Common Core Math, 10-14-13
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Transcript of Common Core Math, 10-14-13
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EPSD
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How can I let go?
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Solve problems
Manage Oneself
Adapt to Change
Analyze/Conceptualize
Reflect on/Improve Performance
Communicate
Work in Teams
Create/Innovate/Critique
Engage in Lifelong Learning
Purpose for Shifts in Mathematical Practice
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4 sC
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C
C
CC
ollaboration
ritical Thinking
reative Thinking
ommunication
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PennsylvaniaStandards
for MathematicalPractice
Make sense of and persevere in solving complex and novel
mathematicalproblems
Use effective mathematical
reasoning to construct viable arguments and
critique thereasoning of others
Apply mathematical knowledge to analyze and model situations/relationships using
multiple representations and appropriate tools in
order to make decisions, solve
problems, and draw conclusions
Communicate precisely when making
mathematical statements and
express answers with a degree of precision
appropriate for the context of the
problem/situation
Make use of structure and repeated
reasoning to gain a mathematical
perspective and formulate generalized
problem solving strategies
1 2
43 5
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7KH�1RWLRQ�RI�3URGXFWLYH�6WUXJJOH
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There are 25 sheep and 5 dogs in a flock. How old is
the Shepherd?
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There are 25 sheep and 5 dogs in a flock. How old is
the Shepherd?
Three out of four students will give a numerical answer
to this problem.
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7KHUH�DUH����VKHHS�DQG���GRJV�LQ�D�IORFN���+RZ�ROG�LV�WKH�6KHSKHUG"
There are 25 sheep and 5 dogs in a flock. How old is
the Shepherd?
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How can I let go?
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How can I let go?
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How can I let go?
Before
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How can I let go?
Before
During
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How can I let go?
Before
During
After
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Before
During
After
Getting Ready
* Get students mentally ready to work on task.* Be sure all expectations for products are clear.
Student Work
* Let go!* Listen carefully.* Provide hints.* Observe and assess.
Class Discourse
* Accept student solutions without evaluation.* Conduct discussion as students justify and evaluate results and methods.
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Before
During
After
Getting Ready
* Get students mentally ready to work on task.* Be sure all expectations for products are clear.
Student Work
* Let go!* Listen carefully.* Provide hints.* Observe and assess.
Class Discourse
* Accept student solutions without evaluation.* Conduct discussion as students justify and evaluate results and methods.
![Page 21: Common Core Math, 10-14-13](https://reader033.fdocuments.in/reader033/viewer/2022051108/5455a69eb1af9f39378b49c2/html5/thumbnails/21.jpg)
Before
During
After
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Before
During
After
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Before
During
After
Model
Discussion
Research
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Before
During
After
Model
Discussion
Research
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Before
During
After
Model
Discussion
Research
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Before
During
After
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Before
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Before: Model
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Before: Model
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Before: Model• Connect to student
experiences
• Students explain what the question is asking
• Let go!
• Avoid telling them how to solve the problem
• Role play appropriate answers
• Lay the groundwork for future activities
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Before: Model
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Before: Model
Due to the government shutdown, factories have been told that there is a
shortage of red thread in the United States. What kinds of products will this affect?
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Before: Discussion
How is what you experienced the same or different from your current classroom?
How are we making studentsaccountable for their own learning?
How is this helping you to let go?
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During Let go!
Notice students’mathematicalthinking.
Provideappropriatesupport.
Provideworthwhileextensions.
Although it is tempting to want to step in and “help,” hold back and enjoy observingand learning from students.
Base your questions on students’ work and their responses to you. Use prompts like:Tell me what you are doing; I see you have started to [multiply] these numbers. Canyou tell me why you are [multiplying]? [Substitute any process/strategy]; Can you tell me more about...? Why did you...? How does your work connect to the problem?
Look for ways to support students’ thinking and avoid telling them how to solve theproblem. Ensure that students understand the problem (What do you know about theproblem?); ask the student what he or she has already tried (also, Where did you getstuck?); suggest that the student use a different strategy (Can you draw a diagram?What if you used cubes to act out this problem? Is this like another problem we havesolved?); create a parallel problem with simpler values (Jacobs & Ambrose, 2008).
Challenge early finishers in some manner that is related to the problem just solved.Possible questions: I see you found one way to do this. Are there any other solutions?Are any of the solutions different or more interesting than others? Some goodquestions for extending thinking are, What if...? or Would that same idea work for...?
AfterPromote a community oflearners.
Listen activelywithoutevaluation.
Summarize mainideas and identifyfuture problems.
You must teach your students about your expectations for this part of the lesson andhow to interact respectfully with their peers. Role play appropriate (and inappropriate)ways of responding to each other. The “Orchestrating Classroom Discourse” sectionprovides strategies and recommendations for how to facilitate discussions.
The goal here is to notice students’ mathematical thinking and making that thinkingvisible to other students. Avoid judging the correctness of an answer so students aremore willing to share their ideas. Support students’ thinking without evaluation bysimply asking what others think about a students’ response.
Formalize the main ideas of the lesson, helping to highlight connections betweenstrategies or different ideas. This is the time to reinforce appropriate terminology,definitions, and symbols. Possibly lay the groundwork for future tasks and activities.
Lesson Phase Teacher Actions in a Teaching Mathematics through Problem-Solving Lesson
Three-Phase Lesson StructureTable 2.1
BeforeActivate priorknowledge.
Be sure theproblem isunderstood.
