Monday, September 28, 2015

Does "center" always mean "half"?

I'm spending the next couple months trying out some new non-dance, moving- and body-scale math lessons for my new book.  There's an activity in Mathematics Their Way (from the '70s) that I want to try out.

The lesson is ostensibly about using your whole, moving body to find the "middle" or the "center" of a space that you can't fold. I was thinking I'd start my version of the lesson by asking first and second graders "What is half?" I planned to give them a piece of 8 1/2" x 11" paper and see what they come up with.

Except, as I was getting the materials ready today I noticed some paper cut into big triangles. I took one up to my 10yo who was doing her homework. I asked her to fold it in half. This is what she did.


 Then I asked her to fold it into half again. The image below illustrates what she was doing for a split second before she said..."ah...no..."


At which point she said, "I can't fold it into half that way. But I can fold it into fourths."


I tried to get her to tell me how she knew when she had folded it in half, but she wasn't interested in talking. But it did make me wonder how I might fold this triangle into eighths.


Then I thought: Wait a minute! We've folded this triangle into eight one-eighths and still haven't found its center/middle. Or, well, maybe we did on the first fold ... but maybe there's another center we haven't yet found?

I love it when what I think I know is challenged. We need to do this for our students on a regular basis.

And, I'm rethinking my lesson for tomorrow. I'll focus on the language of "middle" or "center" and use rectangular and triangular paper. But "half"?  Half I'll save for another time.

Tuesday, September 22, 2015

Swimming toward Specificity: Understanding Pattern Properties

Today's work was to make a four-beat Pattern A. I structure each day/"lesson" as an activity progression with planned pauses to discuss certain key points of the math/dance making.  Today I recorded two similar moments, in two different classes, in the process of making Pattern A. When I transcribed the conversations this afternoon what struck me was how differently they unfolded. 

LESSON SUMMARY: My goal on the second day of my residency is to end the class with every team having a Pattern A they can dance the same way with their partner. We do this by watching individual teams demonstrate their patterns and then talking about what we see/notice about the pattern. This ideally means talking about the pattern properties that reside within the three different categories that build our patterns (movement, foot position and direction). Yesterday's notices made me think that the categories made sense to most kids. At the beginning of each class today we reviewed "what do we use to make our patterns" but when we started looking at the Pattern As I realized that though both groups were making nice patterns, both groups still didn't quite "get" what they were looking at in others' work.

The first story illustrates what it looks/feels like to work with a class that has a sense of what dancing "the same" might mean but is very far away from saying exactly what is the same (maybe the equivalent to van Hiele Level 1?)

The second story illustrates a class that is still learning how to interact with the movement variables but has what seems like a more flexible understanding the relationship between the categories and the properties within those categories (van Hiele Level 1.5?)

NOTE: In the two stories below my words are italicized, and the kids' responses are bolded. In both conversations many children contributed, I just haven't specifically noted change of speaker here.

-------------------

CLASS #1: Swimming Upstream

Let’s say what we noticed about that pattern (that the demo team just danced).  Kid:They’re both doing the same thing and they’re not off beat.

Okay, so by “same” do you mean same tempo? Did you mean same in any other way? (To class): [First kid] was seeing same in the tempo, the same speed. What else did you notice about their pattern? Let’s watch it again. That they’ve got a really good rhythm, like how they do it.

So we’ve talked about the tempo. What else did you notice? That they were doing it together they weren’t like one person wasn’t doing different things they were all together.

Okay, so “all together”  What does it mean? People were saying they were dancing together. So what does it mean to be "all together"? What words will help us describe a pattern that is "all together"? What kinds of things can we identify?  [Kids start picking words kinda randomly from our word board] Ooh! Symmetry. Interesting. But what have we been talking about how the patterns have been made? What kinds of things are we using to build our patterns that we could also use to say if a pattern was being danced the same or not?

Ummm. TransformNo…we haven’t actually talked about that yet. Reflect or…

You know, I've been spending most of my time when I’m up at the front of the classroom, near these posters.  This is the information that I’d like you to think about. What kind of words on these posters might help you describe these patterns? 
[Long pause] Movements? 

Yeah! [talking to the demo team] Did you guys do mostly jumps? Were the jumps the same on every beat.?[bringing the demo team back up to the ] Let’s say jump for each beat while they dance…Now there was another movement in there.  Look up at the list. The category of movement has a lot of movement words. Turn?

Turn! Right, let’s say jump, jump, jump, jump/turn. And how far did they turn? If they went from front to back? 180!

Now, let’s look at their foot positions. Let’s do it slowly. We can also describe the sameness of their dance by looking at their foot positions.  Right now they’re together. Do the first beat and stop. Is that split, together, right, left or cross? Split.

So let’s see their second beat. Ready, go. What are their feet doing now? Split. Where’s their third beat? Split. 

Good! You’re staying in this category of foot position…And where’s the fourth beat? Split! Did they do 4 splits?  My goodness. Let’s watch this pattern one more time and let’s talk about their direction.  So their beat zero is where? Center.  So first beat the direction is what? Diagonal.

Thank you! Is it a right diagonal or a left diagonal do you think? Right. Now let’s look at the next direction. They went to the…side. 

The right side!  And now the third direction? It looks like they went to a different kind of side with their feet to the right and left. Give them a round of applause! So what I’d like you to do right now is go back to your work with your partner and we need to make sure that everyone has the same pattern as their partner. You’re working together. 

