strategy flexibility matters for student mathematics achievement: a meta-analysis kelley durkin...
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Strategy Flexibility Matters for Student Mathematics
Achievement: A Meta-Analysis
Kelley DurkinBethany Rittle-Johnson
Vanderbilt University, United States
Jon R. StarHarvard University, United States
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Defining Strategy Flexibility• Simplest definition:
Knowing more than one strategy for solving a particular type of problem (e.g., Heirdsfield & Cooper, 2002)
• Most complex definition: Being able to use a variety of strategies and information from the problem context, the learner’s environment, and the sociocultural context to select the most appropriate problem solving procedure (e.g., Verschaffel, Luwel, Torbeyns, & Van Dooren, 2007)
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Recent Focus on Strategy Flexibility• Previously, flexibility rarely measured as an
instructional outcome (Star, 2005).
• Standardized tests in the U.S. include sections on:– Concepts– Procedures– Problem solving– But not flexibility
• Recently, flexibility examined as a separate outcome (Star, 2007; Verschaffel et al., 2007).
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Importance of Strategy Flexibility• Helps adapt existing procedures to unfamiliar
problems (e.g., Blöte, Van der Burg, & Klein, 2001)
• Greater understanding of domain concepts (e.g., Hiebert & Wearne, 1996)
• Crucial component of expertise in problem solving (Dowker, 1992; Dowker, Flood, Griffiths, Harris, & Hook, 1996; Star & Newton, 2009)
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Current Study• Is strategy flexibility related to other
mathematical constructs?– Conceptual Knowledge• Success recognizing and explaining key domain
concepts (Carpenter et al., 1998; Hiebert & Wearne, 1996)
– Procedural Knowledge• Success executing action sequences to solve problems
(Hiebert & Wearne, 1996; Rittle-Johnson, Siegler, & Alibali, 2001)
– General Mathematics Achievement
• Meta-analysis of our past work
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Our Definition of Strategy Flexibility
• Knowing multiple strategies and their relative efficiencies (Flexibility Knowledge)
AND• Adapting strategy choice to specific problem
features (Flexible Use)
(e.g., Blöte et al., 2001; National Research Council, 2001; Rittle-Johnson & Star, 2007)
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Method Overview
• Selected Studies• Measures• Analysis Strategies
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Included StudiesStudy Authors Year Topic N GradeRittle-Johnson & Star 2007 Equation Solving 70 7
Star & Rittle-Johnson 2008 Equation Solving 155 6
Rittle-Johnson & Star 2009 Equation Solving 162 7 & 8
Rittle-Johnson, Star, & Durkin
2009 Equation Solving 236 7 & 8
Star et al. 2009 Estimation 65 5
Star & Rittle-Johnson 2009 Estimation 157 5 & 6
Rittle-Johnson, Star, & Durkin
2011 Equation Solving 198 8
Schneider, Rittle-Johnson & Star
2011 Equation Solving 293 7 & 8
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Measures
• Flexibility Knowledge• Flexible Use• Conceptual Knowledge• Procedural Knowledge• Standardized Tests
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Measures• Flexibility Knowledge– Knowing multiple procedures and the relative
efficiency of the procedures5(x + 3) + 6 = 5(x + 3) + 2x
6 = 2xa. What step did the student use to get from the first line to the second line?b. Do you think that this is a good way to start this problem? Circle One:
(a) a very good way(b) OK to do, but not a very good way(c) Not OK to do
c. Explain your reasoning. 10
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Measures• Flexible Use– Students using the most appropriate strategy
depending on problem features3(h + 2) + 4(h + 2) = 357(h + 2) = 35
• Sometimes know a more appropriate strategy for solving a problem before actually use it (Blöte et al., 2001; Siegler & Crowley, 1994)
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Measures• Conceptual Knowledge– Ability to recognize and explain key domain concepts
Which of the following is a like term to (could be combined with) 7(j + 4)?
(a) 7(j + 10) (b) 7(p + 4) (c) j (d) 2(j + 4) (e) a and d
• Procedural Knowledge– Ability to execute action sequences to solve problems
3(h + 2) + 4(h + 2) = 35
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Measures• Standardized Tests
National Tests• Comprehensive Testing Program (CTP)• Measures of Academic Progress (MAP)
State Tests• Massachusetts Comprehensive Assessment System (MCAS)• Tennessee Comprehensive Assessment Program (TCAP)
• Collected scores from school records
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Coding and Analysis Strategies• Calculated correlation between each pair of
outcomes for each study• Fischer’s z to transform correlations to get effect
sizes, ESr, for each study (Lipsey & Wilson, 2001).
• The mean correlation effect size was calculated using a random effects model.