Establish clearexpectations.
Begin with a simple version of the task; connect to students’ experiences; brainstormapproaches or solution strategies; estimate or predict whether tasks involve a singlecomputation or are aimed at the development of a computational procedure.
Have students explain to you what the problem is asking. Go over vocabulary thatmay be troubling. Caution: This does not mean that you are explaining how to do a problem, just that students should understand what the problem is about.
Tell students whether they will work individually, in pairs, or small groups, or if theywill have a choice. Tell them how they will share their solutions and reasoning.
![Page 35: Common Core Math, 10-14-13](https://reader033.fdocuments.in/reader033/viewer/2022051108/5455a69eb1af9f39378b49c2/html5/thumbnails/35.jpg)
During Let go!
Notice students’mathematicalthinking.
Provideappropriatesupport.
Provideworthwhileextensions.
Although it is tempting to want to step in and “help,” hold back and enjoy observingand learning from students.
Base your questions on students’ work and their responses to you. Use prompts like:Tell me what you are doing; I see you have started to [multiply] these numbers. Canyou tell me why you are [multiplying]? [Substitute any process/strategy]; Can you tell me more about...? Why did you...? How does your work connect to the problem?
Look for ways to support students’ thinking and avoid telling them how to solve theproblem. Ensure that students understand the problem (What do you know about theproblem?); ask the student what he or she has already tried (also, Where did you getstuck?); suggest that the student use a different strategy (Can you draw a diagram?What if you used cubes to act out this problem? Is this like another problem we havesolved?); create a parallel problem with simpler values (Jacobs & Ambrose, 2008).
Challenge early finishers in some manner that is related to the problem just solved.Possible questions: I see you found one way to do this. Are there any other solutions?Are any of the solutions different or more interesting than others? Some goodquestions for extending thinking are, What if...? or Would that same idea work for...?
AfterPromote a community oflearners.
Listen activelywithoutevaluation.
Summarize mainideas and identifyfuture problems.
You must teach your students about your expectations for this part of the lesson andhow to interact respectfully with their peers. Role play appropriate (and inappropriate)ways of responding to each other. The “Orchestrating Classroom Discourse” sectionprovides strategies and recommendations for how to facilitate discussions.
The goal here is to notice students’ mathematical thinking and making that thinkingvisible to other students. Avoid judging the correctness of an answer so students aremore willing to share their ideas. Support students’ thinking without evaluation bysimply asking what others think about a students’ response.
Formalize the main ideas of the lesson, helping to highlight connections betweenstrategies or different ideas. This is the time to reinforce appropriate terminology,definitions, and symbols. Possibly lay the groundwork for future tasks and activities.
Lesson Phase Teacher Actions in a Teaching Mathematics through Problem-Solving Lesson
Three-Phase Lesson StructureTable 2.1
BeforeActivate priorknowledge.
Be sure theproblem isunderstood.
Establish clearexpectations.
Begin with a simple version of the task; connect to students’ experiences; brainstormapproaches or solution strategies; estimate or predict whether tasks involve a singlecomputation or are aimed at the development of a computational procedure.
Have students explain to you what the problem is asking. Go over vocabulary thatmay be troubling. Caution: This does not mean that you are explaining how to do a problem, just that students should understand what the problem is about.
Tell students whether they will work individually, in pairs, or small groups, or if theywill have a choice. Tell them how they will share their solutions and reasoning.
![Page 36: Common Core Math, 10-14-13](https://reader033.fdocuments.in/reader033/viewer/2022051108/5455a69eb1af9f39378b49c2/html5/thumbnails/36.jpg)
During Let go!
Notice students’mathematicalthinking.
Provideappropriatesupport.
Provideworthwhileextensions.
Although it is tempting to want to step in and “help,” hold back and enjoy observingand learning from students.
Base your questions on students’ work and their responses to you. Use prompts like:Tell me what you are doing; I see you have started to [multiply] these numbers. Canyou tell me why you are [multiplying]? [Substitute any process/strategy]; Can you tell me more about...? Why did you...? How does your work connect to the problem?
Look for ways to support students’ thinking and avoid telling them how to solve theproblem. Ensure that students understand the problem (What do you know about theproblem?); ask the student what he or she has already tried (also, Where did you getstuck?); suggest that the student use a different strategy (Can you draw a diagram?What if you used cubes to act out this problem? Is this like another problem we havesolved?); create a parallel problem with simpler values (Jacobs & Ambrose, 2008).
Challenge early finishers in some manner that is related to the problem just solved.Possible questions: I see you found one way to do this. Are there any other solutions?Are any of the solutions different or more interesting than others? Some goodquestions for extending thinking are, What if...? or Would that same idea work for...?
AfterPromote a community oflearners.
Listen activelywithoutevaluation.
Summarize mainideas and identifyfuture problems.
You must teach your students about your expectations for this part of the lesson andhow to interact respectfully with their peers. Role play appropriate (and inappropriate)ways of responding to each other. The “Orchestrating Classroom Discourse” sectionprovides strategies and recommendations for how to facilitate discussions.
The goal here is to notice students’ mathematical thinking and making that thinkingvisible to other students. Avoid judging the correctness of an answer so students aremore willing to share their ideas. Support students’ thinking without evaluation bysimply asking what others think about a students’ response.
Formalize the main ideas of the lesson, helping to highlight connections betweenstrategies or different ideas. This is the time to reinforce appropriate terminology,definitions, and symbols. Possibly lay the groundwork for future tasks and activities.
