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2019-2020 primary teachers study group: session two

Posted on: December 11th, 2019 by jnovakowski

Our second session of the year was hosted at Homma Elementary on November 28 – with thanks to Sarah and Reiko for having us.

K-7 Curriculum Implementation Teacher Consultant, Jess Eguia, began our time together with a land acknowledgement and three ways to enhance land acknowledgements in our schools. She shared the beaded timeline, sharing the story of time immemorial on this land,

and the Musqueam place names map which shares the significance of key places in the territory.

Jess also shared some ideas about Indigenous ways of knowing and being that could help teachers to elaborate and extend their students’ thinking about land acknowledgements.

Using land-based materials found locally, we did some bundle dyeing.

While the bundles steamed, we headed outside for a walk along the river, sharing stories of this place over time.

We came back into the Homma library for a hot cup of tea, the unbundling and sharing what we have been trying with our students, inspired by the resource books that are inspiring us this year.

Looking forward to continuing our conversations around land-based interdisciplinary projects in the new year!

~Janice

intermediate numeracy project: water conservation task

Posted on: December 10th, 2019 by jnovakowski

On November 27, I visited the grades 5&6&7 class at Quilchena to continue our focus on numeracy and for this session together I selected a numeracy task from Dr Peter Liljedahl’s website. The task continues the thinking we have been doing about water issues and and moves to thinking about agency around water conservation. We took some time together to go through what the task was asking of the students, what assumptions they needed to make, what calculations might be necessary and how they could share their recommendations.

Teachers Jen Yager and Sam Davis personalized the task by changing the names to teachers’ names from their staff. This made for some interesting comments about dental hygiene habits!

We needed to pause after the students read through and shared their understanding of the task with each other. Based on the experience we had with the last numeracy task we did, we had agreed to provide some supports to ensure students were able to get started with the task successfully. We talked through what the task was asking, what information they might need to research, what assumptions they needed to make and asked them about different ways they might approach the task.

When some of the students weren’t clear on what the differences between no flow, low flow and high flow of water was, a student quickly demonstrated for them at the sink.

The students researched the Canadian Dental Association’s recommendations for teeth brushing and did calculations for water usage. Based on their findings, they made recommendations to the teachers on ways they could conserve water while maintaining good dental hygiene. Some students wrote this up as a “report” while one student wrote a letter to her teacher with specific recommendations, backed up with her evidence.

Numeracy tasks such as these, organized by grade ranges, can be found on Dr. Peter Liljedahl’s website HERE.

~Janice

intermediate numeracy project: water crisis in Canada

Posted on: November 29th, 2019 by jnovakowski

I visited the grades 5&6&7 class at Quilchena for the second time on October 30. Inspired by the students’ interest in youth agents of change around climate change and by a mathematical modelling task created by Dr. Julia Aguirre about the Flint Water Crisis in the USA, we invited the students to think about the water crisis on many of our First Nations reserves in Canada.

We began by showing the students a video of water projector and advocate Autumn Peltier speaking to the United Nations 2019 Local Landscapes Forum about the water crisis in her community.

The video can be viewed HERE.

The students took notes, made connections, and recorded their wonders while they were viewing/listening to the video.

We shared three infographics about water issues in Canada and asked students to discuss the following questions:

We also asked students to consider the sources of the information in the infographics as we nurture the development of critical consumers of information.

More information and the infographics can be found HERE and HERE and HERE.

Much of the information was new to students and lots of questions came up. We discussed different types of water advisories and possible reasons why this was happening.

Students were then presented with a numeracy task. They were asked to consider how much water was needed for children for a year in a First Nations community. The purpose of the task was for students to consider the amount of water we use, issues around access to safe water and to think about an action plan for their “agents of change” thinking about how this problem could be resolved.

In hindsight, we made some assumptions that students would be able to think about all the types of information they would need to respond to this task, and know how to access this information using online sources. This was not the case, and a lot of support was needed to help students consider where they could find the information they needed. We talked about validity of sources, such as using Statistics Canada data rather than someone’s opinion on a blog post. The teachers and I realized that the students needed some mini-lessons on how to use Google as a search engine. I think we made assumptions about the students that they knew how to use technology, and they are savvy with many aspects of tech, but their fluency with accessing information was something we needed to develop. When we were able to find information, many students needed support in how to read the data tables. It became clear as we began the numeracy task, that this was much more complex of a task for the students than we had anticipated but we all persevered and made meaning at various levels and stages. For some students, support was needed with the mathematics and calculations involved.

