Inspired by Calculus – Objects of Revolution: Mondays Math Circle Week 1
What does calculus for young kids look like? And what can kids do with calculus? These are the questions we get a lot. So over the next 5 weeks we will be publishing a series of “Inspired by Calculus” posts. These are notes from a local math circle for 7-11 year olds, led by Maria Droujkova. Do try these activities at home by yourself (good), with your child (better) or invite some friends over (the best). If you do, please share your experience with us. As always, we welcome your questions and comments.
First Meeting – Objects of Revolution
Calculus studies ways big things are made of little things. For example, some surfaces can be made out of infinitely many copies of the same line, rotated in space. A solid object can be assembled out of infinitely many infinitely thin slices.
The idea of infinity (of large things or tiny things) is fascinating to many children. In this respect, two small mirrors taped together, the set up known as a “mirror book”, are a gift that keeps on giving. Place a toy, or your fingers, or your nose inside the mirror book, and start closing the pages. What happens? Can you get to infinity this way? Hint 1: imagine the gap between pages getting smaller and smaller – infinitely small! Hint 2: use more than one mirror book.
One of the ways to notice infinity is to look at solids and surfaces of revolution. And the best way to understand what they are is by making them. But how? If you worked with a wood lathe, a pottery wheel, or an ice cream scoop, you are already familiar with the idea. But if not, we suggest playing with String Spin.
Maria demonstrated it to the children first. She then showed a triangular prism and asked if it could modeled in String Spin.
Maria chose to start with a tricky object because children respond to trick questions in a more active and engaged way. This design choice, just like starting with a more straightforward example, has its own pros and cons.
The trick question achieved its goal: a lively discussion followed with children coming up with ideas about how to draw the lines so that when they spin, they would make a prism. Someone suggested to draw three lines like three sides of a rectangle. Maria modeled; nope, no prism, but a nice cylinder. Someone else suggested to draw just one line. Sure, let’s try this. Nope, no prism. Someone suggested using two lines like the two sides of a triangle. But this too did not make a prism. After a few more attempts, most kids decided that they could not make a prism by rotating a line around an axis, and the rest decided to experiment more at home.
Once in a while, pose problems that have no solutions, or ask for counter-examples. In a friendly and playful group, these tasks reduce math anxiety (after all, we are looking for “wrong” answers on purpose) and increase analytic thinking.
Then it was time for some paper modeling. One way to define a body of revolution is by starting with a slice, and “integrating” that slice around the middle line – “the stem of the apple” as Oviya explained. The process is simple for kids to follow yet does not limit their creativity and free play. At the end of the circle there was a lovely collection of paper models of all shapes and sizes.
At first the kids would draw lines with an idea “to see what happens”. After 2-4 models done in this free play mode, they started digging deeper. Some tried to start with a specific shape, for example the Olympic rings, to see what happens to it as it’s turned into an object of revolution. Others tried to figure out what shape to cut out for the end result to look a certain way, say, like a pear.
After a while of playing with these “bookform” models, Maria asked this question: “What if we had a thick book with very many pages and we opened it like we did the models. What shape would it make?”
Surprisingly (or not), the first few suggestions were, “It would make a prism!” After a bit more thinking and experimenting, some kids decided it would make a cylinder and the rest of the kids agreed. What happened here? Didn’t they just spend half an hour trying it out?
Infinity is an abstraction. Young kids can explore abstract ideas through grounding metaphors: stories or objects that form a bridge from a concrete physical experience to abstractions. That’s why children are so successful at discovering and recognizing infinity in the mirror books or in the String Spin, yet have a difficulty when asked about a book with infinitely many pages.
From calculus point of view, some models make it easier to “integrate” (make big things out of small pieces) and other models make it easier to “differentiate” (take big things apart into small pieces). In all models, navigating between these two opposite operations is complex and challenging. Bookform models we made had so few slices, that kids have hard time imagining all the wedges between, and integrating this vision into a 3D object. Next week, we will work with other slicing (“differentiating”) models to move farther along that road.
We started on another model: making circles out of snowflake-folded papers. Or rather, making circles out of triangles (“integrating” triangles around the center). Of course, they are really many-sided polygons and not circles, but, as engineers say, “close enough for all practical purposes.” Such as making stylish hats. The idea that you can approximate a circle with triangles, and the method of doing so with paper, is powerful mathematically – and led to much free play.
