Further background on Accountable Talk:

excerpt from article by Lauren Resnick

excerpt from Institute for Learning website

Accountable talk sharpens students' thinking by reinforcing their ability to use and create knowledge. Teachers create the norms and skills of accountable talk in their classrooms by modeling appropriate forms of discussion and by questioning, probing, and leading conversations. For example, teachers may press for clarification and explanation, require justifications of proposals and challenges, recognize and challenge misconceptions, demand evidence for claims and arguments, or interpret and "revoice" students' statements. Over time, students can be expected to carry out each of these conversational "moves" themselves in peer discussions.

This habit of connecting my talk to the talk of others models the mental habit of connecting the idea on my mind right now to ideas previously thought. In other words, this habit of talk teaches me how to link my own ideas into longer chains linked by logic and analogy. I can make complicated ideas in mathematics just like the ones smart people make.

- Generalization of mathematical statements
- Is it ever true?
- Is it always true?
- When is it true? Under what conditions?
- Good strategies for seeing and showing when a mathematical statement is
true:
- How is [term] defined?
Often, the definition contains the key ingredient for showing a statement is true -- it follows from the definition.

- What happens in simple cases?
- What happens in special cases?
- very large numbers
- near zero
- near one (both more and less than 1)
- empty set
- very tall or very flat triangles

- Have we looked at all cases?
- Is it possible to look at all cases?
- "Every case" vs. "any case": Often every case is impossible to check, but it is easy to show how it works for any case.

- Counterexamples
- How does it relate to other mathematical statements we have talked about? Does it logically follow? Do other statements follow logically from it? Are there interesting analogies that might be true for analogous reasons?

- How is [term] defined?

- Seeing through multiple approaches to problems
*Every student understands every approach*- Approaches that didn't work: Why didn't they work?
- Approaches that worked:
- How are different approaches alike?
- How are they different?
- How do the mathematical ideas in each approach make the problem easier or harder?

- Multiple representations: What do different representations show?

- Confusion
- Ask when you are confused (assume you are the canary in the
mineshaft). Sometimes it is valuable for everyone to understand
what can be confusing about the concept, procedure,
representations or problem. Many times it is the language.
- "What does [term] mean?"
- "What does [representation] mean?"
- "Is there a useful analogy? A better analogy?"
- "Is the book confused?"
- "Is the teacher confused?"

- Ask when you are confused (assume you are the canary in the
mineshaft). Sometimes it is valuable for everyone to understand
what can be confusing about the concept, procedure,
representations or problem. Many times it is the language.