Over the two hours we had together, students thought through various stages of the task. Some students got to the point of considering recommendations for how to reconcile the water crisis in some of our communities but not formalizing their action plans. Some students wondering what was happening to solve this issue.

We briefly looked at the Canadian government’s current plan. More information can be found HERE. This will be an ongoing conversation as we think about different ways that students can see themselves and act as agents of change.

~Janice

April thinking together: communicate mathematical thinking in many ways

Posted on: April 30th, 2019 by jnovakowski

This month’s curricular competency focus is communicate mathematical thinking in many ways. This curricular competency is the same across grades K-9 and is included in the Grades 10-12 courses as “explain and justify mathematical ideas and decisions in many ways“.

This competency falls under the organizer of  “Communicating and Representing” which includes the following related competencies:

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Elaborations are suggestions for educators to consider as they plan for developing this curricular competency:

  • communicate using concrete, pictorial and symbolic forms
  • use spoken or written language to express, describe, explain, justify and apply mathematical ideas
  • use technology for communication purposes such as screencasting and digital photography and videography

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There are clear connections between the Core Competency of Communication with this grouping of curricular competencies. A one-page table showing the language of both types of competencies can be downloaded here:

SD38 K-5 Math Communication_Avenir

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An important part of communicating mathematical thinking in many ways is to be able to use different forms such as concrete (materials or math manipulatives), pictorial (drawings, diagrams, tallies) or symbolic forms (numerals and symbols).

An example from primary classrooms of how students may move from concrete to symbolic notations is with the use of materials such as base ten blocks. Students may communicate their understanding of numbers by creating that number with materials and then recording the symbolic notation. The following are some examples from a grades 2&3 classroom at Cook Elementary that show how children used concrete, pictorial and symbolic forms to help them solve and communicate their solutions for mathematical problems.

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As students begin to understand a concept, such as multiplication, they usually construct a representation with materials to build understanding. These representation may then be recorded pictorially and then labels are added using symbolic notation. This fluency between forms is important and the connections between representations is essential to conceptual understanding. A student may be presented with a symbolic form (such as an equation) and asked to show a concrete form or pictorial form that “matches”. The following are examples from a grades 2&3 classroom at Tomsett Elementary.

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For our intermediate and secondary students, it is still important to be using concrete materials, especially when students are developing their understanding of a new concept such as fractions, decimals, or integers. The following are examples from a grades 4&5 classroom at Homma Elementary

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and also more fraction investigations with a grades 4&5 class at Steves.

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In our curriculum, the terms “concrete, pictorial and symbolic” are used in ways for students to think about concepts but also to communicate and represent their thinking. In some other jurisdictions around the world, the term CRA is used to reference an instructional approach to concept development, standing for Concrete, Representational and Abstract. More information can be found HERE. There is some overlap between the the CRA framework and how our curriculum focuses on concrete, pictorial and symbolic communication of mathematical thinking and understanding.

Another area of focus in our district is using iPad technology for students to communicate their thinking and learning. One of the most common uses of the devices in math is to use screen casting apps such as doceri, ShowMe, Explain Everything or 30Hands. When students screencast, they can take a photograph or video of what they are doing and then annotate with arrows, words etc and then orally describe their problem-solving process or thinking. For example, in a grade 8 class at Hugh Boyd Secondary, students took images of number balances they used to develop their understanding of equivalence in algebraic equations and then communicated their thinking by orally explaining their understanding.

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Some questions to consider as you plan for learning opportunities to develop the competency of communicating mathematical thinking in many ways:

How is the core competency of communication noticed, named and nurtured during the teaching and learning of mathematics?

What different materials are students learning to use, think through and represent with? What materials are mathematically structured and what other types of materials might we offer to students?

What opportunities are we providing for students to share their thinking in different ways? Are students provided with choices and is there a balance in the different ways students can communicate their mathematical thinking?

How might technology provide access for students or transform the way they are able to communicate their mathematical thinking?