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Results• Mean correlations between outcomes
FlexibilityKnowledge
Flexible Use
ConceptualKnowledge
ProceduralKnowledge
Standardized Test
FlexibilityKnowledge 1 .635 .563 .610 .535
Flexible Use 1 .541 .627 .404
ConceptualKnowledge 1 .544 .520
ProceduralKnowledge 1 .475
Note: All correlations were significant (p < .001) 15
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Results• Mean correlations between outcomes
FlexibilityKnowledge
Flexible Use
ConceptualKnowledge
ProceduralKnowledge
Standardized Test
FlexibilityKnowledge 1 .635 .563 .610 .535
Flexible Use 1 .541 .627 .404
ConceptualKnowledge 1 .544 .520
ProceduralKnowledge 1 .475
Note: All correlations were significant (p < .001) 16
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Results• Mean correlations between outcomes
FlexibilityKnowledge
Flexible Use
ConceptualKnowledge
ProceduralKnowledge
Standardized Test
FlexibilityKnowledge 1 .635 .563 .610 .535
Flexible Use 1 .541 .627 .404
ConceptualKnowledge 1 .544 .520
ProceduralKnowledge 1 .475
Note: All correlations were significant (p < .001) 17
Flexibility knowledge and flexible use strongly related
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Results• Mean correlations between outcomes
FlexibilityKnowledge
Flexible Use
ConceptualKnowledge
ProceduralKnowledge
Standardized Test
FlexibilityKnowledge 1 .635 .563 .610 .535
Flexible Use 1 .541 .627 .404
ConceptualKnowledge 1 .544 .520
ProceduralKnowledge 1 .475
Note: All correlations were significant (p < .001) 18
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Results• Mean correlations between outcomes
FlexibilityKnowledge
Flexible Use
ConceptualKnowledge
ProceduralKnowledge
Standardized Test
FlexibilityKnowledge 1 .635 .563 .610 .535
Flexible Use 1 .541 .627 .404
ConceptualKnowledge 1 .544 .520
ProceduralKnowledge 1 .475
Note: All correlations were significant (p < .001) 19
Conceptual knowledge had moderately strong relationships to flexibility
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Results• Mean correlations between outcomes
FlexibilityKnowledge
Flexible Use
ConceptualKnowledge
ProceduralKnowledge
Standardized Test
FlexibilityKnowledge 1 .635 .563 .610 .535
Flexible Use 1 .541 .627 .404
ConceptualKnowledge 1 .544 .520
ProceduralKnowledge 1 .475
Note: All correlations were significant (p < .001) 20
Conceptual knowledge had moderately strong relationships to flexibility
Procedural knowledge had moderately strong relationships to flexibility
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Results• Mean correlations between outcomes
FlexibilityKnowledge
Flexible Use
ConceptualKnowledge
ProceduralKnowledge
Standardized Test
FlexibilityKnowledge 1 .635 .563 .610 .535
Flexible Use 1 .541 .627 .404
ConceptualKnowledge 1 .544 .520
ProceduralKnowledge 1 .475
Note: All correlations were significant (p < .001) 21
Similar to correlation between conceptual and procedural knowledge
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Results• Mean correlations between outcomes
FlexibilityKnowledge
Flexible Use
ConceptualKnowledge
ProceduralKnowledge
Standardized Test
FlexibilityKnowledge 1 .635 .563 .610 .535
Flexible Use 1 .541 .627 .404
ConceptualKnowledge 1 .544 .520
ProceduralKnowledge 1 .475
Note: All correlations were significant (p < .001) 22
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Results• Mean correlations between outcomes
FlexibilityKnowledge
Flexible Use
ConceptualKnowledge
ProceduralKnowledge
Standardized Test
FlexibilityKnowledge 1 .635 .563 .610 .535
Flexible Use 1 .541 .627 .404
ConceptualKnowledge 1 .544 .520
ProceduralKnowledge 1 .475
Note: All correlations were significant (p < .001) 23
Standardized test measures significantly correlated with flexibility
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Results• Mean correlations between outcomes
FlexibilityKnowledge
Flexible Use
ConceptualKnowledge
ProceduralKnowledge
Standardized Test
FlexibilityKnowledge 1 .635 .563 .610 .535
Flexible Use 1 .541 .627 .404
ConceptualKnowledge 1 .544 .520
ProceduralKnowledge 1 .475
Note: All correlations were significant (p < .001) 24
Standardized test measures significantly correlated with flexibility
Standardized test measures significantly correlated with other outcomes
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Results• Mean correlations between outcomes
FlexibilityKnowledge
Flexible Use
ConceptualKnowledge
ProceduralKnowledge
Standardized Test
FlexibilityKnowledge 1 .635 .563 .610 .535
Flexible Use 1 .541 .627 .404
ConceptualKnowledge 1 .544 .520
ProceduralKnowledge 1 .475
Note: All correlations were significant (p < .001) 25
Standardized test measures significantly correlated with flexibility
Standardized test measures significantly correlated with other outcomes
Correlations between flexibility and standardized tests similar to other correlations
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3 Main Findings
• Flexibility knowledge and flexible use are separate constructs
• Flexibility is related to other constructs• Standardized tests relate to flexibility as well
as they relate to other constructs
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The Construct of Strategy Flexibility
• May be important to measure flexible use and flexibility knowledge separately.– Appears measures of knowledge and use are
tapping different aspects of flexibility.
• Conceptual and procedural knowledge are related to flexibility (Schneider et al., 2011).
