Category: play

Click. Learn. Create.

Click. Learn. Create.

I live in a world of curiosity, surrounded by buoyant imaginations and inquisitive minds. I forget what it’s like in the “real world”. But this past week my sister had her birthday and what I thought was a simple project of curating loving videos was an absolutely enlightening experience of how others perceive technology and use it. A continuum of fear, with arrogant ignorance at one level: “Don’t know, don’t care to know”-ness and vain helplessness at the other with “I don’t want to look stupid so I won’t try”-ness.  I made how-to videos for making a video using Facebook Messenger (the very app we were communicating in!), and yet the willingness to do it wasn’t there.  It was fascinating to bear witness to this.  No one was willing to simply click on a button and give it a go.

Now you could say that this is a generational issue–“It’s those Baby Boomers!” Maybe…but I think it’s a mindset issue. It’s a lack of interest and desire to move beyond our comfort level. It’s a fear of failure. And all of us “Digital Immigrants” suffer from it.

I feel strongly that all of us, young or old, must embrace David Higginson’s motto: Click. Learn. Create. We have to be open to exploring different technologies and apps. Not because we have to be experts in everything, but we have to be more playful and less rigid in our beliefs about ourselves and what we can do. We need to get comfortable with making mistakes.

Personally, I like to challenge myself with technology, creating a podcast was just “for fun”. This website was created just “for fun”. I wanted to learn more about these things and researched and played around. For the past few months, I’ve been teaching myself about how to create online courses and all those things that are entailed in it. It’s been a journey of exploring all the learning management systems and the ways content can be created for it. I’m loving the challenge. But moving from a curiosity into creation seems like the longest journey ever. And it isn’t because of what’s possible with tech. It’s because of my mindset.

In my head, I hear of a litany of “What If” worst-case scenarios: What if it’s crap? What if I pick the wrong platform? What if I could design this better? ….etc….it’s all the same self-berating message that boils down to “I’m not good enough.” I think, this culturally programmed message of perfection paralyzes me at times, and I have to will myself to overcome my anxiety. But as awful as I feel sometimes, it is absolutely joyful when I encounter someone who has another piece of the puzzle and this gives me the courage to continue. I may move slowly, but I still move forward.

learningBut this IS learning. Learning isn’t just about acquiring knowledge and skills. It’s about becoming a better version of ourselves. Me 2.0 It’s about surprising ourselves with what we can do. It’s about connecting and collaborating with others with purpose and passion. And most importantly, it’s about growing ourselves emotionally so we can be mature, sensitive and happy human beings. One of my friends, Graham Baines, would call this #SeriousFun.

 

Even the smallest efforts can lead to transformational gains in our personal and professional development. I wish for all of us to Click. Learn. Create. so that we may Discover. Inspire. Empower.

 

 

#BuildMathMinds18: How Slow Thinking, Playing and Challenge Create Mathematicians

#BuildMathMinds18: How Slow Thinking, Playing and Challenge Create Mathematicians

In the Build Math Minds Summit, Dan Finkel elaborated on this notion that “what books are to reading, is what play is to math.” And as he said this, my ears perked up, I leaned in and listened intently because this is all I’ve been thinking about for the last week as I begin to plan for next year’s inquiry maths with play as a pedagogical stance. He articulately beautifully how math thinking comes from asking questions, solving problems, playing and exploring.

So as I marinated in his words and ideas, I began binge learning all over again. Glutton for punishment?–I guess I am. But they say that when you teach others, you learn twice. So I want to share my takeaways from some of the presenters, Dan Finkel included, for the Math Minds Summit (which you should go watch right now if you read this post before August 6th, 2018). And because I know that the brain is more switched on when you present ideas as questions, my gleanings are represented in that way for this blog.

I hope it inspires you…..

During unstructured play, what kinds of questions can provoke analytical and divergent thinking?

How many? (number)

What kind? (classification)

How big? (measurement)

What if? (creativity and logic)

What makes games good to develop mathematical thinking?

  1. Anything with Dice
  2. 5 in a row
  3. Number sense cards (that show alternate variations of number patterns)
  4. Checkers
  5. Nim
  6. Anything with cards
  7. Anything that you can advance pieces on a board
  8. Games that involve making choices so that children develop strategy and thinking.

