the world around us is a really interesting mix of patterns and irregularities. We might ask: how do these patterns emerge, where do they come from, how do they form? Since many of them seem to be formed without any design or with any direction. Where in Newton's laws - the basic laws of electromagnetism, Maxwell's equations... the world is fundamentally made up of simple particles - how do we produce these incredibly complex phenomena like you and me and all of our surroundings? And so, dynamical systems, I think, doesn't answer that question of course, but sheds some light on it because it says that iterated systems like these iterated functions or dynamical systems like differential equations or the partial differential equations that we studied in this unit - that active repetition, of feedback on itself, of doing the same thing over and over again has some surprising creativity built into it. That that active repitition you can take a simple process and simple ingredients and get things out that maybe aren't so simple. So maybe this can begin to shed light, or is important intuition and realization, as we think about the patterns and structures around us and how they might arise. Let me give a few examples to illustrate what I mean by patterns emerging without direction. So, the first example is the building in which my office is in at College of the Atlantic. It's a building known as "The Turrets" because it has lots of turrets on it. And this building was designed, like most buildings. Somebody designed it, in fact I know who it was...I didn't know him personally, it was a long time ago. Bruce Pryce was the architect of this building here in Maine. Apparently he is a famous architect. He built Le Chateau Frontenac, the Hotel Frontenac in Quebec City, a very famous landmark hotel that if you've ever traveled there, you've surely seen. It's a big hotel on the bluff. So The Turrets, it's a complex structure, it's patterned, it's a great building; a beautiful old building, my office is the second window on the left there. It's a great location. This is certainly a pattern - some sort of structure. My office...well my office is chaos...the building is not chaos though. And it's not that surprising because somebody built this to not be chaos. On the other hand, if you look outside of my office window and you crane your neck just a little built or turn around from where that picture of turrets was, you'll see this tree. It's a Copper Beech tree, and it's just this amazingly beautiful tree, I don't know how old it is, I don't think they're native to here. In the summer they have almost purple leaves - it's copper, they're darker than usual leaves, but the structure of the tree in the snow which is sort of what it looks like now, because it's been snowing for months and months, is this amazing structure. Again, you would look at this tree and you wouldn't say chaos - yes there's some irregularity. So who made the tree? That's a little less clear. It wasn't designed by an architect the way the building was. There may be some designs in DNA, but there even then it's more of an organic process - something that, as the tree is growing, the tree probably isn't checking some master plans; some blueprints. As The Turrets as it was being built, somebody as they were putting bricks together was checking blueprints or a master plan. So, here's an example, the tree, a pattern that, in a sense, wasn't built the way my office building was. Here's another example. These are altostratus clouds. These pictures are from a friend and colleague, Sarah Hall, who teaches geology here at College of the Atlantic. She took this picture and one can see nice structure, in fact Sarah tells me these are from convection rolls up in the atmosphere where the clouds are and they form these structures. So again, you might ask "well who made this?" That question seems almost silly I hope. Nobody made those clouds, the clouds just did there own thing and they're not thinking about patterns at all, they're just obeying the simple laws of physics just like the reaction-diffusion equations obey the simple laws of physics that we write down, or simple laws of chemistry, and we get these patterns in a reaction-diffusion system not that different from these patterns that we see in clouds. So here, it is a case of clear self-organization. It's not organization from above; the cloud is not referring to any almanac of clouds, or master plan, or cloud blueprint. It's just doing it's own thing, following the laws of physics, differential equations, and iterating itself, and these patterns emerge; they appear. One last example, College of the Atlantic is right next to Acadia National Park which has Cadillac Mountain, which is actually not a mountain by most standards. It's not that tall, but they view from it is still amazing. This is a view from atop Cadillac Mountain. The College...I don't think you can see it in this picture, but it's down on the coast. But again, you would look out at this landscape and say, "well who made that?" And again, it seems like sort of a silly question. All sorts of geological processes made the coast and the coast looking off to another peninsula, and then there are a bunch of islands, and one can see if you look carefully, a swamp area with a little bit of a wandering stream. Anyway, so all of this pattern...you wouldn't look at this and say "oh it's just chaos". All of this pattern and structure must come from somewhere. Dynamical systems suggests that not that patterns are easy to make, but maybe some patterns actually are easy to make, and that they can just arise on their own without a designer or a master plan. So I guess one lesson I would take from this is as follows. If, in the study of complex systems, we see some sort of patterned or structured outcome or behavior, maybe in a biological system or a social system, our impulse might be to ask, especially in a social system, "who built that, who did that, who made that, why is that happening", assuming that there is some kind of purpose or design. And indeed it could be that there was some intentionality... whatever the system is, some social system... in producing that outcome. But the study of dynamical systems points out, that one can also get structured or patterned outcome without any design, or purpose, or intentionality. Things can self-organize. Sometimes we can get order, or patterns, or structures for free. So again, one of the themes of the course - is that simple iterated systems/simple dynamical systems, do not necessarily have simple behavior. Deterministic systems can behave unpredictably and aperiodically and simple systems can also produce patterns and outcomes of surprising richness and complexity. So this brings us to the end of unit 9 and it's almost the end of the course. In unit 10, which will be the last unit, I'll summarize some of what we've covered so far and try to draw some conclusions and pull together some themes. As part of this, I'll conduct a few interviews with other researchers and teachers in the areas of dynamical systems and chaos to get some different perspectives and draw out some ideas. So we'll see you next week in unit 10.