Lesson Phase Teacher Actions in a Teaching Mathematics through Problem-Solving Lesson
Three-Phase Lesson StructureTable 2.1
BeforeActivate priorknowledge.
Be sure theproblem isunderstood.
Establish clearexpectations.
Begin with a simple version of the task; connect to students’ experiences; brainstormapproaches or solution strategies; estimate or predict whether tasks involve a singlecomputation or are aimed at the development of a computational procedure.
Have students explain to you what the problem is asking. Go over vocabulary thatmay be troubling. Caution: This does not mean that you are explaining how to do a problem, just that students should understand what the problem is about.
Tell students whether they will work individually, in pairs, or small groups, or if theywill have a choice. Tell them how they will share their solutions and reasoning.
![Page 37: Common Core Math, 10-14-13](https://reader033.fdocuments.in/reader033/viewer/2022051108/5455a69eb1af9f39378b49c2/html5/thumbnails/37.jpg)
During Let go!
Notice students’mathematicalthinking.
Provideappropriatesupport.
Provideworthwhileextensions.
Although it is tempting to want to step in and “help,” hold back and enjoy observingand learning from students.
Base your questions on students’ work and their responses to you. Use prompts like:Tell me what you are doing; I see you have started to [multiply] these numbers. Canyou tell me why you are [multiplying]? [Substitute any process/strategy]; Can you tell me more about...? Why did you...? How does your work connect to the problem?
Look for ways to support students’ thinking and avoid telling them how to solve theproblem. Ensure that students understand the problem (What do you know about theproblem?); ask the student what he or she has already tried (also, Where did you getstuck?); suggest that the student use a different strategy (Can you draw a diagram?What if you used cubes to act out this problem? Is this like another problem we havesolved?); create a parallel problem with simpler values (Jacobs & Ambrose, 2008).
Challenge early finishers in some manner that is related to the problem just solved.Possible questions: I see you found one way to do this. Are there any other solutions?Are any of the solutions different or more interesting than others? Some goodquestions for extending thinking are, What if...? or Would that same idea work for...?
AfterPromote a community oflearners.
Listen activelywithoutevaluation.
Summarize mainideas and identifyfuture problems.
You must teach your students about your expectations for this part of the lesson andhow to interact respectfully with their peers. Role play appropriate (and inappropriate)ways of responding to each other. The “Orchestrating Classroom Discourse” sectionprovides strategies and recommendations for how to facilitate discussions.
The goal here is to notice students’ mathematical thinking and making that thinkingvisible to other students. Avoid judging the correctness of an answer so students aremore willing to share their ideas. Support students’ thinking without evaluation bysimply asking what others think about a students’ response.
Formalize the main ideas of the lesson, helping to highlight connections betweenstrategies or different ideas. This is the time to reinforce appropriate terminology,definitions, and symbols. Possibly lay the groundwork for future tasks and activities.
Lesson Phase Teacher Actions in a Teaching Mathematics through Problem-Solving Lesson
Three-Phase Lesson StructureTable 2.1
BeforeActivate priorknowledge.
Be sure theproblem isunderstood.
Establish clearexpectations.
Begin with a simple version of the task; connect to students’ experiences; brainstormapproaches or solution strategies; estimate or predict whether tasks involve a singlecomputation or are aimed at the development of a computational procedure.
Have students explain to you what the problem is asking. Go over vocabulary thatmay be troubling. Caution: This does not mean that you are explaining how to do a problem, just that students should understand what the problem is about.
Tell students whether they will work individually, in pairs, or small groups, or if theywill have a choice. Tell them how they will share their solutions and reasoning.
![Page 38: Common Core Math, 10-14-13](https://reader033.fdocuments.in/reader033/viewer/2022051108/5455a69eb1af9f39378b49c2/html5/thumbnails/38.jpg)
Before
During
After
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During
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During: Model
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During: Model
Create a list of strategies that you could use to solve this problem.
Come to a consensus and pick one strategy - get started!
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During: Discussion
How is what you experienced the same or different from your current classroom?
How are we making studentsaccountable for their own learning?
How is this helping you to let go?
![Page 43: Common Core Math, 10-14-13](https://reader033.fdocuments.in/reader033/viewer/2022051108/5455a69eb1af9f39378b49c2/html5/thumbnails/43.jpg)
AfterPromote a community oflearners.
Listen activelywithoutevaluation.
Summarize mainideas and identifyfuture problems.
You must teach your students about your expectations for this part of the lesson andhow to interact respectfully with their peers. Role play appropriate (and inappropriate)ways of responding to each other. The “Orchestrating Classroom Discourse” sectionprovides strategies and recommendations for how to facilitate discussions.
The goal here is to notice students’ mathematical thinking and making that thinkingvisible to other students. Avoid judging the correctness of an answer so students aremore willing to share their ideas. Support students’ thinking without evaluation bysimply asking what others think about a students’ response.
Formalize the main ideas of the lesson, helping to highlight connections betweenstrategies or different ideas. This is the time to reinforce appropriate terminology,definitions, and symbols. Possibly lay the groundwork for future tasks and activities.
Lesson Phase Teacher Actions in a Teaching Mathematics through Problem-Solving Lesson
Three-Phase Lesson StructureTable 2.1
BeforeActivate priorknowledge.
Be sure theproblem isunderstood.
Establish clearexpectations.