Provocations= Puzzles and Challenges

These can be concrete opportunities to explore estimation and making conjectures, but the heart of a mathematical provocation is that it must be intriguing to get the students curious and motivated to solve the problem. Consider if the provocation is going to…

  1. Allow all students to show their thinking and understanding in interesting ways.
  2. Invite conversation and collaboration among peers.
  3. Provide opportunities to assess what students know and can do mathematically.
  4. Have an ROI (return of investment) of time and resources–all the set up is worth it because of the cognitive demand and depth of learning that is going to come from this provocation.

(These 4 criteria were inspired from Jon Orr  and his work with starting a Math Fight)

These are some examples that I think were great examples:

“About” how many ketchup packets do you think can fit inside these containers?

estimate

Prompts that incite a variety of answers:

mathbefore bed

What language encourage matheI remember thinking that students should learn the way I taught; they should adjust to me. I could not have been more wrong. A great teacher adjust to the learner, not the other way around (3).pngmatical dispositions?

  • Demonstrate that wrong conjectures can be the jumping off point for refining our ideas with counterexamples which enrich our thinking and deepen our conceptual understandings.
  • Using descriptive and numerical language to highlight the math concepts  (He gave the simple example of saying “Get your 2 gloves” vs. “Get your gloves”.
  • Use language that shows that we, as adults, aren’t afraid of making mistakes, so they feel safe also.
  • Do NOT use words that suggest that you have to be “smart” or “fast” to do the math.
  • Likewise, do NOT give praise for being “fast” or “smart”.
  • Ask questions that provide challenge and make students take a position (conjectures):
    • Do you agree or disagree with this idea?
    • Why?
    • How do you know?
    • Say more about that?
    • In your own words, could you explain….?
    • Would you rather….. or would you rather……?
    • How might you represent your thinking?

What routines or thinking systems encourage mathematical conversations and develop conceptual understandings?

(Click to learn more on the links)

  • EVERYTHING WE KNOW ABOUT THIS routine: Present a problem or puzzle, asking them to….Write down, tell a neighbor, tell me EVERYTHING you know about this.
  • Number Talks: a simple problem shown that students try to solve mentally in a variety of ways.
  • Number String: a specifically structured string of number problems in which the numbers get progressively harder.
  • Counting Collections: The routine speaks for itself- students count set collections of objects. This develops a variety of counting strategies.
  • Claim, Support, Question: providing a claim (conjecture) that students have to provide evidence to support their claim. In order to deepen the conjecture, students can use counterexamples or ask questions that help develop a better math argument.
  • Two Truths and a Lie: students are presented with a math problem or graphic.  Students are instructed to create two truths and one lie about the math.  Then, students share their “truths” and “lie” and have other students decide which are the truths and which is the lie.
  • Which One Doesn’t Belong?: These are visual puzzles that have multiple answers. Click on the link to see a plethora of them. There’s also a book written by the same title.

Next week, when our 1st graders start piling into the classroom, I have an arsenal of ideas that I’ve gotten from this summit. (And it’s not even over!!) I really would invite you to check it out. I know, beyond a doubt, that our students are going to fall in love with math at an early age because they will engage in play, feel challenged at their level and construct meaning on their own timeline. I wish the joy of math for all children (and adults) out there. Don’t you?

 

#InquiryMaths: Planning for Play as a Stance for Math in the #PYP ?

#InquiryMaths: Planning for Play as a Stance for Math in the #PYP ?

I’ve been binge learning through the online conference on The Pedagogy of Play. It’s been really inspiring for me. Last year, I felt like I was moving away from play-based learning and into more formally academic structures when I began teaching first grade. This has been a challenge for me because I miss the discoveries (theirs and mine!) and creativity that are natural by-products of a play-based approach. So as I embark on this school year, I have two questions that I am holding in my mind: How do I make math more fun and authentic? and How do I provide rich open-ended tasks that allow for multiple approaches with low threshold, high ceiling tasks?

These questions come from this quote from Jo Boaler, a math educator hero of mine.

