Post on 17-Dec-2015
1National Council of Supervisors of MathematicsIllustrating the Standards for Mathematical Practice: Seeing Structure and Generalizing
The National Council of Supervisors of Mathematics
The Common Core State Standards
Illustrating the Standards for Mathematical Practice:
Seeing Structure and Generalizing
In Grades 9-12
www.mathedleadership.org
2National Council of Supervisors of MathematicsIllustrating the Standards for Mathematical Practice: Seeing Structure and Generalizing
Module EvaluationFacilitator: At the end of this
Powerpoint, you will find a link to an anonymous brief e-
survey that will help us understand how the module is being used and how well it
worked in your setting.
We hope you will help us grow and improve our NCSM
resources!
3National Council of Supervisors of MathematicsIllustrating the Standards for Mathematical Practice: Seeing Structure and Generalizing
Common Core State Standards
Mathematics
• Standards for Content
• Standards for Practice
4National Council of Supervisors of MathematicsIllustrating the Standards for Mathematical Practice: Seeing Structure and Generalizing
Today’s Goals
• To explore the mathematical standards for Content and Practice
• To consider how the Common Core State Standards (CCSS) are likely to impact your mathematics program and to plan next steps
In particular, participants will
• Examine opportunities to develop skill in seeing structure and generalizing
5National Council of Supervisors of MathematicsIllustrating the Standards for Mathematical Practice: Seeing Structure and Generalizing
Standards for Mathematical Practice
“The Standards for Mathematical Practice describe varieties of expertise that mathematics educators at all levels should seek to develop in their students. These practices rest on important ‘processes and proficiencies’ with longstanding importance in mathematics education.” (CCSS, 2010)
6National Council of Supervisors of MathematicsIllustrating the Standards for Mathematical Practice: Seeing Structure and Generalizing
Standards for Mathematical Practice
1. Make sense of problems and persevere in solving them.
2. Reason abstractly and quantitatively.3. Construct viable arguments and critique the
reasoning of others.4. Model with mathematics. 5. Use appropriate tools strategically.6. Attend to precision.7. Look for and make use of structure.8. Look for and express regularity in repeated
reasoning.
7National Council of Supervisors of MathematicsIllustrating the Standards for Mathematical Practice: Seeing Structure and Generalizing
Structuring the Practices
8National Council of Supervisors of MathematicsIllustrating the Standards for Mathematical Practice: Seeing Structure and Generalizing
Standards for Mathematical Practice
What implications might the Standards for Mathematical Practice have on your classroom?
1. Individually review the Standards for Mathematical Practice.
2. Choose a partner at your table and discuss a new insight you had into the Standards for Mathematical Practice.
3. Then discuss the following question.
9National Council of Supervisors of MathematicsIllustrating the Standards for Mathematical Practice: Seeing Structure and Generalizing
Sidewalk Patterns
1. Draw the next pattern in this series.
In Prague some sidewalks are made of small square blocks of stone.
The blocks are in different shades to make patterns that are in various sizes.
10National Council of Supervisors of MathematicsIllustrating the Standards for Mathematical Practice: Seeing Structure and Generalizing
Sidewalk Patterns
3. What do you notice about the number of white blocks and the number of gray blocks?
2. Complete the table below.
Pattern number, n 1 2 3 4
Number of white blocks 12 40
Number of gray blocks 13
Total number of blocks 25
11National Council of Supervisors of MathematicsIllustrating the Standards for Mathematical Practice: Seeing Structure and Generalizing
Sidewalk Patterns4. The total number of blocks can be found by squaring
the number of blocks along one side of the pattern.
a. Fill in the blank spaces in this list. 25 = 52 81 = ___ 169 =___ 289 = 172
b. How many blocks will pattern number 5 need?
c. How many blocks will pattern n need?
5. a. If you know the total number of blocks in a pattern you can work out the number of white blocks in it. Explain how you can do this.
b. Pattern number 6 has a total of 625 blocks. How many white blocks are needed for pattern number 6? Show how you figured this out.
12National Council of Supervisors of MathematicsIllustrating the Standards for Mathematical Practice: Seeing Structure and Generalizing
Sidewalk Patterns
1. Individually complete parts 1-5.
2. Compare your work with a partner’s work.
3. Consider each of the following questions and be prepared to share your thinking with the group:
a) What mathematics content is needed to complete the task?
b) How are the mathematical practices related to seeing structure and generalizing relevant to the task?
13National Council of Supervisors of MathematicsIllustrating the Standards for Mathematical Practice: Seeing Structure and Generalizing
The Nature of Tasks Used in the Classroom …
Tasks as they appear in curricular
materials Studentlearning
Will Impact Student Learning!
14National Council of Supervisors of MathematicsIllustrating the Standards for Mathematical Practice: Seeing Structure and Generalizing
But, WHAT TEACHERS DO with the tasks matters too!
Stein, Grover & Henningsen (1996)Smith & Stein (1998)Stein, Smith, Henningsen & Silver (2000)
The Mathematical Tasks Framework
Tasks as they
appear in
curricularmaterials
Studentlearning
Tasks as they
appear in
curricular materials
Student learning
Tasks as set up by teachers
Tasks as enacted
byteachers
andstudents
15National Council of Supervisors of MathematicsIllustrating the Standards for Mathematical Practice: Seeing Structure and Generalizing
Adapted from Lesh, R., Post, T., & Behr, M. (1987). Representations and Translations among Representations in Mathematics Learning and Problem Solving. In C. Janvier, (Ed.), Problems of Representations in the Teaching and Learning of Mathematics (pp. 33-40). Hillsdale, NJ: Lawrence Erlbaum.