Begin with a simple version of the task; connect to students’ experiences; brainstormapproaches or solution strategies; estimate or predict whether tasks involve a singlecomputation or are aimed at the development of a computational procedure.
Have students explain to you what the problem is asking. Go over vocabulary thatmay be troubling. Caution: This does not mean that you are explaining how to do a problem, just that students should understand what the problem is about.
Tell students whether they will work individually, in pairs, or small groups, or if theywill have a choice. Tell them how they will share their solutions and reasoning.
During Let go!
Notice students’mathematicalthinking.
Provideappropriatesupport.
Provideworthwhileextensions.
Although it is tempting to want to step in and “help,” hold back and enjoy observingand learning from students.
Base your questions on students’ work and their responses to you. Use prompts like:Tell me what you are doing; I see you have started to [multiply] these numbers. Canyou tell me why you are [multiplying]? [Substitute any process/strategy]; Can you tell me more about...? Why did you...? How does your work connect to the problem?
Look for ways to support students’ thinking and avoid telling them how to solve theproblem. Ensure that students understand the problem (What do you know about theproblem?); ask the student what he or she has already tried (also, Where did you getstuck?); suggest that the student use a different strategy (Can you draw a diagram?What if you used cubes to act out this problem? Is this like another problem we havesolved?); create a parallel problem with simpler values (Jacobs & Ambrose, 2008).
Challenge early finishers in some manner that is related to the problem just solved.Possible questions: I see you found one way to do this. Are there any other solutions?Are any of the solutions different or more interesting than others? Some goodquestions for extending thinking are, What if...? or Would that same idea work for...?
![Page 44: Common Core Math, 10-14-13](https://reader033.fdocuments.in/reader033/viewer/2022051108/5455a69eb1af9f39378b49c2/html5/thumbnails/44.jpg)
AfterPromote a community oflearners.
Listen activelywithoutevaluation.
Summarize mainideas and identifyfuture problems.
You must teach your students about your expectations for this part of the lesson andhow to interact respectfully with their peers. Role play appropriate (and inappropriate)ways of responding to each other. The “Orchestrating Classroom Discourse” sectionprovides strategies and recommendations for how to facilitate discussions.
The goal here is to notice students’ mathematical thinking and making that thinkingvisible to other students. Avoid judging the correctness of an answer so students aremore willing to share their ideas. Support students’ thinking without evaluation bysimply asking what others think about a students’ response.
Formalize the main ideas of the lesson, helping to highlight connections betweenstrategies or different ideas. This is the time to reinforce appropriate terminology,definitions, and symbols. Possibly lay the groundwork for future tasks and activities.
Lesson Phase Teacher Actions in a Teaching Mathematics through Problem-Solving Lesson
Three-Phase Lesson StructureTable 2.1
BeforeActivate priorknowledge.
Be sure theproblem isunderstood.
Establish clearexpectations.
Begin with a simple version of the task; connect to students’ experiences; brainstormapproaches or solution strategies; estimate or predict whether tasks involve a singlecomputation or are aimed at the development of a computational procedure.
Have students explain to you what the problem is asking. Go over vocabulary thatmay be troubling. Caution: This does not mean that you are explaining how to do a problem, just that students should understand what the problem is about.
Tell students whether they will work individually, in pairs, or small groups, or if theywill have a choice. Tell them how they will share their solutions and reasoning.
During Let go!
Notice students’mathematicalthinking.
Provideappropriatesupport.
Provideworthwhileextensions.
Although it is tempting to want to step in and “help,” hold back and enjoy observingand learning from students.
Base your questions on students’ work and their responses to you. Use prompts like:Tell me what you are doing; I see you have started to [multiply] these numbers. Canyou tell me why you are [multiplying]? [Substitute any process/strategy]; Can you tell me more about...? Why did you...? How does your work connect to the problem?
Look for ways to support students’ thinking and avoid telling them how to solve theproblem. Ensure that students understand the problem (What do you know about theproblem?); ask the student what he or she has already tried (also, Where did you getstuck?); suggest that the student use a different strategy (Can you draw a diagram?What if you used cubes to act out this problem? Is this like another problem we havesolved?); create a parallel problem with simpler values (Jacobs & Ambrose, 2008).
Challenge early finishers in some manner that is related to the problem just solved.Possible questions: I see you found one way to do this. Are there any other solutions?Are any of the solutions different or more interesting than others? Some goodquestions for extending thinking are, What if...? or Would that same idea work for...?
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AfterPromote a community oflearners.
Listen activelywithoutevaluation.
Summarize mainideas and identifyfuture problems.
You must teach your students about your expectations for this part of the lesson andhow to interact respectfully with their peers. Role play appropriate (and inappropriate)ways of responding to each other. The “Orchestrating Classroom Discourse” sectionprovides strategies and recommendations for how to facilitate discussions.
The goal here is to notice students’ mathematical thinking and making that thinkingvisible to other students. Avoid judging the correctness of an answer so students aremore willing to share their ideas. Support students’ thinking without evaluation bysimply asking what others think about a students’ response.
Formalize the main ideas of the lesson, helping to highlight connections betweenstrategies or different ideas. This is the time to reinforce appropriate terminology,definitions, and symbols. Possibly lay the groundwork for future tasks and activities.
Lesson Phase Teacher Actions in a Teaching Mathematics through Problem-Solving Lesson
Three-Phase Lesson StructureTable 2.1
BeforeActivate priorknowledge.
Be sure theproblem isunderstood.
Establish clearexpectations.
