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Operations and Algebraic Thinking. November 15, 2012. Algebra…. Where have you seen students use or apply algebraic reasoning? Where have you seen students struggle with algebraic ideas? . Refreshing our memory…. Glossary, Table 1 – take it out if you have it . - PowerPoint PPT Presentation
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Operations and Algebraic Thinking
November 15, 2012
Algebra…
• Where have you seen students use or apply algebraic reasoning?
• Where have you seen students struggle with algebraic ideas?
Refreshing our memory…
• Glossary, Table 1 – take it out if you have it
Problem Types: Agree or Disagree
• The problem types are research-based and come from research with young children doing these tasks.
Problem Types: Agree or Disagree
• This idea of problem types are all over Investigations curriculum in various grades.
Problem Types: Agree or Disagree
• When we think about problem types with addition and subtraction it does not matter at all about how students “solve” tasks (e.g., manipulatives, drawing, counting, number lines).
Problem Types: Agree or Disagree
• Writing tasks to fit a specific problem type is a tasks that most of my teachers can do.
Problem Types and their history
• Cognitively Guided Instruction – Problem Types (Types of tasks)
• Is that all there is to CGI ??????
• Does it matter how students solve these problems? Why or why not?
Problem Types and their history
• Cognitively Guided Instruction – Problem Types (Types of tasks) – Methods in which students solve tasks– Decisions that teachers go through to formatively
assess students AND then pose follow-up tasks
Methods
• Direct Modeling• Counting Strategies• Algorithms or Derived Facts
• There were 8 seals playing. 3 seals swam away. How many seals were still playing?
• What would each of these 3 look like in a Grade 1 classroom?
Methods
• Direct Modeling
• Separate (Result Unknown)• There were 8 seals playing. 3 seals swam away.
How many seals were still playing?• A student would….. • A set of 8 objects is constructed. 3 objects are
removed. The answer is the number of remaining objects.
Methods
• Counting Strategies
• Separate (Result Unknown)• There were 8 seals playing. 3 seals swam away.
How many seals were still playing?• A student would….. • Start at 8 and count backwards 3 numbers. The
number they end on would be their answer.
Methods
• Invented algorithms /derived strategies
• Separate (Result Unknown)• There were 8 seals playing. 3 seals swam away.
How many seals were still playing?• What would students do? • “4 plus 4 is 8, so 8 minus 4 is 4. But I am only
taking away 3 so there should be 5 seals playing.”
Direct modeling, counted or invented strategy?
• There were 8 seals playing. 3 seals swam away. How many seals were still playing?
• The student starts at 8 on a number line and count backwards 3 numbers. The number they land on is their answer.
• The student puts 3 counters out and adds counters until they get to 8. The number of counters added is their answer.
Direct modeling, counted or invented strategy?
• There were 8 seals playing. 3 seals swam away. How many seals were still playing?
• The student draws 8 tallies and crosses out 3. The number left is their answer.
• The student starts at 3 and counts up until they get to 8. As the student counts they put a finger up (1 finger up as they say 4, 5, 6, 7, 8). The number of fingers up is their answer.
How students solve problems
• Does it matter what students strategy is? Why?
• What does it look like for students to be proficient with a problem type?
Common Core Connection
• “Fluently add and subtract” – What do we mean when students are fluent?
• Fluently (Susan Jo Russell, Investigations author)– Accurate, Efficient, Flexible
• What do these mean? • Where do basic facts tests fit in?
Task Modification
• Investigations Unit– examine a number sense unit
• Look for “opportunities” to modify tasks to match “more difficult” task types
• Modify/write tasks– What is an appropriate size of numbers? – What are the task types? – How would you assess?
Teaching experiment…
• Select students who are struggling• Pose a few problems for a problem type• Observe and question• Pose a follow-up task that “meets them where
they are”
Working with Large Numbers
• On your own solve 4,354 – 3,456 + 455 in three different ways
• Write a story problem to match this problem.
• Pick one of your strategies… how did algebraic reasoning help you complete the task?
4,354 – 3,456 + 455
• Gallery Walk
• Explore various strategies and explanations
• Any commonalities or frequently occurring ideas?
4,354 – 3,456 + 455
• Sharing out strategies
• How can estimation help us BEFORE we start?
• Rounding…. Rounding to which place helps us get the best estimate? – What is the point of rounding?