-------------------

CLASS #2: Swimming Downstream
So what do you notice about this pattern? Let’s watch it one more time and see if you can come up with some words that can help us understand what you see in the pattern. What did you notice about that?  [inaudible] So you noticed a type of foot position which wasa cross. Okay let’s watch again and notice other foot positions.  

Tell me more about what you noticed? They really liked corners. 

(giggles from all the kids) What else could we be noticing? 

Okay before we watch this tell me what else we could be noticing? We noticed their starting position, we noticed that their feet were crossed at one point. What else could we notice? Feet?  Their left. Well, my right. 

So right now we’ve been talking about feet? What other CATEGORY could we notice while they’re moving?  

Step? They stepped backward? Yeah, but which category is that? Movement?

So let’s look at their movements...impromptu chorus of kid voices: Step, cross…


Well , what category does cross belong to?  Feet.


While we’re looking at the pattern let’s find words that describe what it is we’re seeing? They start with feet together.  Where are they?  Center center.

So if we’re looking at movements let’s see if we can figure that out. Step, step, jump, jump/cross…

We don’t say cross because we’re only looking at one category at a time. But this is challenging, I know that. So let’s say those movement words again. Step step jump jump.


Now let’s look at directions. They start in center and let’s do the first beat and stop. The first beat is where? Back left corner.


Where’s the second beat? Back right corner.


And where’s the third beat? Center.


And where’s the last beat? Front corners…


Me trying to talk over them: front, front…just front. Front corners.


Well, if they’re in both corners we’ll just say they’re at the front.  And what would be the foot position word that would describe the fact that their feet are in both corners?  Split.


So can you see how all three of those would…(to dancers) show us what your feet would look like if they were together in front.  So we would call that a together front. Now show us a split back…and a together back.  Do you see how that works? You need more than one piece of information to describe any one beat.

Monday, September 21, 2015

Pulling Language Forward: Notice & Wonder Day 6


After experimenting with Notice & Wonder last week during a Math in Your Feet residency with three classes of fourth graders I:

  1. ...feel like I had more feedback about student thinking than ever before. I've always seen how children think with their bodies, but was never happy with their written reflections, which didn't really reflect what I saw them do while they were making their patterns. I have also not been happy with how hard it's been to help kids use and apply the terminology of the Movement Variables. I found Notice & Wonder to be a great tool at pulling the language forward in a way that was natural and meaningful for the students themselves.
  2. ...noticed that each of my three classes last week moved from general noticings to much more specific noticings as the week progressed. Not only that, but they noticed more and more, and in great detail their own making process and the process of reflection; the math/dance pattern properties and structure (movement, direction and foot position); the differences between a reflected pattern and a non reflected pattern; and the process of unitizing two patterns into one larger one.
  3. ...finally felt like students owned everything about the week -- their actions and the language they used to describe their own and others' patterns.
  4. ...was grateful for the classroom teachers who made the decision to support the residency by making their normal math time a chance to explore the math we were using in the math/dance making. This was particularly important in terms of the angles/rotations and the idea of congruence. 
This week I'm back at the same school with three more 4th grade classes. Their Notices & Wonders today were really nice but, like last week, fairly general. I'm excited to see if they follow the same course as last week's students in becoming more and more specific, precise and descriptive with their noticings and pattern analysis.

And today I had a new Wonder: What if I bring a few notices and a few wonders forward each day (collected from all three classes) and put them in front of the students. They won't be identified by class or student.  Right now I'm thinking that it won't hurt to try and I'm curious what might happen.  Here are the student responses that I'm choosing to pull forward for tomorrow:
  • I noticed all the different words you can use.
  • I noticed all the movements, feet and directions we did today.
  • I noticed you can combine different movements.
  • I noticed we were doing the same pattern over and over again and I think we should choose something different.
  • I noticed dance isn't just movement; it's feet, movement AND direction.
  • I wonder what our pattern is going to be?
  • I wonder how many 4-beat patterns we can make with all the things ups there [on the movement variables poster.]
  • I wonder if I'll have better ideas tomorrow.
My original three wonders can be found here: INTRO/DAY 1
The rest of last week can be found here and, like I mentioned, document the progression of general noticing to much more specific and precise language: DAY 2 | DAY 3 | DAY 4 | DAY 5

Friday, September 18, 2015

Reflected or Not Reflected? Notice & Wonder Day 5

Wonderful, goofy, creative, thoughtful fourth graders! :-)
Today was the last day of the five-day residency with three classes of 4th graders. The first four days I experimented with Notice & Wonder. Today we had to finalize 8-beat patterns and had some reflection games to play to end the week. So, we were busy, and I felt that I would probably see interesting things in their final reflections in their residency journals. I decided to make sure that I followed up on yesterday's reflection lesson. And, instead of ending the final class with N&W we ended by dancing our dance patterns to music!

Before we practiced for the reflection games (doing our 4- or 8-beat patterns both congruently and reflected) I held conversations with each class about what it meant to reflect a dance pattern across a line of reflection. Here is a conversation that illustrates really well the kinds of things kids needed to consider, both in language and in their bodies:

Me: So tell me, what it is that has to change in the dancing? Give me specific examples of what has to change in the pattern if you are the reflection:

Kid 1: That your feet are doing the opposite.
Kid 2: It has to be congruent. Well, it doesn't have to be the exact same but it has to be very similar.
Me: So what is the thing that is different about the reflection when they do the dance?
Kid 3: If the reflection does its right, the other person has to do its left.
Me: So who is the reflection reacting to? Themselves or the original?
Kids: The original.
Me: So if the original puts his foot in the outside corner (away from the line), the reflection's foot is...
Kid 4: ...is on the inside.
Me: Really?
Kids: Yeah.
Me: Hmmm. Why don't you guys stand up so we can watch this. So let's say that you're the original. Put your foot in the outside (away from the line) upper right corner. So the reflection puts his foot where?
Kids: On the outside...
Me: On the outside...?
Kids: Left corner.