Begin with a simple version of the task; connect to students’ experiences; brainstormapproaches or solution strategies; estimate or predict whether tasks involve a singlecomputation or are aimed at the development of a computational procedure.
Have students explain to you what the problem is asking. Go over vocabulary thatmay be troubling. Caution: This does not mean that you are explaining how to do a problem, just that students should understand what the problem is about.
Tell students whether they will work individually, in pairs, or small groups, or if theywill have a choice. Tell them how they will share their solutions and reasoning.
During Let go!
Notice students’mathematicalthinking.
Provideappropriatesupport.
Provideworthwhileextensions.
Although it is tempting to want to step in and “help,” hold back and enjoy observingand learning from students.
Base your questions on students’ work and their responses to you. Use prompts like:Tell me what you are doing; I see you have started to [multiply] these numbers. Canyou tell me why you are [multiplying]? [Substitute any process/strategy]; Can you tell me more about...? Why did you...? How does your work connect to the problem?
Look for ways to support students’ thinking and avoid telling them how to solve theproblem. Ensure that students understand the problem (What do you know about theproblem?); ask the student what he or she has already tried (also, Where did you getstuck?); suggest that the student use a different strategy (Can you draw a diagram?What if you used cubes to act out this problem? Is this like another problem we havesolved?); create a parallel problem with simpler values (Jacobs & Ambrose, 2008).
Challenge early finishers in some manner that is related to the problem just solved.Possible questions: I see you found one way to do this. Are there any other solutions?Are any of the solutions different or more interesting than others? Some goodquestions for extending thinking are, What if...? or Would that same idea work for...?
![Page 46: Common Core Math, 10-14-13](https://reader033.fdocuments.in/reader033/viewer/2022051108/5455a69eb1af9f39378b49c2/html5/thumbnails/46.jpg)
AfterPromote a community oflearners.
Listen activelywithoutevaluation.
Summarize mainideas and identifyfuture problems.
You must teach your students about your expectations for this part of the lesson andhow to interact respectfully with their peers. Role play appropriate (and inappropriate)ways of responding to each other. The “Orchestrating Classroom Discourse” sectionprovides strategies and recommendations for how to facilitate discussions.
The goal here is to notice students’ mathematical thinking and making that thinkingvisible to other students. Avoid judging the correctness of an answer so students aremore willing to share their ideas. Support students’ thinking without evaluation bysimply asking what others think about a students’ response.
Formalize the main ideas of the lesson, helping to highlight connections betweenstrategies or different ideas. This is the time to reinforce appropriate terminology,definitions, and symbols. Possibly lay the groundwork for future tasks and activities.
Lesson Phase Teacher Actions in a Teaching Mathematics through Problem-Solving Lesson
Three-Phase Lesson StructureTable 2.1
BeforeActivate priorknowledge.
Be sure theproblem isunderstood.
Establish clearexpectations.
Begin with a simple version of the task; connect to students’ experiences; brainstormapproaches or solution strategies; estimate or predict whether tasks involve a singlecomputation or are aimed at the development of a computational procedure.
Have students explain to you what the problem is asking. Go over vocabulary thatmay be troubling. Caution: This does not mean that you are explaining how to do a problem, just that students should understand what the problem is about.
Tell students whether they will work individually, in pairs, or small groups, or if theywill have a choice. Tell them how they will share their solutions and reasoning.
During Let go!
Notice students’mathematicalthinking.
Provideappropriatesupport.
Provideworthwhileextensions.
Although it is tempting to want to step in and “help,” hold back and enjoy observingand learning from students.
Base your questions on students’ work and their responses to you. Use prompts like:Tell me what you are doing; I see you have started to [multiply] these numbers. Canyou tell me why you are [multiplying]? [Substitute any process/strategy]; Can you tell me more about...? Why did you...? How does your work connect to the problem?
Look for ways to support students’ thinking and avoid telling them how to solve theproblem. Ensure that students understand the problem (What do you know about theproblem?); ask the student what he or she has already tried (also, Where did you getstuck?); suggest that the student use a different strategy (Can you draw a diagram?What if you used cubes to act out this problem? Is this like another problem we havesolved?); create a parallel problem with simpler values (Jacobs & Ambrose, 2008).
Challenge early finishers in some manner that is related to the problem just solved.Possible questions: I see you found one way to do this. Are there any other solutions?Are any of the solutions different or more interesting than others? Some goodquestions for extending thinking are, What if...? or Would that same idea work for...?
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QuestioningObservations do not have to be silent. Probing into student thinking through the use ofquestions can provide better data and more insights to inform instruction. As youcirculate around the classroom to observe and evaluate students’ understanding, youruse of questions is one of the most important ways to formatively assess in each lessonphase. Keep the following questions in mind (or on a clipboard, index cards, or abookmark) as you move about the classroom to prompt and probe students’ thinking:
• What can you tell me about [today’s topic]?• How can you put the problem in your own words?• What did you do that helped you understand the problem?• Was there something in the problem that reminded you of another problem we’ve
done?• Did you find any numbers or information you didn’t need? How did you know that
the information was not important?• How did you decide what to do?• How did you decide whether your answer was right?• Did you try something that didn’t work? How did you figure out it was not going to
work?• Can something you did in this problem help you solve other problems?
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NAME: Sharon V.