 ~Janice

March thinking together: engage in problem-solving experiences connected with place, story and cultural practices and perspectives

Posted on: March 14th, 2019 by jnovakowski

This month’s curricular competency focus is engage in problem-solving experiences that are connected to place, story, cultural practices and perspectives relevant to local First Peoples communities, the local community, and other other cultures. This curricular competency is the same across grades K-12 and courses and falls under the organizer of “Understanding and Solving” which suggest the focus of using contextual and meaningful experiences to support mathematical understanding.

Elaborations are suggestions for educators to consider as they plan for developing this curricular competency:

  • in daily activities, local and traditional practices, the environment, popular media and news events cross-curricular integration
  • have students pose and solve problems or ask questions connected to place, stories and cultural practices

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The focus and thinking behind this curricular competency are the ideas of authenticity, meaningfulness, engagement and connectedness. Not all mathematics learning needs be contextualized or connected to “real life” but for many students who may see math as something that they do at school between 9 and 10am and don’t yet see the relevance of the math they are learning, providing tasks and problems that connect to place, community and culture may support their mathematical thinking and learning and broaden their understanding and appreciation for what math is and how it can be experienced. Experiential and holistic learning are foundational to the First Peoples Principles of Learning and these are considerations for all learners. The First Peoples Principles of Learning also remind of us of the importance of connecting learning through place and story, working with others and developing a self of self, family, community and culture. This curricular competency is aligned with the Personal and Social Core Competency – positive personal and cultural identity, personal awareness and responsibility and social responsibility.

Some resources to consider:

Messy Maths by Juliet Robertson (elementary resource for taking math learning outdoors)

Tluuwaay ‘Waadluxan Mathematical Adventures edited by Dr. Cynthia Nicol and Joanne Yovanovich (mathematical adventures from Haida Gwaii developed by community members, elders and educators)

BC Numeracy Network – Connecting Community, Culture and Place

First Peoples Mathematics 8&9 developed by FNESC – this teacher-created resource is being revised to reflect the current BC mathematics curriculum and provide more learning experiences across grades and disciplines.

 

Blog posts from this site with related information:

Place-Based Mathematics

Place-Based Mathematical Inquiry

Primary Study Group 2018-2019 – Outdoors Math

Indigenous Content and Perspectives in Math

 

Some questions to consider as you plan for learning opportunities to develop the competency of engaging in problem-solving experiences connected to place, story and cultural practices and perspectives:

How does place/land/environment inspire mathematical thinking? What potential numeracy or problem-solving tasks emerge when we think about local land-based contexts?

What problems or issues are facing the local community? How might mathematics help us to think about and understand these problems or issues? What information or data might be collected and shared? How can we use different tools to communicate mathematical information to create an opportunity for discussion and engaging in a problem-solving process?

How does Indigenous knowledge connect, intersect and support the curricular competencies and content in our mathematics curriculum? Who is a knowledge holder in your local First Nations community that you could learn from and with? 

What are authentic resources? What stories and cultural practices are public and able to be shared? What doe it mean to use authentic resources, stories, and elements of culture in our mathematics teaching? How are resources specific to a local context? Who can we go to to find out more information and learn about local protocols?

What cultural practices in your community have mathematics embedded in them? How might we use the structure of “notice, name and nurture” to expand awareness of what mathematics is and how it can be experienced?

How can stories help us think about the passage of time, relationships, connections and mathematical structures, actions and models?

~Janice

creating spaces for playful inquiry: thinking about the hundred languages – April 2018

Posted on: May 16th, 2018 by jnovakowski

For our final session of this year’s Creating Spaces for Playful Inquiry professional learning series, we focused on the Hundred Languages – a grounding element of the educational approach from the childcare centres in Reggio Emilia, Italy. The Hundred Languages concept is based on a poem by Loris Malaguzzi who suggests that all children have a hundred languages (or more) in which to express themselves and that are role as educators (and school systems) is to nurture these languages, not suppress them.

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As Richmond educators entered the room, they were invited to they were asked to reflect on how the hundred languages are living in their classrooms.

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The Richmond educators who visited Opal School in Portland over spring break shared their reflections on the experience through documentation panels.