Me: So what else needs to be different? Is it just feet? Raise your hand and tell me what else it could be.
Kid 5: Um, your like, body movement?
Me: Tell me more.
Kid 5: Like, so, say, this person twists this way (gesturing to the right) and the reflection turns to the left.

Me: Is there anything else that needs to be different?
Kid 6: For like diagonals, then they have to be facing each other? [positioning herself in the square]
Me: Oh! I see. So if you're the original, when you're doing a left diagonal [with feet split apart] so the reflection would have to do the...
Kids: Right diagonal.
Me: And the body is involved because it's turned...how far? How far has it been turned from front?
Kids; 45 (degrees).

TIME FOR GAMES!!

Me: Who wants to play "Reflected or NOT Reflected?!"

Pattern 1:
Mr C & 4th grader dance, when they finish there are audible gasps from the audience, like they've figured it out!
Okay...let's watch AGAIN! Was it reflected or not reflected?
Kid: It was reflected because when they turned their backs were facing each other.
Me: So if they're backs are facing each other, that has to mean what?
Kids: They're facing in the opposite direction.

Pattern 2:
Me: So, what was their intention, even though they didn't do it exactly the way they wanted, what was it?
Kid: She was reflecting because when she was diagonal, she did a right diagonal and the other person did a left diagonal.
Me: Was there anything else that you saw that told you it was a reflection?
Another kid: Um, the steps they were using when they stepped. So when C. stepped to the right, G. stepped to the left.

Pattern 3: 
Me: Why did you not think it was reflected.
Kid: Because when they did a right diagonal, the other person did a right diagonal.
Me: What other evidence did you have to support your claim that it was not reflected?
Another kid: When they turned they turned the same way.

Pattern 4:
Me: Do you have a reason for why it was not reflected?
Kid: Because they were going the same way and when they, like, moved their feet together they did the same crosses.
Me: Oh, okay. So by "same cross" what makes the cross the same?
Kid: They used the same legs.

Pattern 5
Me: Oooh. Surprise ending! What did you see?
Kid: When they, like, turned, they landed in the same place.
Me: They landed in the same place, but what did you notice about the turn?
Kid: They turned different.
Me: They turned in different...what?
Kids: Ways.
Me: Ways?
Kids: They turned IN.
Me: Did one slide and the other jump? Or was it more like they turned in different directions?
Kids: Different directions.
Me: Did you see that pattern, you almost couldn't tell it was reflected? It was SNEAKY! And you didn't really know until the end! Give them some applause for the sneaky-ness!

Me: Now, who wants to play "Whoooooo's the reflection?!"

Pattern 6
Kid: When they did the cross T. did the opposite way.
Me, to class: Any other ways to describe how T. was different?
Other kid: When D. turned to the right, I think, T. turned to his left.

Pattern 7
Me: So who do you think the reflection is?
Kid: S.
Me...so, why do you think it was S? What did you see or what did you notice about what he did?
Kid: When M. turned he faced that way and went to that corner and S went to that corner.
Me: So, they went to opposite corners.

Pattern 8:
Me; Okay. Who changed the pattern?
Kid: G.
Me: And why do you think it was G.?
Kid: Because after he did a pattern and (his partner) A. followed...
Me: You saw him following along? Ohhh...
Another kid: Grant changed his body while A changed his body the other way so the bodies were the opposite.
Me: But how did you know it was G. specifically?
Third Kid: Because, for the last time I was glad you said it was the last time they would do it congruently because I didn't get to look at their diagonals. So, their diagonals...A's was a right diagonal I think, and G did a right diagonal.
Me: How many people noticed his first jump?

Pattern 9
Me: Who do you think the reflection was?
Kid: H. because N turned the right direction and when H. saw that he turned the left direction.
Me: How many people agree (hands). Was there any other information?
Kid: In the beginning it was, when they did it congruently, it was right diagonal, left diagonal? And then H. went left diagonal, right diagonal.

Pattern 10
Me: What do you think?
Kid: It was H.
Me: Who wants to give me a reason for why?
Kid 2: I think it was H. because on the second beat her feet went...when they did it congruently I memorized their feet positions and which corner their feet went and then I was watching that corner when they did the other one then that person would be the reflection.

A fun last day, and a fun week of learning with 4th graders! I will be puzzling over my "data" from this week. If you're interested in reading more about the Notice & Wonder experiment I've been running this week you can read each day's account here:

INTRO/DAY 1  |  DAY 2  |  DAY 3  |  DAY 4

Thursday, September 17, 2015

Equivalence Relations & Spatial Reasoning: Notice & Wonder Day 4

Two girls in the process of reflecting their math/dance pattern. Different year, different school, different kids. Same tape. 

Today I took the noticing and wondering of my 4th graders from yesterday and used that information to restructure the frequently stressful last two days of my five day residency.  I will be going into more detail about how N/W has impacted my teaching after I finish the week. Today, however, it was clear that all three classes were noticing the math in their math/dance making more and more specifically.

ACTIVITY OVERVIEW
1. Students practiced/reviewed their A & B patterns. 