Estimates fractionquantities
NO
T TH
ERE
YET
ON
TA
RG
ET
AB
OVE
AN
DB
EYO
ND
CO
MM
ENTS
FRACTIONS
MATHEMATICAL PRACTICES
Understands numerator/denominator
Area models
Set models
Use fractions inreal contexts
Make sense of problems and perseveres
Models withmathematics
Uses appropriatetools
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NAME: Sharon V.
Estimates fractionquantities
NO
T TH
ERE
YET
ON
TA
RG
ET
AB
OVE
AN
DB
EYO
ND
CO
MM
ENTS
FRACTIONS
MATHEMATICAL PRACTICES
Understands numerator/denominator
Area models
Set models
Use fractions inreal contexts
Make sense of problems and perseveres
Models withmathematics
Uses appropriatetools
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NAME: Sharon V.
Estimates fractionquantities
NO
T TH
ERE
YET
ON
TA
RG
ET
AB
OVE
AN
DB
EYO
ND
CO
MM
ENTS
FRACTIONS
MATHEMATICAL PRACTICES
Understands numerator/denominator
Area models
Set models
Use fractions inreal contexts
Make sense of problems and perseveres
Models withmathematics
Uses appropriatetools
Used patternblocks to show
2/3 and 3/6
Showing greaterreasonableness
Stated problemin own words
Reluctant to useabstract models
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Names
Lalie
Pete
Sid
Lakeshia
George
Pam
Maria
Topic:
Mental ComputationAdding 2-digit numbers
Not There Yet CommentsOn Target Above and Beyond
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Names
Lalie
Pete
Sid
Lakeshia
George
Pam
Maria
Topic:
Mental ComputationAdding 2-digit numbers
Not There Yet CommentsOn Target Above and Beyond
Can’t domentally
Has at leastone strategy
Uses differentmethods with
different numbers
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Names
Lalie
Pete
Sid
Lakeshia
George
Pam
Maria
Topic:
Mental ComputationAdding 2-digit numbers
Not There Yet CommentsOn Target Above and Beyond
3-20
3-18
3-24
3-24
3-20
Can’t domentally
Has at leastone strategy
Uses differentmethods with
different numbers
3-21
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Names
Lalie
Pete
Sid
Lakeshia
George
Pam
Maria
Topic:
Mental ComputationAdding 2-digit numbers
Not There Yet CommentsOn Target Above and Beyond
Difficulty withregrouping
Flexible approachesused
Counts by tens, then adds ones
Beginning to add thegroup of tens first
Using a postedhundreds chart
3-20
3-18
3-24
3-24
3-20
Can’t domentally
Has at leastone strategy
Uses differentmethods with
different numbers
3-21
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Observation RubricMaking Whole Given Fraction Part
Above and BeyondClear understanding. Communicates concept in multiplerepresentations. Shows evidenceof using idea without prompting.
On TargetUnderstands or is developingwell. Uses designated models.
Not There YetSome confusion ormisunderstanding. Only modelsidea with help.
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Observation RubricMaking Whole Given Fraction Part
Above and BeyondClear understanding. Communicates concept in multiplerepresentations. Shows evidenceof using idea without prompting.
On TargetUnderstands or is developingwell. Uses designated models.
Not There YetSome confusion ormisunderstanding. Only modelsidea with help.
Fraction whole made fromparts in rods and in sets.Explains easily.
Can make whole in eitherrod or set format (note).Hesitant. Needs prompt toidentify unit fraction.
Needs help to doactivity. No confidence.
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Observation RubricMaking Whole Given Fraction Part
Above and BeyondClear understanding. Communicates concept in multiplerepresentations. Shows evidenceof using idea without prompting.
On TargetUnderstands or is developingwell. Uses designated models.
Not There YetSome confusion ormisunderstanding. Only modelsidea with help.
Fraction whole made fromparts in rods and in sets.Explains easily.
Can make whole in eitherrod or set format (note).Hesitant. Needs prompt toidentify unit fraction.
Needs help to doactivity. No confidence.
Sally
Latania
Greg
John S. Mary
Lavant (rod)
Julie (rod)
George (set)
Maria (set)
Tanisha (rod)
Lee (rod)
J.B. (set)
John H. (set)
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Before
During
After
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After
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After: Model
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After: Model
Why did your group choose this strategy to solve the problem?
Is there a different strategy you would use if you did the problem again?
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After: Discussion
How is what you experienced the same or different from your current classroom?
How are we making studentsaccountable for their own learning?
How is this helping you to let go?
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Lesson Phase Teacher Actions in a Teaching Mathematics through Problem-Solving Lesson
Three-Phase Lesson StructureTable 2.1
BeforeActivate priorknowledge.
Be sure theproblem isunderstood.
Establish clearexpectations.
Begin with a simple version of the task; connect to students’ experiences; brainstormapproaches or solution strategies; estimate or predict whether tasks involve a singlecomputation or are aimed at the development of a computational procedure.
Have students explain to you what the problem is asking. Go over vocabulary thatmay be troubling. Caution: This does not mean that you are explaining how to do a problem, just that students should understand what the problem is about.
Tell students whether they will work individually, in pairs, or small groups, or if theywill have a choice. Tell them how they will share their solutions and reasoning.
During Let go!
Notice students’mathematicalthinking.
Provideappropriatesupport.
Provideworthwhileextensions.
Although it is tempting to want to step in and “help,” hold back and enjoy observingand learning from students.
Base your questions on students’ work and their responses to you. Use prompts like:Tell me what you are doing; I see you have started to [multiply] these numbers. Canyou tell me why you are [multiplying]? [Substitute any process/strategy]; Can you tell me more about...? Why did you...? How does your work connect to the problem?