Numerous research studies (Silver, 1994) have shown that when students are given opportunities to pose mathematics problems, to consider a situation and think of a mathematics question to ask of it—which is the essence of real mathematics—they become more deeply engaged and perform at higher levels.
― Jo BoalerMathematical Mindsets: Unleashing Students’ Potential through Creative Math, Inspiring Messages and Innovative Teaching

loris malaguzziAs I reflect on that research, I believe the answer to my questions is to play. Not just because it develops curiosity and self-expression, but it cultivates self-motivation and an appreciation for the pleasant surprises that our mistakes bring us in our learning process. Moreover, from Boaler’s academic point of view, “they become more deeply engaged and perform at higher levels”. Um…so why on Earth wouldn’t we connect play and math?

What is play?  Play is the ultimate What If question in my mind because it allows us to explore with possibilities. Most Primary Years Programme (PYP) Early Years educators feel that the word “play” is synonymous with the word “inquiry”. As teachers, we can be intentional about marrying the joy of learning through play with our learning outcomes. I don’t think we have to suck the fun out of everything to make it “learning”; in fact, I think it has to be injected back into the process, especially when I consider that real * (think Albert Einstein and Euclid and Leonardo Pisano aka Fibonacci) mathematicians are exceptionally creative and playful with their ideas. (*Actually, I think ALL of us are REAL mathematicians, but not all of us embrace and delight in this aspect of ourselves).

So then if I approach inquiry maths through the lens of play, I need to consider ….

What tools can we use for play?

  • Loose parts?
  • Technology?
  • Each other?
  • Math resources (traditional, like geometric shapes, Unifix cubes, hundreds chart etc.?)
  • Math resources (non-traditional materials that allow students to create. ie: a bridge)

What mathematical ideas can be developed and deepened through play?

I actually believe that most of the time, when we are authentically engaging in math decisions, we are not doing “number” and then “measurement” and then “data handling”–it’s not that discrete in real life and often time these strands are happening simultaneously and overlapping. Play expresses this transdisciplinary nature.

What language can I use to invite “playfulness” with math?

I think our teacher talk is actually a critical component of shaping our mathematical identities. Also, the enthusiasm I communicate, either through my speech or through non-verbal cues is something that I want to be mindful of. My favorite book that addresses this is still Mathematical Mindsets  but I also love the simplicity of Peter Johnson’s ideas on language and I recently read In Other Words: Phrases for Growth Mindset: A Teacher’s Guide to Empowering Students through Effective Praise and Feedback which had a lot of gems in there that can be applied to developing our language around math learning.  I’ve been ruminating over how I can embed more sophisticated math language in our classroom vernacular, especially with our English Language Learners (ELLs). I really want students to talk like mathematicians, explaining their algorithms and debating approaches to problem-solving in a way that is light and spirited as if we are having a cool conversation. I know that deepening my ability to express the “fun of math” is going to be an area of growth for me because I have been brainwashed into thinking (like many of us were) that math is serious and hard. I STILL have to unlearn this when working with older children.

How can I document their learning decisions so I can create more opportunities to engage, process and reinforce key concepts while also expanding their cognitive boundaries? Right now I am reading A Guide to Documenting Learning: Making Thinking Visible, Meaningful, Shareable, and Amplified by Silvia Rosenthal Tolisano and Janet A. Hale in the hopes of deepening my knowledge and finding answers to this complex question. I also find that this Math Mindsets Teaching Guide from YouCubed will be incredibly helpful in my professional learning journey.


So as I think about our first unit of inquiry in our stand-alone Programme of Inquiry (POI), I find this a wonderful opportunity to develop play as a stance to inquiry maths. Here’s the unit:

Central Idea: Exploring patterns and solving problems empowers us to think mathematically

An inquiry into how mathematicians . . .

1.Construct meaning based on their previous experiences and understandings
Make meaning from what they understand

2. Transfer meaning to connect and deepen their knowledge and understanding
Make connections to deepen their knowledge and understanding

3. Apply their understanding of mathematical concepts as well as mathematical skills and knowledge to real life situations
Use what they understand to solve problems

CONCEPTS – Connection Reflection
ATTITUDES – Independence Confidence
LEARNER PROFILE: Knowledgeable Communicator

 

I am considering what provocations would allow the students to “to show what they know”–which is really the essence of our first unit.

Before I do any provocations though, I have to survey and collect data. Nothing fancy, but I need to know their answers to the following questions and then analyze their answers to make informed choices on how we can create invitations to play in mathematics. Also, it helps me to assess the Key Concept of ReflectionaflThese are the open-ended statements that can help me understand where the students are now:

  1. Math is……
  2. Math makes me feel…..
  3. Math is fun when….
  4. I do math by…
  5. Math is everywhere (agree or disagree) because…..