2. A body-based lesson on reflection symmetry and how to apply that idea to their foot-based dance patterns.  This included more discussion about how we were evaluating sameness. The classroom teachers have moved their geometry unit to this week so they can make specific connections to the MiYF work. I checked in with each class and asked them if we could use the word congruent to describe how they dance their patterns exactly the same as their partner. One boy said that our dances couldn't be congruent because all the 4th graders are different sizes. This led to a discussion about the relevant properties with which we assess sameness/congruence (all properties the same). FANTASTIC.

3. A chance to combine their A & B patterns into a new 8-beat pattern, otherwise known as unitizing.  All you have to do is read their notices below and you'll see how cool this is.

4th GRADERS NOTICED
The process of reflecting a 4 beat pattern across a line of reflection

  • My pattern even looks good in a mirror
  • Doing the reflection was pretty easy because it was like just doing the opposite foot. His foot was on the outside [away from the line of reflection] and I used my outside foot too. 
  • The whole mirror thing was kind of tricky. I had to do the complete opposite.
  • It was easier for my partner to be the reflection because normally when we'd do it she'd do the opposite anyhow. [So, she was well cast in the role of reflection?! lol] 
  • It was hard for us to mirror each other and do the same thing, like opposite 
  • When I was pretending I was a reflection I had to do the feet the opposite and it messed me up
  • I noticed how people were doing the same thing being con-gruent (sic) 
  • When you were doing the reflection not everybody was doing the exact same but they were pretty similar. 
  • It was harder doing  reflection because [my partner] was trying to do the same as me like we did before and she is now doing the opposite 
Unitizing two 4-beat patterns into a new 8-beat pattern C [As you read, also put yourself in a spatial orientation/reasoning frame of mind]
  • I noticed how we combined two patterns into one big one
  • That we have a C pattern with eight beats
  • That you have to take away one beat to make it Pattern C...[did you take away one beat or did you take away your starting position?] Starting position. 
  • When we did B+B it was very hard because we kept getting confused with our moves and what to do because of our 180 turn. We were used to starting our pattern facing backward, and it was confusing doing the pattern [again] facing forward. 
  • It was harder for us to do A to B because in our A we land in a split but In our B we start at a zero in the corner so it was harder to get there
  • It's harder when you do same pattern twice, like A+A together because I finish over HERE and I have to jump to over HERE. It was freaky to put A+A together.
  • When we did [our pattern] forward and then we turned and tried to do it the other way it was harder. We were facing this way the whole time and then when we tried to start from the other side and look this [other] way it was harder.
Properties & Structure
  • I noticed lots of diagonals and turns
  • When we were doing it congruently I noticed they [a nearby team] has a similar pattern. 
  • I noticed there's yellow tape
Learning Process & Miscellaneous
  • During the reflection it took like three goes and then we got it down 
  • A lot of people were tired
  • We did really good even though it was difficult.
  • That everyone did Pattern A better than B...because we knew A better. 
  • We can get through A+B a medium speed 
  • [When they were working on reflecting their pattern] one person turned left the other person turned left and then the 15th time one person turned right and the other turned left
Heading into our final day I am finally seeing the process of math/dance making from the inside of the process. There is so much to notice from the outside in observing children's bodies thinking, moving and learning all at the same time. But having Notice & Wonder this week has taken my understanding of their learning to a whole new level. 

Wednesday, September 16, 2015

On Process & Properties: Notice & Wonder, Day 3

Kids practicing their math/dance patterns on my dance board before we started class this morning.
The room was hot all day. The kids were overly concerned about things being fair in terms of who got to show their work. They were also a bit squirrel-y (and my focus could have been better) but we all worked hard on the process of creating a second 4-beat pattern, Pattern B.

The math involved in today's activities included: 
- observing and comparing moving patterns and identifying relevant properties
- increased focus on using precise language to describe the math/dance steps
- increased emphasis on focusing/identifying one relevant property at a time in the dancing (movement, foot position, direction)
- continued growth in understanding and noticing sameness in the dancing (unison/congruence) including rights and lefts for foot placement and for direction of turns

My takeaway on today:
Compared to other days, this day was a huge challenge (in a good way). I have always known that Pattern B is challenging, even without hearing what the kids noticed. But their notices were so full of details today, way more than the first few days, about the process of making a new pattern as different as possible from their first pattern.

My wonder from today: 
I'm still pondering what to do with these noticings. It's already a great tool for assessing what and how they're thinking about the material. But I keep thinking there has to be something specific I can *do* with this information. And then I think that maybe that the explicit process of reflecting like this is helpful in itself for my learners, but I can't quite put my finger on why that might be exactly. So, for now, I will be content with what I have and look forward to the final two days of this residency.

In case you're interested, my original wonderings/goals re: adding Notice/Wonder to how I facilitate Math in Your Feet can be found here.  
________________________________________

WHAT THEY NOTICED....

Observations on process
- We had to do two patterns so people had to know Pattern A and Pattern B and it's confusing...they have to know which one.
- [Me and my partner] would share our ideas and then we would do them all and then figure out which one was the easiest and the one we could do all together.
- It was hard because of the turns [So you gave your self a challenging pattern?]  Yep.
- Pattern B took more time [to make] because we had to come up with different ideas and if we had two or more turns we had to do less
- The first time I did it wrong and the second time I did it right.
It's hard to do the same thing as your partner.
- We got confused a lot and we stepped on teach others feet and we got confused. [Why?] Because we kept on changing it and sometimes we'd remember A and mess up Pattern B.
- It doesn't take long to decide on a Pattern B if you talk and give ideas out to your partner.
- It was really loud in here when we were creating Pattern B
- Our Pattern B was very easy [to dance]
- We had to change our Pattern B because our first one was too hard. [What made it hard for you?]  We did all this tricky stuff and turned around a lot and crossed our feet a lot and it got hard so we changed it.
- Our slide had good sound but we need to work on the sound for the step
- People were making mistakes which is a good thing because if you make a mistake it's a FAIL which is a "first attempt in learning.
- I heard people being respectful to each other
- People were messing around