Look for ways to support students’ thinking and avoid telling them how to solve theproblem. Ensure that students understand the problem (What do you know about theproblem?); ask the student what he or she has already tried (also, Where did you getstuck?); suggest that the student use a different strategy (Can you draw a diagram?What if you used cubes to act out this problem? Is this like another problem we havesolved?); create a parallel problem with simpler values (Jacobs & Ambrose, 2008).
Challenge early finishers in some manner that is related to the problem just solved.Possible questions: I see you found one way to do this. Are there any other solutions?Are any of the solutions different or more interesting than others? Some goodquestions for extending thinking are, What if...? or Would that same idea work for...?
AfterPromote a community oflearners.
Listen activelywithoutevaluation.
Summarize mainideas and identifyfuture problems.
You must teach your students about your expectations for this part of the lesson andhow to interact respectfully with their peers. Role play appropriate (and inappropriate)ways of responding to each other. The “Orchestrating Classroom Discourse” sectionprovides strategies and recommendations for how to facilitate discussions.
The goal here is to notice students’ mathematical thinking and making that thinkingvisible to other students. Avoid judging the correctness of an answer so students aremore willing to share their ideas. Support students’ thinking without evaluation bysimply asking what others think about a students’ response.
Formalize the main ideas of the lesson, helping to highlight connections betweenstrategies or different ideas. This is the time to reinforce appropriate terminology,definitions, and symbols. Possibly lay the groundwork for future tasks and activities.
![Page 64: Common Core Math, 10-14-13](https://reader033.fdocuments.in/reader033/viewer/2022051108/5455a69eb1af9f39378b49c2/html5/thumbnails/64.jpg)
Lesson Phase Teacher Actions in a Teaching Mathematics through Problem-Solving Lesson
Three-Phase Lesson StructureTable 2.1
BeforeActivate priorknowledge.
Be sure theproblem isunderstood.
Establish clearexpectations.
Begin with a simple version of the task; connect to students’ experiences; brainstormapproaches or solution strategies; estimate or predict whether tasks involve a singlecomputation or are aimed at the development of a computational procedure.
Have students explain to you what the problem is asking. Go over vocabulary thatmay be troubling. Caution: This does not mean that you are explaining how to do a problem, just that students should understand what the problem is about.
Tell students whether they will work individually, in pairs, or small groups, or if theywill have a choice. Tell them how they will share their solutions and reasoning.
During Let go!
Notice students’mathematicalthinking.
Provideappropriatesupport.
Provideworthwhileextensions.
Although it is tempting to want to step in and “help,” hold back and enjoy observingand learning from students.
Base your questions on students’ work and their responses to you. Use prompts like:Tell me what you are doing; I see you have started to [multiply] these numbers. Canyou tell me why you are [multiplying]? [Substitute any process/strategy]; Can you tell me more about...? Why did you...? How does your work connect to the problem?
Look for ways to support students’ thinking and avoid telling them how to solve theproblem. Ensure that students understand the problem (What do you know about theproblem?); ask the student what he or she has already tried (also, Where did you getstuck?); suggest that the student use a different strategy (Can you draw a diagram?What if you used cubes to act out this problem? Is this like another problem we havesolved?); create a parallel problem with simpler values (Jacobs & Ambrose, 2008).
Challenge early finishers in some manner that is related to the problem just solved.Possible questions: I see you found one way to do this. Are there any other solutions?Are any of the solutions different or more interesting than others? Some goodquestions for extending thinking are, What if...? or Would that same idea work for...?
AfterPromote a community oflearners.
Listen activelywithoutevaluation.
Summarize mainideas and identifyfuture problems.
You must teach your students about your expectations for this part of the lesson andhow to interact respectfully with their peers. Role play appropriate (and inappropriate)ways of responding to each other. The “Orchestrating Classroom Discourse” sectionprovides strategies and recommendations for how to facilitate discussions.
The goal here is to notice students’ mathematical thinking and making that thinkingvisible to other students. Avoid judging the correctness of an answer so students aremore willing to share their ideas. Support students’ thinking without evaluation bysimply asking what others think about a students’ response.
Formalize the main ideas of the lesson, helping to highlight connections betweenstrategies or different ideas. This is the time to reinforce appropriate terminology,definitions, and symbols. Possibly lay the groundwork for future tasks and activities.
![Page 65: Common Core Math, 10-14-13](https://reader033.fdocuments.in/reader033/viewer/2022051108/5455a69eb1af9f39378b49c2/html5/thumbnails/65.jpg)
Lesson Phase Teacher Actions in a Teaching Mathematics through Problem-Solving Lesson
Three-Phase Lesson StructureTable 2.1
BeforeActivate priorknowledge.
Be sure theproblem isunderstood.
Establish clearexpectations.
Begin with a simple version of the task; connect to students’ experiences; brainstormapproaches or solution strategies; estimate or predict whether tasks involve a singlecomputation or are aimed at the development of a computational procedure.
Have students explain to you what the problem is asking. Go over vocabulary thatmay be troubling. Caution: This does not mean that you are explaining how to do a problem, just that students should understand what the problem is about.
Tell students whether they will work individually, in pairs, or small groups, or if theywill have a choice. Tell them how they will share their solutions and reasoning.
During Let go!
Notice students’mathematicalthinking.
Provideappropriatesupport.
Provideworthwhileextensions.
