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Teaching Thinking Through Effective Questioning

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80% of the questions closed-ended questions requiring little student thought or input (450/611) ... unravel student's misconceptions ... – PowerPoint PPT presentation

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Title: Teaching Thinking Through Effective Questioning


1
Teaching Thinking Through Effective Questioning
  • Melisa Hancock
  • Dr. David Allen

2
Whose Line Is It Anyway?
  • History and Context
  • Round 1-Count Questions
  • Round 2-Higher Level Questions
  • Round 3-Planned Questions

3
Whose Line Is It Anyway?
  • Discussion (Share Observed Patterns)
  • 32 classroom observations
  • 611 questions asked
  • 80 of the questions closed-ended questions
    requiring little student thought or input
    (450/611)
  • 11 asked students to analyze content/topic
    (64/611)
  • 6 required students to synthesize information
    and generate new ideas (36/611)
  • 3 asked students to evaluate the topic or idea
    (21)
  • Important NoteThese teachers were using a
    Standards-Based Curriculum and they knew they
    were going to be observed. They were asked to
    teach an inquiry-based lesson.

4
  • Who do we think of when we think of types of
    questioning?

5
Taxonomies and Questioning Systems
  • Blooms Taxonomy
  • McTighe Wiggins Six Facets of Understanding
  • Stein and Smiths Cognitive Levels

6
Why do you ask questions?
  • 47 managerial
  • 43 informational
  • 10 higher-order
  • National Educational Service

7
Group Task
  • In a group of five, generate a list of the
    characteristics of a good question and provide an
    example at your grade level.

8
What Are Good Questions?
  • illicit thinking
  • promote sense making
  • are open-ended
  • unravel students misconceptions
  • require application of facts and procedures but
    encourage students to make connections and
    generalizations
  • are accessible to all students
  • lead students to wonder more about a topic and to
    perhaps construct new questions

9
Good Questions Elicit Thinking
  • In NCTMs Principles of Standards for School
    Mathematics, teachers are encouraged to develop
    instructional programs that enable ALL students
    to make and investigate mathematical
    conjectures and communicate their mathematical
    thinking coherently and clearly.

10
Effective Questioning
  • To be an effective questioner, it is better to
    use the students response to guide your next
    question than to use your question to guide the
    students response.

11
How Are Good Questions Created?
  • When we think about questions that we
  • might ask our students, it is helpful to
  • consider these issues
  • the goals of the lesson
  • the misconceptions students may have
  • the connections wed like students to make
    between lesson goals and previously covered
    concepts and/or procedures
  • assessment of understanding
  • Good questions lead to answers that require
    more than a focus on memorized procedures or
    formulas

12
What You Ask . .Is What You Get!
  • Good questions can be used as the basis for an
    entire lesson that stands alone or as part of a
    unit of work.
  • It is important to PLAN the questions in advance.

13
How To Create Good Questions
  • Method 1 - Working Backward
  • Step 1 Identify a topic or lesson
  • Step 2 Think of a closed question and
  • write down the answer.
  • Step 3 Make up a question that
  • includes (or addresses) the
  • answer.

14
Method 1- Example
  • Step 1 Topic Averages
  • Step 2 Closed question The children in the
    Hancock family are aged 27, 39, 45, 51, 33. What
    is their average age? (39)
  • Step 3 Good Question There are five children
    in a family. Their average is 39. How old might
    the children be?

15
Method 2-Adapting a Standard Question
  • Step 1 Identify a topic
  • Step 2 Think of a standard question
  • Step 3 Adapt it to make a good
  • question

16
Method 2-Example
  • Step 1 Topic for tomorrow is area of a circle.
  • Step 2 A typical exercise might be The Area of
    a Circle is equal to pi times the square of the
    radius. (Apr2) Find the Area of a Circle with a
    radius of 2 feet.
  • Step 3 Develop the concept of a radius square.
    Use a radius square to determine the approximate
    number of radius squares that it will take to
    cover the circle.

17
What You ASK . . Is What You Get!!!
  • Using a traditional content lesson or topic,
    write
  • 2-3 questions for the lesson that require
    students
  • to do more than remember a technique or fact.
  • Questions need to be meaningful and challenging.
  • Allow for different strategies and approaches to
    be used in reaching a solution(s).
  • Require justification, explanation of
    solution(s).
  • Require skills (e.g. arithmetic) to be applied in
    a subtle way.
  • May involve drawing, manipulatives, or other
    tools.
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