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Carrie Bourne,  Jen Yager and Julie Curran shared what they learned at Opal and how they have taken some of these ideas up in their own teaching contexts.

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Marie Thom and I shared some of our experiences from our Canadian Study Tour of Reggio Emilia in March. I shared some ideas I saw about intersecting digital and analog languages through digital landscapes and Marie shared the power of the language of food and the metaphor of the table to bring people together.

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After dinner together (enacting the table metaphor) our interest groups met with playful inquiry mentors to share ideas and go deeper with their understanding about playful inquiry.

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We collected feedback from educators who have attended this three part series as we reflect on our learning from this year and think ahead to next year.

“Love the opportunity to collaborate with others and hear others share about their thinking/learning and what they are trying in their classrooms. It is thought-provoking and inspiring.”

“Playful inquiry and teaching is a learning process, always growing and changing and best in collaboration with others teachers and peers.”

“This series has kept me inspired when I’ve felt uninspired or simply tired.”

“This series completely changed the lens through which I see my role as the teacher and the roles of the students.”

There was considerable interest in creating opportunities for teachers to visit others’ classrooms to see playful inquiry in action and to be able to collaborate with colleagues from across the district.

 

Regardless of how how things unfold for professional learning opportunities in our district for next year, we know we have a strong and growing community of educators committed to teaching and learning through playful inquiry. Thanks to all of the educators involved in this series for their contributions and participation!

~Janice on behalf of the Playful Inquiry Mentors

2017-18 big mathematical ideas for grades 3-5

Posted on: May 13th, 2018 by jnovakowski 2 Comments

In its fourth year, a group of grades 3-5 teachers came together three times after school to think about the big mathematical ideas for this grade range, considering the pedagogical content knowledge needed to teach and assess student learning. Our first session of the year on October 18 focused on the number concepts big ideas in our curriculum which at gates 3-5 focus on a deep understanding of fractions.

We began with an image from fractiontalks.com – a website curated by Canadian math educator Nat Banting. We considered what students needed to understand about fractions to engage with this task and anticipated how are students might respond to the challenge of figuring out what fractional part of the large square is the shaded blue triangle.

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We considered how different materials provided different affordances for thinking about fractions, particularly thinking about different ways to represent fractions – set, area and linear. Some of the text slides from the session and a handout follow.

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Unfortunately, I had to cancel our January session due to illness.

We came together again on April 11 and based on feedback from the group, discussed computational fluency and the role of inquiry in learning mathematics. We revisited instructional routines such as Which One Doesn’t Belong? (wodb.ca) and considered how these routines incorporate questioning, wondering and nurture the curricular competencies in mathematics.

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~Janice

2017-18 primary teachers study group: session 5

Posted on: May 13th, 2018 by jnovakowski

On April 12, our study group met on the dyke of the middle arm of the Fraser River. We were joined by “Indigenous Plant Diva” and current storyteller in residence for the Vancouver Public Library, Cease Wyss. A short video about Cease can be found HERE.

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As we walked along the river, Cease pointed out different plants to us and shared knowledge and stories about the plants. Paying attention to a plant’s colour, shapes and texture can indicate part of the body or ailment it can provide medicine for. For example, red berries often support blood, muscles and organs.

Cease explained the importance of cattails to cleanse the water along the river as well as providing food and nesting materials for birds. We learned how some plants like dead nettle and chickweed can be used as salves to treat skin ailments and how other plants such as stinging nettle or salmonberry leaves can be infused in hot water to create teas to address different ailments.

We learned to identify plantain (frog’s leaf), dead nettle, chickweed, Nootka rose, sheep sorrel and horsetail, the oldest plant on the planet.

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Teachers left with so much new knowledge about local plant species. This knowledge building is an important part of our study group and was something that was requested by teachers to enhance they work they are doing with their students around storytelling outdoors. We can find ways to share this new knowledge with our students and weave this in to our storytelling experiences.

~Janice

March thinking together: What is computational fluency?

Posted on: May 12th, 2018 by jnovakowski

Computational fluency is defined as having efficient, flexible and accurate methods for computing.

-NCTM, 2000

Computational fluency develops from a strong sense of number.