Although it is tempting to want to step in and “help,” hold back and enjoy observingand learning from students.
Base your questions on students’ work and their responses to you. Use prompts like:Tell me what you are doing; I see you have started to [multiply] these numbers. Canyou tell me why you are [multiplying]? [Substitute any process/strategy]; Can you tell me more about...? Why did you...? How does your work connect to the problem?
Look for ways to support students’ thinking and avoid telling them how to solve theproblem. Ensure that students understand the problem (What do you know about theproblem?); ask the student what he or she has already tried (also, Where did you getstuck?); suggest that the student use a different strategy (Can you draw a diagram?What if you used cubes to act out this problem? Is this like another problem we havesolved?); create a parallel problem with simpler values (Jacobs & Ambrose, 2008).
Challenge early finishers in some manner that is related to the problem just solved.Possible questions: I see you found one way to do this. Are there any other solutions?Are any of the solutions different or more interesting than others? Some goodquestions for extending thinking are, What if...? or Would that same idea work for...?
AfterPromote a community oflearners.
Listen activelywithoutevaluation.
Summarize mainideas and identifyfuture problems.
You must teach your students about your expectations for this part of the lesson andhow to interact respectfully with their peers. Role play appropriate (and inappropriate)ways of responding to each other. The “Orchestrating Classroom Discourse” sectionprovides strategies and recommendations for how to facilitate discussions.
The goal here is to notice students’ mathematical thinking and making that thinkingvisible to other students. Avoid judging the correctness of an answer so students aremore willing to share their ideas. Support students’ thinking without evaluation bysimply asking what others think about a students’ response.
Formalize the main ideas of the lesson, helping to highlight connections betweenstrategies or different ideas. This is the time to reinforce appropriate terminology,definitions, and symbols. Possibly lay the groundwork for future tasks and activities.
![Page 66: Common Core Math, 10-14-13](https://reader033.fdocuments.in/reader033/viewer/2022051108/5455a69eb1af9f39378b49c2/html5/thumbnails/66.jpg)
Lesson Phase Teacher Actions in a Teaching Mathematics through Problem-Solving Lesson
Three-Phase Lesson StructureTable 2.1
BeforeActivate priorknowledge.
Be sure theproblem isunderstood.
Establish clearexpectations.
Begin with a simple version of the task; connect to students’ experiences; brainstormapproaches or solution strategies; estimate or predict whether tasks involve a singlecomputation or are aimed at the development of a computational procedure.
Have students explain to you what the problem is asking. Go over vocabulary thatmay be troubling. Caution: This does not mean that you are explaining how to do a problem, just that students should understand what the problem is about.
Tell students whether they will work individually, in pairs, or small groups, or if theywill have a choice. Tell them how they will share their solutions and reasoning.
During Let go!
Notice students’mathematicalthinking.
Provideappropriatesupport.
Provideworthwhileextensions.
Although it is tempting to want to step in and “help,” hold back and enjoy observingand learning from students.
Base your questions on students’ work and their responses to you. Use prompts like:Tell me what you are doing; I see you have started to [multiply] these numbers. Canyou tell me why you are [multiplying]? [Substitute any process/strategy]; Can you tell me more about...? Why did you...? How does your work connect to the problem?
Look for ways to support students’ thinking and avoid telling them how to solve theproblem. Ensure that students understand the problem (What do you know about theproblem?); ask the student what he or she has already tried (also, Where did you getstuck?); suggest that the student use a different strategy (Can you draw a diagram?What if you used cubes to act out this problem? Is this like another problem we havesolved?); create a parallel problem with simpler values (Jacobs & Ambrose, 2008).
Challenge early finishers in some manner that is related to the problem just solved.Possible questions: I see you found one way to do this. Are there any other solutions?Are any of the solutions different or more interesting than others? Some goodquestions for extending thinking are, What if...? or Would that same idea work for...?
AfterPromote a community oflearners.
Listen activelywithoutevaluation.
Summarize mainideas and identifyfuture problems.
You must teach your students about your expectations for this part of the lesson andhow to interact respectfully with their peers. Role play appropriate (and inappropriate)ways of responding to each other. The “Orchestrating Classroom Discourse” sectionprovides strategies and recommendations for how to facilitate discussions.
The goal here is to notice students’ mathematical thinking and making that thinkingvisible to other students. Avoid judging the correctness of an answer so students aremore willing to share their ideas. Support students’ thinking without evaluation bysimply asking what others think about a students’ response.
Formalize the main ideas of the lesson, helping to highlight connections betweenstrategies or different ideas. This is the time to reinforce appropriate terminology,definitions, and symbols. Possibly lay the groundwork for future tasks and activities.
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“You used the red trapezoid as your whole?”“So, first you recorded your measurements in a table?”“What parts of your drawing relate to the numbers from the story problem?”“Who can share what Ricardo just said, but using your own words?”
Clarify Students’ Ideas
“Why does it make sense to start with that particular number?”“Explain how you know that your answer is correct.”“Can you give an example?”“Do you see a connection between Julio’s idea and Rhonda’s idea?”“What if...?”“Do you agree or disagree with Johanna? Why?”
Emphasize Reasoning
“Who has a question for Vivian?”“Turn to your partner and explain why you agree or disagree with Edwin.”“Talk with Yerin about how your strategy relates to hers.”
Encourage Student-StudentDialogue
Examples of teacher prompts for supporting classroom discussions.
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Persistence inProblem Solving
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How can I let go?
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THANK YOU