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Relation to Standardized Tests• Standardized test scores relate to flexibility just
as well as they relate to conceptual and procedural knowledge.
• Teachers can feel pressured to teach to the test, and the lack of flexibility items on assessments could lead to less time on flexibility in the classroom.
• Push for standardized tests to include items that assess flexibility.
• Flexibility a valued outcome when evaluating interventions.
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Conclusion
• Strategy flexibility is important for developing expertise and efficient problem solving
• Need to measure and encourage students’ strategy flexibility in the future
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Acknowledgements
• E-mail: [email protected]• Visit our Contrasting Cases Website at
http://gseacademic.harvard.edu/contrastingcases/index.html for more information
• Thanks to the Children’s Learning Lab at Vanderbilt University
• Funded by a grant from the Institute for Education Sciences, U.S. Department of Education– The opinions expressed are those of the authors and do not
represent views of the U.S. Department of Education.
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ReferencesBlöte, A. W., Van der Burg, E., & Klein, A. S. (2001). Students' flexibility in
solving two-digit addition and subtraction problems: Instruction effects. Journal of Educational Psychology, 93(3), 627-638.
Carpenter, T. P., Franke, M. L., Jacobs, V. R., Fennema, E., & Empson, S. B. (1998). A longitudinal study of invention and understanding in children's multidigit addition and subtraction. Journal for Research in Mathematics Education, 29(1), 3-20.
Dowker, A. (1992). Computational estimation strategies of professional mathematicians. Journal for Research in Mathematics Education, 23(1), 45-55.
Dowker, A., Flood, A., Griffiths, H., Harris, L., & Hook, L. (1996). Estimation strategies of four groups. Mathematical Cognition, 2(2), 113-135.
Heirdsfield, A. M., & Cooper, T. J. (2002). Flexibility and inflexibility in accurate mental addition and subtraction: Two case studies. The Journal of Mathematical Behavior, 21, 57-74.
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ReferencesHiebert, J., & Wearne, D. (1996). Instruction, understanding and skill in
multidigit addition and subtraction. Cognition and Instruction, 14, 251-283.
Lipsey, M. W., & Wilson, D. B. (2001). Practical Meta-Analysis (Vol. 49). Thousand Oaks, CA: Sage Publications.
National Research Council. (2001). Adding it up: Helping children learn mathematics. Washington, DC: National Academy Press.
Rittle-Johnson, B., Siegler, R. S., & Alibali, M. W. (2001). Developing conceptual understanding and procedural skill in mathematics: An iterative process. Journal of Educational Psychology, 93, 346-362.
Rittle-Johnson, B., & Star, J. R. (2007). Does comparing solution methods facilitate conceptual and procedural knowledge? An experimental study on learning to solve equations. Journal of Educational Psychology, 99(3), 561-574.
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ReferencesRittle-Johnson, B., & Star, J. R. (2009). Compared with what? The effects of
different comparisons on conceptual knowledge and procedural flexibility for equation solving. Journal of Educational Psychology, 101, 529-544.
Rittle-Johnson, B., Star, J. R., & Durkin, K. (2009). The importance of prior knowledge when comparing examples: Influences on conceptual and procedural knowledge of equation solving. Journal of Educational Psychology, 101(4), 836-852.
Rittle-Johnson, B., Star, J. R., & Durkin, K. (2011, June 28). Developing procedural flexibility: Are novices prepared to learn from comparing procedures? British Journal of Educational Psychology. Advance online publication.
Schneider, M., Rittle-Johnson, B., & Star, J. R. (2011, August 8). Relations among conceptual knowledge, procedural knowledge, and procedural flexibility in two samples differing in prior knowledge. Developmental Psychology. Advance online publication.
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ReferencesSiegler, R. S., & Crowley, K. (1994). Constraints on learning in nonprivileged
domains. Cognitive Psychology, 27(2), 194-226.Star, J. R. (2005). Reconceptualizing procedural knowledge. Journal for
Research in Mathematics Education, 36, 404-411.Star, J. R. (2007). Foregrounding Procedural Knowledge. [Peer Reviewed].
Journal for Research in Mathematics Education, 38(2), 132-135.Star, J. R., & Newton, K. J. (2009). The nature and development of experts’
strategy flexibility for solving equations. ZDM-International Journal on Mathematics Education, 41, 557-567.
Star, J. R., & Rittle-Johnson, B. (2008). Flexibility in problem solving: The case of equation solving. Learning and Instruction, 18, 565 - 579.
Star, J. R., & Rittle-Johnson, B. (2009). It pays to compare: An experimental study on computational estimation. Journal of Experimental Child Psychology, 102, 408 - 426.
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ReferencesStar, J. R., Rittle-Johnson, B., Lynch, K., & Perova, N. (2009). The role of prior
knowledge in the development of strategy flexibility: The case of computational estimation. ZDM, 41(5), 569-579.
Verschaffel, L., Luwel, K., Torbeyns, J., & Van Dooren, W. (2007). Developing adaptive expertise: A feasible and valuable goal for (elementary) mathematics education? Ciencias Psicologicas, 2007(1), 27-35.
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