Observations on properties and equivalence (sameness and difference)
- Some people had jumps in Pattern A but in Pattern B they had turns and slides
- There was a lot of 90 degree turns
- We couldn't do the same pattern on Pattern B. We had to be different
- A lot of people came up with really different B patterns [compared to Pattern A]
- If people had lots of spins in Pattern A they did not do a lot of spins in Pattern B
- Everybody jumped at least once in Pattern B
- We did the same beats and the same feet for this pattern
- It took us a long time to get our B fully finished

WONDERS (similar to yesterday; I'm including the ones that stood out to me)
- I wonder what the rules are for [making] Pattern C?
- If every partner can agree with the other partner. [So, were you noticing that you were having some difficulties?]  Ummm...a little. [Did you guys come up with a Pattern B?]  Yeah.
- If everybody's A and B patterns will go good together?

Tuesday, September 15, 2015

You Never Know Until You Ask: Notice & Wonder, Day 2


SYNOPSIS
1. I'm engaged in a week-long experiment with Notice & Wonder as a way to help kids in Math in Your Feet reflect on their body based learning and experiences. My Day One post is here if you want to get a sense of what my goals and wonders are.

2. For Day 2 I added a Notice into our observation of the math/dance patterns in progress, which led to increased student engagement and pattern analysis.

3. Make sure to read the Notices and Wonders at the end of this post. They are lovely and philosophical and insightful as to the creative process. They are also interesting evidence of children's processing around turns, degrees of turns, and combinations of turns. Why hello Trigonometry!

EPIPHANY: MORE NOTICE, LESS TELL
Today we started making a four-beat Pattern A. As part of this process I initiated a conversation to help kids focus more closely on the categories of foot position, movement and direction as resources for our pattern building and for noticing the structure of these temporal, moving patterns. Working on Pattern A also requires an emphasis on "sameness" -- making sure both dancers are dancing the same pattern and dancing it the same way.

Part of the work of making a math/dance pattern is about stepping out of the "actor" role (as the one involved in making the pattern) to observe others' work. This kind of stepping back can help you gain insight and perspective on your own work.  Today I tried something new during this observation time and had an epiphany:

Instead of directly guiding conversation by asking "What kind of movement (or direction, or foot position) did they use in that pattern...?" I decided (on a whim, let it be known!) a Notice. After a team of dancers would show us their pattern I would first ask something like: "What did you notice about their pattern?"  For the most part, children in all three classes noticed at least one relevant attribute without me prompting. And, even better, these initial noticings started interesting conversations during which I could contribute/introduce new ideas or observations and deepen the conversations.

The kids were more engaged in these discussions than I've seen before. Ever.

I'm beyond thrilled.

YOU NEVER KNOW UNTIL YOU ASK 
Since I only have five days max with any one class, I never have enough time to really figure out exactly what makes each group tick. Imagine having the first week of school over, and over, and over again. But, with the Notice/Wonder (first done in conversation with a friend and then shared out to the whole group) I am getting much more information from these 4th graders about how they're thinking about their work than I ever did before. 

Here are their Notice & Wonders from Day 2, but not all of them. I've combined all three classes' responses -- some of them were repeated in each class. Refresher: today's mathematical themes were sameness, problem solving, categories, and identifying attributes/properties as a way to make sense of pattern and structure.

I noticed...
- It was hard for us to do the same thing [move] on the same beats
- It was hard to make a decision on what we should do [while making their pattern]
- It was hard for us to go at the same rate.
- We did good when no one was watching and when people were watching we didn't do it right
- One of us was (crossing our feet) right over left and the other was going left over right
- That sometimes when we did it we'd get confused, or get messed up, and sometimes we had success
- Every group we saw had a pattern with jumps in it
- Every group had a pattern with a split [two feet apart] in it
- Everybody was doing the same dance/pattern as the other partner
- When people started in the middle [of the square]  and they jumped to the front part of the square they usually jumped out of the square so we thought they should start at the bottom part of the square and jump to the top. [Spatial reasoning]
- Every single dance pattern was different [meaning each team had a different pattern]

I wonder...
- Can I clog at home?
- If we can add some more moves
- If you could change a 360 degree turn into 314 degrees or you could choose your number from zero all the way up to 360?
- If we combined all the patterns in the classroom and then see what it looks like
- If you could do a 460 degree turn
- If everyone will remember their dance moves
- If we we'll actually be able to do the dance we made. [Me: So you're not feeling like you can do it right now?] Well...it's tough. We're still working on it. [Me, to class: How many other people feel like they're still working on their pattern, that they don't exactly have it the way they want it? (lots of hands). So, you're not alone. This is part of the process]
- If we're going to learn other people's patterns
- If our pattern will work out? [Is it not working out?] Well it is; we've wondered from the beginning if it would work out. [Okay, what do you think so far? Thumbs up?! Okay!]
- What's the difference between the A & B pattern is [They'll find out tomorrow!]
- Why your body and your mind control the pace you go in...why only you can control your pace.
- How we come up with the things (pattern) we came up with. [Do you have any thoughts about that?]  Well I think it's about how much you're creative and how much you do that thing. Like if you like to turn and that's your favorite thing and you do it all the time you probably would like to add that in to your pattern.

