Designing quality open- ended tasks in mathematics

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Designing quality open- ended tasks in mathematics Louise Hodgson May 2012

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Designing quality open- ended tasks in mathematics. Louise Hodgson May 2012. Characteristics of good questions. Require more than remembering a fact or reproducing a skill, Students can learn from answering the questions; teachers can learn about the students, - PowerPoint PPT Presentation

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Page 1: Designing quality open- ended tasks in mathematics

Designing quality open- ended tasks in mathematics

Louise HodgsonMay 2012

Page 2: Designing quality open- ended tasks in mathematics

Characteristics of good questions

Require more than remembering a fact or reproducing a skill,

Students can learn from answering the questions; teachers can learn about the students,

May be several acceptable answers.Sullivan and Lilburn 2004

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Why open ended questions?•They engage all children in mathematics learning.

•Enable a wide range of student responses.

•Enable students to participate more actively in lessons and express their Ideas more frequently.

•Enable teachers opportunity to rove and probe student mathematical thinking.

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Characteristics of good teachers

•They plan less•The lesson is predominately about interacting with the students.

•Peter Sullivan 2008

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Making questions open ended

Method 1: Working backwardsIndentify a mathematical topic or

concept.Think of a closed question and write

down the answer.Make up a new question that includes

(or addresses) the answer.

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Method 1: Working backwards

How many chairs are in the room?(4)can become ….

I counted something in our room. There were exactly four. What might I have counted?

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Method 1: Working backwards

Round this decimal to one decimal place: 5.7347

can become …. A number has been rounded off to 5.8. What might the number be?

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Method 1: Working backwards

Find the difference between 6 and 1

can become ….

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Method 1: Working backwards

The difference between two numbers is 5. What might the two numbers be?

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Making questions open ended

Method 2: Adapting a standard question

Indentify a mathematical topic or concept.

Think of a standard questionAdapt it to make an open ended

question.

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Method 2: Adapting a standard question

What is the time shown on this clock?

Can become…My friend was sitting in class and she looked up at the clock. What time might it have shown? Show this time on a clock

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Method 2: Adapting a standard question

731 – 256 =Can become…

Arrange the digits so that the difference is between 100 and 200.

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Method 2: Adapting a standard question

Ten birds were in a tree. Six flew away. How many were left?

Can become…

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Method 2: Adapting a standard question

Ten birds were in a tree. Some flew away. How many flew away and how many were left in the tree?

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In the number 35, what does the 3 mean?

.

Now have a go yourselves!

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Some important considerations

•The mathematical focus•The clarity of the task/

question•That it is open ended

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Building open ended tasks into a lesson

It is important to plan two further questions/ prompts:

•For those children who are unable to start working (enabling prompts).

•For those children who finish quickly (extending prompts).

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High quality responseExamples of evidence of a high quality response includes those that:

•Are systematic (e.g. may record responses in a table or pattern).

•If the solutions are finite, all solutions are found.

•If patterns can be found, then they are evident in the response.

•Where a student has challenged themselves and shown complex examples which satisfy the constraints.

•Make connections to other content areas.

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Discuss the tasks and adaptions. Consider the following:

1. What is the maths focus of the closed task?

2. Does the new tasks have the same mathematical focus?

3. Is the new task clear in its wording?

4. Is the new task actually open ended?

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Lesson structureKey components:•Open ended tasks which allow all students accessibility,•Explicit pedagogies,•Enabling prompts for those children who are experiencing difficulty,•Additional task or question to extend those children who complete the original task.

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References

Sullivan, P., & Lilburn, P. (2004). Open – ended maths activities. Melbourne, Victoria: Oxford.

Sullivan, P., Zevenbergen, R., & Mousley, J. (2006). Teacher actions to maximize mathematics learning opportunities in heterogeneous classrooms. International Journal for Science and Mathematics Teaching. 4, 117-143

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