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Professional Practice Norms

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Professional Practice Norms Listening to and using others ideas Keeping records of professional work Adopting a tentative stance toward practice - wondering versus ... – PowerPoint PPT presentation

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Title: Professional Practice Norms


1
Professional Practice Norms
  • Listening to and using others ideas
  • Keeping records of professional work
  • Adopting a tentative stance toward practice -
    wondering versus certainty
  • Backing up claims with evidence and providing
    reasoning
  • Talking with respect yet engaging in critical
    analysis of teachers and students portrayed
  • Seago Mumme, 2003

2
Learning and Teaching Linear Functions Video
Cases for Mathematics Professional Development,
6-10 Conceptualizing and Representing Linear
Relationships Session Two
3
A Frame for Viewing Teaching
  • Teaching is a practice that can be learned like
    playing soccer or performing dance.
  • Teaching is complex. In complex practices there
    are many variables at play there are no simple
    solutions some things are unpredictable.
  • Teaching and learning happen within a basic set
    of dynamic relationshipsteachers, students,
    content, and environment.

4
Teaching and Learning
Ball and Cohen (2000)
5
Foundation Module Map
We are here
6
Cubes in a Line Lesson Task
  • How many faces (face units) are there when 2
    cubes are put together sharing a face? 10 cubes?
    100 cubes? t cubes?

7
Mathematical Task Questions
  • Look over how you solved this problem. Why did it
    make sense to you to solve it this way? How is
    this like/unlike the Dots Problem?
  • What are some of the ways students might solve
    it? How might they use the cubes to generate the
    number of faces for any number of cubes? What
    misconceptions might they bring?
  • What might a teacher need to do to prepare to use
    this task with students?

8
Lesson Graph Questions
  • What does this lesson graph tell you/not tell
    you about the mathematical point of the lesson?
  • What clues (evidence) did you use from the
    lesson graph to make your claim?

9
Video Segment Focus Questions
  • What moments or interchanges appear to be
    interesting/important mathematically?
  • What about them makes this so?

10
Differentiating Instruction
  • What are ideas that come to mind when you hear
    the phrase differentiated instruction?
  • Where did you see evidence of differentiated
    instruction, either in relation to our charted
    list or otherwise, during this video clip or in
    the lesson graph?

11
Link to SAS
  • How do you think MaryAnn considered the elements
    of SAS in planning and delivering the lesson?

12
Comparing Growing Dots 1 and Cubes in a Line
Video Segments
  • What was similar/different about the segments
    from the Cubes in a Line and Growing Dots 1
    lessons?
  • About the mathematics?
  • About the student ideas?
  • About the teachers apparent goals and use of
    student ideas?

13
Linking to Practice
  • Work in grade-level groups to adapt the Cubes in
    a Line task to your grade level.
  • Decide what you want to use this task to teach.
  • Predict possible student responses.
  • Develop questions to ask students.

14
Reflections
  • What were the important mathematics ideas you
    encountered today?
  • Did this experience generate any
    insights/connections related to teaching? (What
    about the day prompted these?)

15
Closing Discussion
16
Concept Map Discussion
  • What were the mathematical goals of this session?
  • What were the pedagogical goals of this session?

17
Concept Map Discussion
  • Mathematical Goals
  • Distinguish various symbolic representations of a
    situation and relate them to the geometry of the
    task.
  • Examine explicit and recursive models for linear
    growth.
  • Conceptualize linear growth as constant rate of
    change and slope as constant growth rate.
  • Pedagogical Goals
  • Promote the value of sustained professional
    development.
  • Increase awareness of the role of facilitator of
    professional development.
  • Begin to clarify, distinguish, and reconcile
    students mathematical representations,
    explanations, and reasoning.
  • Examine mathematically important aspects of
    various solution strategies.

18
Facilitation Discussion
  • Were there any facilitation moves that stood out
    to you throughout the morning?
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