Geometric/Graphical
Verbal - Written and Oral
Tabular
Contextual
Symbolic
Pictures
Oral Language
ManipulativeModels
Real-World Situations
WrittenSymbols
Representation Stars
Elementary Secondary
16National Council of Supervisors of MathematicsIllustrating the Standards for Mathematical Practice: Seeing Structure and Generalizing
www.InsideMathematics.org
17National Council of Supervisors of MathematicsIllustrating the Standards for Mathematical Practice: Seeing Structure and Generalizing
Student A
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Student C
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Student F
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Student D
21National Council of Supervisors of MathematicsIllustrating the Standards for Mathematical Practice: Seeing Structure and Generalizing
Comparing Students A, C, F and D
• What evidence supports the conclusion that these students are using structure?
• What evidence supports the conclusion that these students are using regularity in repeated reasoning?
22National Council of Supervisors of MathematicsIllustrating the Standards for Mathematical Practice: Seeing Structure and Generalizing
Watch the animation on the following slide and consider:
What aspects of seeing structure and generalizing are evident in this work?
What are some possible next steps for this student?
23National Council of Supervisors of MathematicsIllustrating the Standards for Mathematical Practice: Seeing Structure and Generalizing
4 sets of 1 by 3 rectangles
RED =4•1•3
4 sets of 2 by 5 rectangles
RED =4•2•5
4 sets of 3 by 7 rectangles
RED =4•3•7
4 sets of 1 by 1 and a 3 by 3BLUE =4•1•1+3•3
4 sets of 2 by 2 and a 5 by 5
BLUE =4•2•2+5•5
4 sets of 3 by 3 and a 7 by 7
BLUE =4•3•3+7•7
24National Council of Supervisors of MathematicsIllustrating the Standards for Mathematical Practice: Seeing Structure and Generalizing
Sidewalk Patterns
A student showed the calculations at the right for finding the number of gray squares.
•What structure was he attending to?
•What questions might help him use his thinking to generalize the number of gray tiles?
25National Council of Supervisors of MathematicsIllustrating the Standards for Mathematical Practice: Seeing Structure and Generalizing
Student A
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Student B
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Student C
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Student E
29National Council of Supervisors of MathematicsIllustrating the Standards for Mathematical Practice: Seeing Structure and Generalizing
Comparing Students A, B, C and E
Compare the explanations given by these four students.
•How is each using regularity in repeated reasoning?
•What evidence might indicate that some or all of these students are making a generalization?
30National Council of Supervisors of MathematicsIllustrating the Standards for Mathematical Practice: Seeing Structure and Generalizing
Next Steps and Resources
Review the implications you listed earlier and discuss with your table group one or two next steps you might take as a district, school, and classroom teacher.
31National Council of Supervisors of MathematicsIllustrating the Standards for Mathematical Practice: Seeing Structure and Generalizing
Today’s Goals
• To explore the mathematical standards for Content and Practice
• To consider how the Common Core State Standards (CCSS) are likely to impact your mathematics program and to plan next steps
In particular, participants will
• Examine opportunities to develop skill in seeing structure and generalizing
32National Council of Supervisors of MathematicsIllustrating the Standards for Mathematical Practice: Seeing Structure and Generalizing
End of Day Reflections
1. Are there any aspects of your own thinking and/or practice that our work today has caused you to consider or reconsider? Explain.
2. Are there any aspects of your students’ mathematical learning that our work today has caused you to consider or reconsider? Explain.
33National Council of Supervisors of MathematicsIllustrating the Standards for Mathematical Practice: Seeing Structure and Generalizing
Join us in thanking the
Noyce Foundation
for their generous grant to NCSM that made this series possible!
http://www.noycefdn.org/
34National Council of Supervisors of MathematicsIllustrating the Standards for Mathematical Practice: Seeing Structure and Generalizing
Project Contributors• Geraldine Devine, Oakland Schools, Waterford, MI• Aimee L. Evans, Arch Ford ESC, Plumerville, AR• David Foster, Silicon Valley Mathematics Initiative, San José State
University, San José, California• Dana L. Gosen, Ph.D., Oakland Schools, Waterford, MI• Linda K. Griffith, Ph.D., University of Central Arkansas• Cynthia A. Miller, Ph.D., Arkansas State University• Valerie L. Mills, Oakland Schools, Waterford, MI• Susan Jo Russell, Ed.D., TERC, Cambridge, MA• Deborah Schifter, Ph.D., Education Development Center, Waltham,
MA• Nanette Seago, WestEd, San Francisco, California• Hope Bjerke, Editing Consultant, Redding, CA
35National Council of Supervisors of MathematicsIllustrating the Standards for Mathematical Practice: Seeing Structure and Generalizing
Help Us Grow!The link below will connect you to a
anonymous brief e-survey that will help us
understand how the module is being used
and how well it worked in your setting.
Please help us improve the module by completing a short ten question survey at:
http://tinyurl.com/samplesurvey1