(BC Math Curriculum, Big Idea, K-9, 2015)

 

In BC’s redesigned curriculum, computational fluency has been given a heightened emphasis. In mathematics, there are typically four strands of topics/content and in this iteration of our curriculum, a fifth strand – computational fluency –  has been added and this is reflected in the big ideas and curricular competencies and content.

The meta big idea around computational fluency in our BC K-9 Mathematics curriculum is:

Computational fluency develops from a strong sense of number.

There is a big idea for computational fluency at each grade level:

K: One-to-one correspondence and a sense of 5 and 10 are essential for fluency with numbers.
Grade 1: Addition and subtraction with numbers to 10 can be modelled concretely, pictorially, and symbolically to develop computational fluency.
Grade 2: Development of computational fluency in addition and subtraction with numbers to 100 requires an understanding of place value.
Grade 3: Development of computational fluency in addition, subtraction, multiplication and division of whole numbers requires flexible decomposing and composing.
Grade 4: Development of computational fluency and multiplicative thinking requires analysis of patterns and relations in multiplication and division.
Grade 5: Computational fluency and flexibility with numbers extend to operations with larger (multi-digit) numbers.
Grade 6: Computational fluency and flexibility with numbers extend to operations with whole numbers and decimals.
Grade 7: Computational fluency and flexibility with numbers extend to operations with integers and decimals.
Grade 8: Computational fluency and flexibility extend to operations with fractions.
Grade 9: Computational fluency and flexibility with numbers extend to operations with rational numbers.

As computational fluency with whole numbers is focused on in the earlier grades, it is expected that students will apply number sense and computational fluency and flexibility to their work with decimal numbers, greater numbers, integers and fractions.

For addition and subtraction and then multiplication and division, students develop computational fluency over three years – beginning with emerging fluency, then developing through proficiency and then moving on to extending fluency with increased flexibility and ability to apply strategies across contexts and content.

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For example, with addition and subtraction:

In Grade 3, the curricular content learning standard is “addition and subtraction facts to 20 (emerging computational fluency)“.

In Grade 4, it is “addition and subtraction facts to 20 (developing computational fluency)”.

And in Grade 5, it is “addition and subtraction facts to 20 (extending computational fluency)”.

It is also important to be aware of what comes before and after these three stages of development. In grades 1 and 2, students are introduced to the concepts of addition and subtraction as well as the related symbolic notation. They begin to practice mental math computational strategies building on their understanding of five and ten and decomposing numbers to work flexibly with addition and subtraction questions. In grades 6&7, students apply computational strategies that they have developed for addition and subtraction facts with greater whole numbers, decimal numbers and integers.

There is a similar progression for multiplication and division facts.

A note about memorizing…memorizing is one form of learning but is not necessarily related to students having computational fluency. Many teachers in our district report that their students have memorized their addition or multiplication facts but need support with thinking flexibly and fluently with numbers. In our BC mathematics curriculum, the expectation is that by the end of Grade 3 for addition and the end of Grade 5 for multiplication,  that most students will be able to recall their facts. In a previous curriculum, recall was defined as being able to compute within three seconds. For some students, there may be instant memory retrieval and for other students they may bring the sum or product to mind through an efficient mental computational strategy or associative retrieval process.

Number Talks are an essential instructional routine in developing strategies, mathematical discourse and creating awareness about computational fluency. Key resources include:

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Number Talks

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So some questions to think about…

How would you define computational fluency? What does it look like? sound like?

What do your students need move towards more developed computational fluency?

What do you need to understand more about regarding a continuum of learning and specific strategies related to computational fluency?

What are different ways to develop computational fluency? What instructional routines, games or tasks could we use for practice?

How can we communicate the goals of computational fluency to parents?

~Janice

creating spaces for playful inquiry: thinking about reflection – January 2018

Posted on: May 11th, 2018 by jnovakowski

On January 25, Richmond educators gathered at Grauer for our second dinner session of our Creating Spaces for Playful Inquiry professional learning series. This month our focus was on reflection and time. Educators shared their experiences engaging in playful inquiry with their students and considering the role of reflection in documentation and making both students’ and our professional learning visible.

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After dinner together, teachers participated in interest groups facilitated by our playful inquiry mentors.

A handout with curricular connections to the idea of reflection can be found here: Reflections_Provocations_Jan25_2018

~Janice