Here is some of the brainstorming that I am considering for “provocations” to begin to shape our awareness in our daily lives and help create an authentic invitation to play. (By the way, this is my first thinking–I haven’t collaborated or researched with peers–so this is raw and rough ideas, happening in real time on this blog):

  • The ole’ suitcase: Place inside a seemingly odd collection of items from everyday life  that represent mathematical strands* like a pair of pants (measurement), a bottle of water (shape and space), a license plate (number and pattern), a bag of candy (data handling), a clock (number), a map (shape and space), some rocks or shells (data handling/number and pattern), some tape (measurement). Then have students pair up, select an item, and discuss the guiding questions. Record their thinking onto SeeSaw.

(*May I just say that I know that selecting those items and arbitrarily labeling them in particular strands is a bit comical because I know that the students will come up with more interesting ideas and connections than I ever will. But this is just an “accounting task” to ensure that, in my adult mind, I’ve covered all possible topics.)

The Guiding Question(s): If math is everywhere, then how are these things related to math? What math might someone have used to create these things?–What ideas were people thinking about when they made these items? (Key Concepts: Connection, Perspective)

The next day, we would need to share those survey results with the class so that students can start developing their identities as mathematicians. We’d probably come up with a display and have the students do a gallery walk and discuss what they noticed. Then I would set out these items and ask a follow-up question: If you were to sort these items, which things would you put together and why? (This is just to further identify the connections they’ve made)

Up until this point, I am just trying to kill two birds with one stone: plant a seed that math can be everywhere and collect data about their thinking. But now I have set up the opportunity to have purposeful math discussions through invitations to play.  Of course, the types of tools and learning situations that can be engaged through play will obviously vary based on the survey and the data collected from the provocation.

But I think we could set up a variety of “challenges” or authentic contexts that can be steeped in play-based situations.

Example: The Challenge: Your mission should you accept it……

  • Fill the cup: using a straw and this bowl of water, how might we fill the cup to the line?

Possible Tools: drinking straw, spoon, soap pump, timer, popsickle sticks, paper, pencils

Because I didn’t ask for a particular tool to be used, then this becomes a more open-ended task, allowing more choice and helps me to get data on the student’s thinking. This amps up the play quotient and math possibilities.

Possible teacher questions: What if you used a spoon (or straw, or soap dispenser, etc..), how might this change your results? How do you know that you have completed this challenge? How might you do this challenge faster? How do you think we could record your success?

This forward planning for a provocation and “play-storm” is really just the beginning. In less than 2 weeks, the doors will officially open and learning will officially commence for the 2018-2019. I couldn’t be more eager to approach this year’s learning with a dedication to play, taking their ideas and imaginings and connecting them to math learning that matters to them is going to be important and fun work. As I consider the possibilities with play, it gets me really excited. I hope, no matter what age we teach, educators see the value and need for play in developing mathematical thinking.

 

Eat, Sleep and Learn: In A State of Perpetual Practice

Eat, Sleep and Learn: In A State of Perpetual Practice

Practice is a kind of severe devotion… This kind of discipline creates muscle memory, but even more so, this internal sensitivity andfamiliarity with the craft opens up and sparks invention and improvisation. Any kind of regular practice makes way for discovery and subtlety, and imaginative nuance will follow. -Gail  Swanlund-

I’m starting a new unit: How We Express Ourselves- We appreciate both the patterns that occur in the natural world and the ones that we create. During my first week of pre-assessment my mind says “No, no, no–these plastic toys and manipulatives, they are eye catching and helping them to develop the concept of pattern, but I want them to observe the natural world and get inspired by the lines, shapes, and colors they see!”

I can’t begin to tell you how mixed my emotions were–most of my students are on target, as they seem to understand the basics, copying, extending  and creating models, but this unit is supposed to be about the appreciation of the aesthetic, I have to dig digger and find ways to induce a state of curiosity and wonder in order to develop creativity and expose the limits of their imagination!!