Bonus: 4th grade Teacher Wonder! ...What it would be like to make a math problem out of our turns...if we were adding and subtracting the angles as we turned, what the extent of that math problem would look like.

I can't wait to see what happens tomorrow.

Vignette: Noticing, exploring, and discovering space with moving bodies

Today was my second of five days with three classes of 4th graders. Today Mr. C, whose class needs to be with me at 9am, smoothed out his morning routine and told them to come straight to the LGI room. Kids trickled in from buses, drop-off, breakfast, etc. In the absence of any particular activity the kids immediately started exploring the empty space. 


The activity mostly consisted of jumping from box to box and eventually led to discussion about which leap was the furthest and most difficult. 


I am a big fan of self-initiated explorations of space like this but after a while there were too many kids in the room to do this safely. Luckily one kid wanted to try out my dance board which led to a wonderful round robin of dancers, all being cheered on by their friends. So cute!




If you change a familiar space with tape kids will notice. When they notice they will explore this new structure with their bodies through movement. When they explore you will see how they are thinking. In this case their exploration was spatial and also mathematical in terms of magnitude and direction. 

Monday, September 14, 2015

Making Learning More Visible: Notice & Wonder Day 1 (of 5)


I've noticed (ha ha!) over the last year or so the ways that math teachers have utilized the Notice and Wonder structure in helping kids problem solve and make sense of math. I've been wondering how N/W might play out in terms of helping kids make sense of their experience learning math and dance at the same time in Math in Your Feet.

Buoyed by a conversation with Suzanne Alejandre from the Math Forum I've been thinking more closely about how Notice and Wonder might be used to help my learners become more personally invested in reflecting on their math/dance making experience. In general, kids are already invested in the dance work, but I have always wanted them to make more connections between what they're doing and what they think about what they're doing with both the math and the dance.

This week I'm doing my first school residency of the school year. I'll be at this particular school for two weeks, working with three 4th grade classes one week, the remaining three 4th grade classes next week. Today I did Notice/Wonder with each of my three classes. I had them first talk with their partner about what they noticed and then share out to the group. I did the same thing with the wonder. I will likely keep this procedure the same each day.

At the outset of this little experiment I am wondering:

- How or will their noticing and wondering change over the five days we have together? Meaning, will they get better at it? Will they notice different things every day?

- How/will will Notice/Wonder implemented verbally/socially in my class impact their written reflection and word studies in their #miyfeet journals back in their regular classrooms?

- What will I learn about their thinking and how might that inform the way I facilitate their math/dance making & learning?

For context, today we started with learning what it feels like to make rhythm and patterns in our feet. The math connections were patterns and how we can make new rules to create variation, a lot of body-based spatial reasoning, language like center/zero/origin, and also some physical exploration of 90 and 180 degree turns in the context of the dancing. For this reason, a lot of their N/W was about the dancing.
___________________________________

"I noticed..."
...I noticed jumping and different directions
...I saw movement
...It doesn't always have to be your feet your feet [that move], it can be your body too. You can twist your body around and your feet stay in the same place.
...there is a connection between dancing and math
...math and dancing can be combined-ded (sic)
....that clogging and tap are cousins
...there's a lot of footwork in clogging
...you hear different sounds when you're dancing
...you're using degrees when you dance
...there are different amounts of angles
...that dance and math work together well

A meta "I noticed..."
...I noticed that we made some mistakes and I, personally, stopped because I didn't understand it and I watched to see how it was done. [Me: was that helpful for you?] Yeah.

"I wonder..."
...how we're going to put all the beats and stuff together
...if you can cross your feet and go backwards with it
...if it's like a sport
...if I can do clogging on a tight rope
...if you can actually use math with dancing
...if we'll all actually end up being good at this
...if we're ever going to use the 360 degrees
...[wonders about how I dance so quickly, how long it took me to learn, etc.]
...is there a certain amount of beats you have to have in clogging
...could you dance for as long a time as you want
...why was clogging invented
...how do you do this for so long and not be tired?

I'm thrilled. This is already SO much more information about how the kids are experiencing the work than I ever had before.

Take-away from Day 1: Notice and Wonder is SOSOSOSOSOSOOOOOOOO much better than asking: "Do you have any questions?" lol

Thursday, September 3, 2015

Questions about Supporting & Extending Educator Professional Learning

I asked a question on Twitter yesterday that probably didn't make sense. I'm grateful to Joe Schwartz for asking me to clarify because our conversation led to a clearer undersanding of what I'm looking for. My original question was:
Has anyone used a Notice/Wonder like structure in professional learning sessions? Would love to hear more abt how you use it ... not w/ the math specifically but about their own learning experiences...
SOME EXPLANATION 
In my work I provide educators an experience of actually doing Math in Your Feet. I believe that as teachers we need chances to move out of our comfort zones and have experiences with new things, as learners.

In my workshops teachers experience familiar elementary math in a brand new context. We need to reflect on that. We also need to reflect on my approach facilitating the math/dance making which includes the flow of the lessons and how they build on one another, the conversations, the focus on language, and facilitating student collaborations in a moving classroom.

Because this is often new territory for teachers, I need and want make sure there is enough time for them to think about how they might approach using Math in Your Feet in their own classrooms. I want this reflection to be meaningful and useful.

Currently, I provide opportunities during my sessions for teachers to reflect on what the math/dance making they've been doing and what they notice about that learning. The reflection times are partly an adaptation of the Notice/Wonder approach which comes out of the Math Forum as a tool for helping students make sense of math. It is very similar to Descriptive Review, an arts education protocol introduced to me by my Teaching Artist Journal Colleagues. 