So let’s see what happened in that hour. Several kids and their moms got together, played with mirrors, cut shapes out of paper, thought about how some objects can be made out of a string that spins around an axis and some other objects can’t; and how familiar shapes look very different if you rotate them many many times around an axis.
How far can the kids get from free play with slices to integration and differentiation? Next week we’ll post the notes from the math circle’s second meeting.
Posted in Grow
Book Update – Now Shipping
Last Monday, just 7 days ago, two things happened. Our area of North Carolina got hit with a late winter storm (hopefully, the last one for the season) and Maria Droujkova’s interview appeared in The Atlantic. Guess which of these two events had a greater effect on us. Hint: it wasn’t the storm.
The Article
So, first, the great news. The article was widely shared and discussed online. The comments we read, whether on The Atlantic’s site, on Reddit, YCombinator, Facebook, Twitter, Google+, and in other communities, these comments were terrific. So many touching stories were shared; so many important questions were asked; so many ideas were voiced!
Many of the readers visited our website. Many downloaded the PDF and Kindle versions of our book, Moebius Noodles. Perhaps you already started to read, or tried an activity or two. When you get a chance, please share your thoughts (and maybe even pictures) with us. You can do so by posting to our Facebook page, commenting here on the blog, or e-mailing us at moby@moebiusnoodles.com.
If you downloaded a copy of the book, you might be wondering what you should be doing next. Our book is not a curriculum. It does not have a schedule or a must-follow progression for doing any of the activities. We realize it can be a bit disorienting and we are here to help. So we put some suggestions in the “What Comes Next?” section of this post.
Now Shipping!
Many of you have ordered a paper copy of the book either directly at our site or at Amazon.com. We are overwhelmed at such a response, both emotionally and in a very physical sense. So here’s what’s going on with the paper book orders and why.
A couple of years ago, as we were writing the book, we agreed on keeping it open and available to all. To achieve it, we decided to offer PDF downloads as name-your-own-price and become our own shipping and handling department for the paper copies (to keep their price low). This worked fine when we were getting a trickle of orders. But since last week we got flooded with book orders. And sending out lots and lots of books in a short period of time presents unique challenges.
But, after spending a few days packing all the orders, signing all the thank you notes, and taping down all the shipping labels, we are caught up and the books are on their way.
We estimate that, given no freaky weather, most of the books sent to the addresses in the US should get to you by the end of the week. It will take a bit longer for the international buyers, including all our friends in Canada. If you don’t get your order in the next 10-14 business days, drop us a line at moby@moebiusnoodles.com.
What Comes Next?
As we have mentioned, we are jumping for joy from the discussions that followed the article and from all the questions and comments we continue to receive. Many touch up on very important topics – research into cognitive development, pathways to mathematical fluency, need for passionate teachers and math circle leaders, to name a few. We’d like to answer them all as soon as we’re done with the shipping the books.
And as we have also mentioned, we expect a lot of “ok, I have your book, now help me get oriented and get started” questions. And we also expect many “Book or no book, how and where do I get started” questions.
That’s why we have the Ask Forum at the ready. Ask away and we will help you out. Aside from our sage guidance, you will also be able to benefit from advice and insight of some of the most knowledgeable and friendliest folks with a deep interest and passion in early math education – mathematicians, mathematics educators, and math circle leaders.
If you are not sure what to ask, you can just browse or add your voice to an already-existing discussion, for example
Is instant recall of math facts important? If it is, how to help children develop fluency?
How and when to move from mathematical free play to a more formal math work?
Which math concepts are easier for young children to understand?
How can adults start developing appreciation of mathematics?
If you want to talk by email, write to moby@moebiusnoodles.com any time!
Posted in Newsletter
“5-Year-Olds Can Learn Calculus” interview at The Atlantic blog
About Natural Math, early calculus, and the role of free play in learning. An interview by Luba Vangelova.
“You can take any branch of mathematics and find things that are both complex and easy in it,” Droujkova says. “My quest, with several colleagues around the world, is to take the treasure of mathematics and find the accessible ways into all of it.”
It will be interesting to see how this discussion develops!
Pose your questions about early advanced math, free play, or math circles at our Q&A hub.
Update: the discussion develops, with many interesting points in comments.
