Cognitive and Metacognitive Strategies - PowerPoint PPT Presentation

1 / 9
About This Presentation
Title:

Cognitive and Metacognitive Strategies

Description:

... of ten to fifteen problems for students with learning disabilities in math to do. ... Third, the teacher then collects the worksheets and grades them. ... – PowerPoint PPT presentation

Number of Views:1938
Avg rating:3.0/5.0
Slides: 10
Provided by: ferdinan9
Category:

less

Transcript and Presenter's Notes

Title: Cognitive and Metacognitive Strategies


1
Cognitive and Metacognitive Strategies
  • F. D. Rivera, Ph.D.
  • Department of Mathematics
  • San Jose State University
  • Module 15, Session 8

2
Seven Steps Rule
  • students with learning disabilities in math
    should learn and eventually memorize the
    following cognitive steps necessary for solving
    word problems
  •  
  • Read (what it says)
  • Paraphrase (how you want to say it)
  • Visualize (picture, table, or equation?)
  • Plan (whats the best way to solve it?)
  • Solve (apply the rules)
  • Check (are the steps correct?)
  • Reflect (did you follow the six steps above?)

3
Seven Steps Rule How to Do It
  • First, the teacher models the steps using
    problems on an overhead projector.
  •  
  • Second, students with learning disabilities in
    math model the steps in class, taking turns to
    elicit more interaction and repetition.
  •  
  • Third, students with learning disabilities in
    math can work either individually or in pairs to
    increase retention.
  •  
  • Step 7, Reflect, is a metacognitive strategy. It
    forces students with learning disabilities in
    math to stand back and check to see if they have
    carefully thought through a problem using the six
    steps. At the start, it might help to provide
    students with a sheet consisting of the
    strategies listed either in row or in column.
    Students can then mark off each step by a check
    mark as they solve a problem to indicate that
    they have gone through the steps.

4
Personalized Error Checklist Strategy
  • First, the teacher should begin by handing out a
    worksheet of ten to fifteen problems for students
    with learning disabilities in math to do. The
    problems should be similar and should focus on a
    particular mathematical concept or process.
  •  
  • Second, the teacher explicitly models how such
    problems are solved. Students are then asked to
    accomplish the worksheet within a given time
    frame. Correct answers are assigned two points
    and the points could be used in exchange for
    prizes.
  •  

5
Personalized Error Checklist Strategy
  • Third, the teacher then collects the worksheets
    and grades them. The teacher then generates a
    list of errors for each student. When the
    worksheets are returned, each student gets two
    sheets each. The first sheet is the corrected
    worksheet and the second sheet is a list of
    errors.

6
Personalized Error Checklist Strategy
  • Fourth, the teacher gives the class another
    worksheet that is very similar to the ones they
    did earlier. Then, they are requested to
    accomplish the worksheet. Using the checklist of
    errors that each student has, the student goes
    over each problem solved, putting a plus mark
    (with a plus 2) on correct items and a minus mark
    on incorrect items. They are then asked to redo
    wrong problems, putting the correct solution next
    to the incorrect one.
  •  
  • When each student has achieved the target success
    rate, the error checklist is removed.

7
Self-Instruction Prompts Strategy
  • Students will be asked to generate
    self-instruction statements whenever they are
    solving problems. The statements are broken down
    into two types
  • 1.      Work habits
  • 2.      Task-specific habits
  •  
  • Work habits pertain to general behavior and
    action that positively contributes to
    successfully accomplishing a problem. For
    instance I need to focus all the time.

8
Self-Instruction Prompts Strategy
  • Task-specific habits pertain to mathematical
    behavior and action or personalized steps that
    are needed to successfully solve a problem.
  • For instance If the problems involve combining
    polynomials, one self-instruction could be, Are
    the two terms that I am combining similar? or
    Need to make sure I only combine terms whose
    variables look exactly the same. Or it could be
    a series of steps such as First I need to .
    Second, I have to .

9
Self-Instruction Prompts Strategy
  • This strategy can be institutionalized slowly and
    usually at the start of each new lesson.
  • Teachers model this strategy first for students
    for a particular problem.
  • Students are then given problems that will allow
    them to develop self-instruction statements.
  • The teacher can then have a whole-class
    discussion on each type so that everybody in the
    class gets to benefit as well.
  • Students can keep the prompts until such a time
    when they can make the statements on their own
    without assistance.
Write a Comment
User Comments (0)
About PowerShow.com