Overall, I am quite comfortable facilitating noticings and wonderings but...then what? What happens next? Neither myself nor my participants have been satisfied with me trying to quickly answer all their questions at the end of a long day.

IN A NUTSHELL
I've only got a maximum of six hours with any one group and I want to make it count. I believe in the power of the notice/wonder-like descriptive review as a tool for reflecting on an experience, but I want to know what the next step is. My conversation with Joe helped me clarify and refine my original question. What I'm looking for now is:
...an approach to experiential educator professional learning that helps participants not just learn "how to do" something new, but supports them in extending their questions into answers that will work for them in their own classrooms.
Unfortunately, organizations who bring me in are generally only willing to hire me for a day. Right now I see no possibility for developing longer-term coaching relationships.  I would greatly appreciate your thoughts and feedback!

Wednesday, September 2, 2015

Full-Day Educator Workshop in Michigan!




This just in! I will be teaching a day-long Math in Your Feet workshop at Grand Valley State University, Allendale Campus in Michigan on Wednesday, October 14, 2015.

More info HERE. Hope to see you THERE!!

Tuesday, August 18, 2015

Math on a Stick: Fold & Cut

This activity is one I am doing at Math on a Stick at the Minnesota State Fair August 27 & 28, 2015. You can find out more about Kirigami, a paper folding and cutting tradition similar to Origami, and more simple designs for kids to experiment with here.
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Below are instructions for simple folding and cutting. One additional thing to look out for is that when children begin to cut away paper to create holes they often just make slits in the paper. A "hole" in this sense is at least two cuts that, when you open the paper, create an empty space.


 

_____________________

Malke Rosenfeld delights in creating rich environments in which children and their adults can explore, make, play, and talk math based on their own questions and inclinations. Her upcoming book, Math on the Move: Engaging Students in Whole Body Learning, will be published by Heinemann in Fall 2016.


Math on a Stick: Beading Patterns

This activity is one I am doing at Math on a Stick at the Minnesota State Fair August 27 & 28, 2015 and can be found in the upcoming book I co-authored with Dr. Gordon Hamilton titled Socks are Like Pants, Cats are Like Dogs which is available for pre-order.

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We often ask children to find and sort everyday objects according to their properties (for example, into piles of white socks and socks that are not white). In early algebra terms, this means sorting items into categories. We can also use this kind of mathematical thinking about properties to create brand new objects.

Beads are full of similarities and differences that can help you create beautiful patterns as simple or complex as you want. All you need to get started are string or pipe cleaners and beads in multiple colors and sizes. You can even make your own beads by cutting up drinking straws! As you create your patterns, you get to ask lots of interesting questions:
“How will you make the pattern interesting?” 
“Will you use all small beads, or a combination of sizes?”
“Will they all be smooth, or will you add a rough textured bead into the mix?”

Whatever you choose to do, it will be yours and it will be beautiful. You will know exactly how to talk about what and how you made this beautiful thing because you’re the one who created it!

Materials
Pre-cut lengths of cotton string and/or pipe cleaners
Plastic pony beads, wooden beads, and/or beads made from plastic straws
Bowls or other containers to hold beads

Activity Description
Look at all the beads. Find different ways to describe them (color, shape, size, texture, etc.). Notice the similarities and differences between the beads (for example, same color, different shapes). Create a four-bead pattern unit (four beads in a row) and repeat that unit until satisfied.

Adaptations by Ages
Babies
Use very large beads or other objects like balls or blocks. Have baby handle and play with objects. Comment on their texture, shape, and color while baby is playing. Line up objects on the floor in front of baby to create a short pattern; repeat pattern one or two more times. Point to each bead and name one attribute category at a time (for example, “smooth, rough, smooth, rough...” then “red, blue, red, blue...”).

Toddlers
Provide pipe cleaners and a selection of large wooden beads. Let your child experience the beads by touching and stringing them, but don’t worry about patterns for now. Talk through your own making process while your child makes hers alongside you. Talk about why the bead you are using is different from (or same as) the one your child is using or about what comes next in your pattern.

Older Kids
Use an interesting assortment of beads and pipe cleaners (or string), three or more attributes (such as bead shape, color, texture), and three or four beads to make pattern unit. Make your own alongside your child. Take turns investigating each others’ work - how is your child’s pattern similar to yours?

Friday, June 12, 2015

Socks are Like Pants, Cats are Like Dogs, Really!!


Do you want your children and young students to feel like algebra is beautiful, playful, and intuitive? Come play, solve, talk, and make math with us! Support our book, reserve your copy, and make these math adventures available to children, parents, and teachers all over the world.

I've co-authored the book Socks are Like Pants, Cats are Like Dogs with Gordon Hamilton of Math Pickle. It's filled with a diverse collection of math games, puzzles, and activities exploring the mathematics of choosing, identifying and sorting. Teachers and parents have tested all activities in real classrooms and living rooms. The activities are easy to start and require little preparation.


There's even a pdf of sample activities from the book for you to try!
We’re almost done with our book; all that’s left is a few finishing touches. We’ve estimated the crowdfunding goal for this project to be $4,000. Any amount will help us reach our goal. Please help make this book a reality! Visit the crowdfunding site over at Natural Math for more images, and information about our project!

Thank you for your support!

Saturday, June 6, 2015

Summer Math Photo Challenge [#mathphoto15]


Don't miss the Summer Math Photo Challenge! Week 1 is underway in English, Spanish and French with images shared from around the world. There are are eleven more weeks of fun ahead and I hope you and your friends, kids and/or students will play along this summer! 