- r/math Reddit community
- Ycombinator Hacker News
- Slashdot News for Nerds
- Globe and Mail follow-up interview (Canadian newspaper)
- Full translation of the article by RIA (Russian News and Information Agency)
- A shortened translation into Japanese (GigaZine)
- The Times – Picayune
- BoingBoing
Posted in Grow
Play Power
This post originally appeared on my personal blog on May 21, 2012. At the end of this post you will find a question related to the following story–I would love to hear your thoughts, ideas and responses. –Malke
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Although I know it already, it never ceases to surprise me just how true it is.
Learners of all ages need the opportunity to experiment with a new medium before putting it to its more formal or expected use. Often this kind of activity is called ‘playing around’ which I have often perceive as a derogatory term in relation to learning. But, in my experience, if you observe children at play long enough and really pay attention you will be astounded by the myriad of ways they are representing their knowledge, understanding and mastery of a subject. Play and exploration are not wasted time. In fact, I think it is exactly the kind of activity that builds the foundation of real understanding.
Here is a case in point from a Math by Design Family Night. Having finally found success using straws and pipe cleaners as a math toy and building material with my own six year old, I decided to include it in the Family Night for the first time. I made some models of polygons and polyhedra, gave the station volunteer a quick orientation, and left the materials to be discovered.
Immediately, it was the most popular station of the eight offered that night. As the children descended, the adults followed, providing lots of helpful advice and some modeling…
…which the kids politely and assiduously ignored as they confidently forged ahead.
This initial inclination to explore the materials on their own terms was fortified by the fact that this was not officially ‘school time’. There was no pressure to do things ‘right’, or follow the rules, or learn and use proper technique.
As a result, most kids cheerfully ignored the formula for folding a pipe cleaner in half and making a nice right angle before inserting it as a connector between two straws, and instead found their own twisty or unequal ways to make it work.
Most also ignored the nice models I had made and created their own. They were having a grand time ‘playing around’ when I noticed something amazing happening. After a very focused exploration period, they started discovering the rules on their own!
This little one, two years old according to her brother who sat beside her, had been methodically putting pipe cleaners into the straws, one after another. It looked like a little gallery of Q-tips, someone joked.
She was working on her own. She must have been at it for thirty minutes and then…she started connecting straws together!
Voila! A hexagon. No one, I suspect, expected much out of a girl so young. And yet, there she was discovering the materials and watching others around her, ultimately creating something for herself. I’d wager that if someone had insisted on sitting her down and showing her how to make a hexagon, she might have been less interested, engaged, focused and, ultimately, successful. Children much older also experienced this same progression.
Throughout the evening, kids kept coming up to me wanting to know if they could have the dodecahedron I made as model for the night. Sort of like a door prize? I said, “Well, no, that one’s mine. But you could make your own!”
Only one girl decided to make one for herself; she also really wanted me to sit next to her while she figured it out. I provided moral support for about five minutes, and then had to ‘go do something…’ A few minutes later, she came and found me with a question and, still later, enlisted support from another adult so she could finally finish it. But you know what? She did all the work, she just needed help ‘seeing’ the structure and pattern. If we had had more time she and I could have talked how to make all the angles congruent so it would be more regular but, still…what a prize!
So, what kind of learning was happening during all this ‘playing’?
I heard a teacher mention that this activity reinforced the learning they were doing in class about corners and sides. Yes, and so much more.
The side of the shape becomes a shared edge. You only need one straw for each edge. The more you build on to your initial shape, the more this aspect of intersection and sharing is apparent. A vertex can be created from the intersection of two, three, sometimes even five different lines/edges.
Depending on what polygon or polyhedron you’re making, the pipe cleaners need to be bent at different angles. An equilateral triangle’s angles are different from a square’s which are different yet again when you create a hexagon, or a pentagon. These are properties you might not truly understand unless you had to make them yourself. And, when every angle in a shape has to be the same, and you’re the one who has to make them that way, you truly build a new understanding of ‘sameness’.
All in all, a good evening’s work. I think my new definition of success is when my project idea is just the starting point and, over the course of the ‘lesson’ not only do multiple right answers emerge but the children are satisfied with their efforts. If the resulting mess is any indication, I’d say it was an entirely satisfying evening.
You can answer the question “How do you transition from playing math to more formal math activities/lessons?” here or on the Moebius Noodles Question & Answer Hub. Thank you in advance for sharing your thoughts and ideas!
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Malke Rosenfeld is a percussive dance teaching artist who blogs about her experiences at the intersection of math, the arts, and learning at The Map is Not the Territory.
Posted in Grow
