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Cognitively Guided Instruction

Cognitively Guided Instruction. Problem Structures and Solution Strategies. Solution Strategies. Direct Modeling Strategies Counting Strategies Number Facts/Derived Facts. Solution Strategies.

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Cognitively Guided Instruction

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  1. Cognitively Guided Instruction Problem Structures and Solution Strategies

  2. Solution Strategies • Direct Modeling Strategies • Counting Strategies • Number Facts/Derived Facts

  3. Solution Strategies For the most basic strategies, children use physical objects (counters) or fingers to directly model the action or relationships described in each problem.

  4. Solution Strategies Over time, children’s strategies become more abstract and efficient. Direct Modeling strategies are replaced by more abstract Counting Strategies, which in turn are replaced with Number Facts.

  5. This strategy is distinguished by a child’s explicit physical represent-ation of each quantity in the problem and the action or relationship involving those quantities before counting the resulting set. Direct Modeling

  6. Direct Modeling Example: Robin had 4 toy cars. Her friends gave her 7 more toy cars for her birthday. How many toy cars did she have then? Student makes a set of 4 cubes and a set of 7 cubes. She pushes them together and then counts them, “1,2,3,4,5,6,7,8,9,10,11,” pointing to a cube with each count. Karla then responds, “She had 11 cars.”

  7. A child essentially recognizes that it is not necessary to actually construct and count sets. The answer can be figured out by focusing on the counting sequence itself. Counting

  8. Physical objects are used to represent objects in a problem. Counting Physical objects are used to keep track of counts. Direct Modeling

  9. Counting Strategies Example: Robin had 4 toy cars. Her friends gave her 7 more toy cars for her birthday. How many toy cars did she have then? Jamie counts, “4 [pause], 5,6,7,8,9,10,11. She has 11 cars. As Jamie counts, he extends a finger with each count. When he has extended seven fingers, he stops counting and gives the answer.

  10. Children learn number facts and apply this knowledge to solve problems. Children learn certain number combinations before others. Children often use a small set of memorized facts to derive solutions for problems involving other number combinations. Number Facts

  11. Children learn doubles before other number combinations. Children learn sums of ten relatively early. Number Facts

  12. Derived Fact solutions are based on understanding relations between numbers. Even without specific instruction, most children use Derived Facts before they have mastered all their number facts at a recall level. When children have the opportunity to discuss alternative strategies, the use of Derived Facts becomes even more prevalent. Derived Facts

  13. Derived Facts/Number Facts Example: 6 frogs were sitting on lily pads. 8 more frogs joined them. How many frogs were there then? Rudy, Denise, Theo, and Sandra each answer “14,” almost immediately. Teacher: How do you know there were 14? Rudy: Because 6 and 6 is 12, and 2 more is 14. Denise: 8 and 8 is 16. But this is 8 and 6. That is 2 less, so it’s 14. Sandra: 8 and 2 more is 10, and 4 more is 14.

  14. Using Number Sense to Help 6 + 7 • What are some derived facts kids might use to solve this problem? • What relationships (spatial, one/two more and less, benchmarks of 5 & 10, and part-whole) would students need to have before they can use the derived facts for this problem?

  15. Progression of Development Strategy Types • 7 + 8 • Direct Modeler – counts out 7 things, counts out 8, pushes them all together and counts the total. • Counter – holds 7 in their head and counts on 8 more. • Derived Fact – uses a fact they know to help them

  16. Children appear to “move through” Direct Modeling, Counting, and Derived Fact strategies when number choices/kinds of quantities are consistent across problems. Direct Modeling strategies are not easily used with some problem types. Mental strategies are extensions of modeling strategies. Levels of Development

  17. Cycles of trajectories of strategy use are related to number choices used in problems. Cycling through strategy levels reflects increasing sophistication of knowledge with a particular “range of numbers”. (connects to Bahr and de Garcia Numerical Complexity Hierarchy) Levels of Development

  18. Strategies for Solving CGI Problems Summary

  19. Fig. 3-4, p. 73

  20. Fig. 3-5, p. 74

  21. Fig. 3-6a, p. 75

  22. Fig. 3-6b, p. 76

  23. Fig. 3-7, p. 77

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