Here's how to play: 
Check the weekly challenge information every Monday. 

Keep your eyes open.  


Take pictures of what you find.

Share to Twitter using the #mathphoto15 hashtag. 


Feel free to add your own hashtags as well.

Encourage your friends to play! You can do this by copying/saving the weekly schedule in the language of your choice (below) and share it via social media.


You can also view all the math-y gorgeousness on Twitter or Flickr.



Wednesday, April 1, 2015

Some thoughts on "Hands-On" Math Learning

Last night on Twitter Michael Pershan asked me to weigh in on hands-on math learning. The request stemmed from a conversation/debate about the various merits of different ways to learn math.  

The minute I read the question I knew that my answer was going to be more detailed than a response on Twitter would allow. Here are some of my thoughts on the matter.

1. The discussion reminded me of the "concrete to abstract" conversations which, to me, seem like an especially frustrating example of recursion. They go round and round but we never really get anywhere new.

I think many connect the word "concrete" to Piaget and his discussions about children's thinking moving from the concrete to the abstract. This in turn has led to many assumptions that take the term "concrete" quite literally. But, as Deborah Ball wrote in her article Magical Hopes, 
“Although kinesthetic experience can enhance perception and thinking, understanding does not travel through the fingertips and up the arm.  And children also clearly learn from many other sources—even from highly verbal and abstract, imaginary contexts."  
 The best treatment of the concrete/abstract dichotomy comes from Uri Wilensky:
"The more connections we make between an object and other objects, the more concrete it becomes for us. The richer the set of representations of the object, the more ways we have of interacting with it, the more concrete it is for us. Concreteness, then, is that property which measures the degree of our relatedness to the object, (the richness of our representations, interactions, connections with the object), how close we are to it, or, if you will, the quality of our relationship with the object."
I LOVE this treatment of "concrete" as simply the quality of your relationship to an idea. Seriously, read the whole piece. You'll be glad you did.

2. Professional mathematicians utilize a multi-sensory approach to their work. Here is some perspective from researcher Susan Gerofsky:
“Movement, colour, sound, touch and other physical modalities for the exploration of the world of mathematical relationships were scorned ... as primitive, course, noisy and not sufficiently elevated or abstract.  This disembodied approach to mathematics education was encouraged despite the documented fact that professional research mathematicians actually do make extensive use of sensory representations (including visual, verbal and sonic imagery and kinesthetic gesture and movement) and sensory models (drawings, physical models and computer models), both in their own research work and in their communication of their findings to colleagues in formal and informal settings.  These bodily experiences ground the abstractions of language and mathematical symbolism.”
3. Children think and learn through their bodies. We should use children’s bodies in math learning.

Known in the research world as embodied cognition (thinking and learning with one’s body) is something we begin developing from birth. Developmental psychologists have shown that in babies “cognition is literally acquired from the outside in." This means that the way babies physically interact with their surroundings “enables the developing system [the baby!] to educate [herself]—without defined external tasks or teachers—just by perceiving and acting in the world.” Ultimately, “starting as a baby [as we all did!] grounded in a physical, social, and linguistic world is crucial to the development of the flexible and inventive intelligence that characterizes humankind.”

Understanding what embodied cognition and embodied learning looks like is the focus of a multidisciplinary group of cognitive scientists, psychologists, gesture researchers, artificial intelligence scientists, and math education researchers, all of whom are working to develop a picture of what it means to think and learn with a moving body.  

Their research findings and theory building over the past few decades have resulted in a general acceptance that it is impossible to ignore the body’s role in the creation of “mind” and “thought”, going so far as to agree that that there would likely be no “mind” or “thinking” or “memory” without the reality of our human form living in and interacting in the world around us. 

4. Finally, instead of sorting out the various merits of individual teaching/learning strategies what we really need to do is look at the bigger picture: Most student learn math best when provided with multiple contexts in which to explore a math idea.

A learner needs time and opportunity to experience a math idea in multiple ways before being able to generalize it and how it can be applied.  An idea, any idea, becomes “concrete” for the learner when the learner has had an opportunity to get to know it. Uri Wilensky said it best:
“It is only through use and acquaintance in multiple contexts, through coming into relationship with other words/concepts/experiences, that the word has meaning for the learner and in our sense becomes concrete for him or her.
Pamela Liebeck, author of How Children Learn Mathematics, developed a useful and accessible learning sequence to help bridge the gap between a math idea and a meaningful relationship with that idea.  Based on the learning theories of psychologists such as Piaget, Dienes and Bruner, Liebeck’s progression is similar to how babies and young children learn to recognize the meaning of words, begin to speak, and then to first write and then read. It includes four different learning modes in which to interact and express mathematical ideas and includes:

a) experience with physical objects (hand- or body-based),

b) spoken language that describes the experience,

c) pictures that represent the experience and, finally,

d) written symbols that generalize the experience.

This sequence illustrates what many math educators already believe, whether or not they use this exact outline – that elementary students need active and interactive experiences with math ideas in multiple learning modes to make sense of math.  

After a recent and particularly robust online discussion on the many different ways to support primary students in making sense of number lines, including a moving-scale line taped on the floor, Graham Fletcher said, “At the end of the day, it's all about providing [students] the opportunity to make connections.” 

Graham's statement points to the importance of focusing on the child's relationship to the math and the environment in which she learns that math. Hopefully it's an environment where many different ways of thinking, expressing and applying mathematics are celebrated and nurtured. 

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