If any early years teachers accustomed to teaching 3-5 years old were to look at these photos, they would be content with the approximations and, in some cases, clear understandings of the concept of pattern in our first week of our unit.  I think these learning tools are excellent ways to develop the structure of how we can manipulate shape and color, and it also gives them practice at creating repetition in forming patterns. However, as much as I love these little people’s effort, I know if I am to continue in this vein for this unit, I am totally missing the mark of the transdisciplinary theme.

I grabbed my laminated line drawing cards and dragged our lovely art teacher into my room to help me think about my classroom design and how I can organically teach pattern in lessons. I knew as soon as I began collaborating, I was out of my depth–I am not an artist, or at least that is how I perceive myself. (God help me when I sit down with the music teacher.) Panic began to set in….

So I  have begun to convert my classroom into different “environments”. One will be “water world”, “forest world” and “human world”, respectively.  And, if I was to really nail this unit, I was going to have to work on developing my craft so I could faithfully explore the idea of the aesthetic so the kids would demonstrate higher forms of creativity and irules-coritanventiveness.

With that in mind, I have decided to embark upon a learning journey, to jump into this inquiry as if I was the student and not necessarily the teacher. I’ve signed myself up for an Introduction to Image Making MOOC  from a graphic design perspective, and start to explore how I can incorporate some of these class assignments into my classroom. As I think about this endeavor the “rules” by Sister Corita Kent really speaks to how I can approach areas of my practice which are not as I am not as comfortable and familiar with.

Since I have decided to use the context of different environments to observe patterns, I have begun to consider how I might devise different provocations in which we can look at animals and their markings. Here are just a few ideas I have for the unit during our exploration and finding out phase of the inquiry.

  • Animal tails: I was thinking about a “cover and peek” activity. Using some of the languages from the Visible Thinking strategy, I See, I Think, I Wonder, we can look at pictures of animals with only their tails showing. Later, the students would be offered the use of materials like string and felt to create wavy, spotted and swirly tails.
  • Thunderstorm: I was thinking of listening to sounds of different types of storms and have the students give me words to describe what they hear.
    • Then I would give them some instruments and let them try to model what they hear. Later I would offer some drums, but I was thinking that I might cover the drum with some white paper and tape some different color crayons on it. In that way, when they are making their sounds, there would be markings on the paper.
    • Also, I plan on offering the colored water and droppers. I  was thinking that we could make raindrops using those materials, and they could watch the concentric circles form, as they drop the colored water into a tub of clear water.

These are just a couple of ideas that I was inspired with after 1 week from that MOOC. The longer I teach, the more I come to understand how important to do things that stretch me so that I not only cultivate a classroom rich in learning but that I model the growth mindset in my classroom–even if these ideas fail, at least I developed some opportunities to show the creative process over product. I want to endeavor to experience this inquiry as a participant, as much as I am the facilitator, so I am equally excited about what the students will come up with once the reins are taken off their imagination.

Hard Fun

Hard Fun

You’ll find the future where people are having the most fun.

-Steven Johnson

I’ve been a bit obsessed these days with Steven Johnson and I can’t get the idea of the adjacent possible out of my mind. I’m slow reading his book, Where Good Ideas Come From, savoring his detail of the history of innovation.

And he has a new book out about play: Wonderland: How Play Made the Modern World–now I know what I want for Christmas!!

 

As I consider the parallels between of innovation and education, the big ideas from constructionists seem to be at the intersection of these two fields. Guy Claxton says it best when he answers the question, “when is learning?-when there is disappointment or surprise.” Then the concept of hard fun really becomes foundational when we consider how our classrooms become the petri dish of ideas for the future.

So this notion of challenging and stimulating engagement of a task or project, what I am calling hard fun, has some requirements:

  1. Time in order to think, plan and execute ideas–this seems almost implicit.
  2. Complexity so that students can call upon their prior knowledge and develop interdisciplinary skills.
  3. Intensity so that one gets lost in the idea and has to grapple with the challenges that present themselves in the learning.
  4. Connection, not just between subject areas but with people, as students look to each other and experts for collaboration.
  5. Relevancy, which is not only obvious for the students but also encapsulates the concept of shareability, in that this project or idea can be consumed by a larger audience.

I think if we approach learning more in this way, with a more playful approach to exploring curiosities, innovations might naturally emerge. And I know Steven Johnson would argue that curiosity, not necessity, is the mother of invention.

 

 

 

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