Affichage de 121 - 140 of 155 (Bibliographie: Bibliographie WIKINDX globale)
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Keyword: problem solving
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Roussel, J.-L., Fayol, M., & Barrouillet, P. (2002). Procedural vs. direct retrieval strategies in arithmetic: A comparison between additive and multiplicative problem solving. European Journal of Cognitive Psychology, 14(1), p. p61–104.
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Dernièrement modifiée par: Lynda Taabane
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Pop. 36.05%
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Sarrazy, B. (2002). Effects of variability of teaching on responsiveness to the didactic contract in arithmetic problem-solving among pupils of 9-10 years. European Journal of Psychology of Education - EJPE, 17(4), p. p321.
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Dernièrement modifiée par: Lynda Taabane
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Pop. 33.7%
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Schliemann, A. D., Araujo, C., Cassundé, M. A., Macedo, S., & Nicéas, L. (1998). Use of multiplicative commutativity by school children and street sellers. Journal for Research in Mathematics Education, 29(4), p. p422–435.
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Dernièrement modifiée par: Lynda Taabane
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Pop. 33.97%
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Schunn, C. D., & Dunbar, K. (1996). Primary, analogy, and awareness in complex reasoning. Memory & Cognition, 24(3), p. p271–284.
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Dernièrement modifiée par: Lynda Taabane
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Pop. 34.06%
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Seyler, D. J., Kirk, E. P., & Ashcraft, M. H. (2003). Elementary subtraction. Journal of experimental psychology: Learning, Memory, and Cognition, 29(6), p. p1339–1352.
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Dernièrement modifiée par: Lynda Taabane
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Pop. 33.24%
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Sherman, J., & Bisanz, J. (2009). Equivalence in symbolic and nonsymbolic contexts: Benefits of solving problems with manipulatives. Journal of educational psychology, 101(1), pp. 88–100.
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Ajoutée par: Lynda Taabane
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Pop. 25.72%
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Simon, H. A., & Newell, A. (1971). Human problem solving: The state of the theory in 1970. American Psychologist, 26(2), p. p145–159.
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Ajoutée par: Lynda Taabane
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Pop. 29.26%
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Slotta, J. D., Chi, M. T. H., & Joram, E. (1995). Assessing students' misclassifications of physics concepts: An ontological basis for conceptual change. Cognition & Instruction, 13(3), p. p373.
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Ajoutée par: Lynda Taabane
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Pop. 25.54%
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Sophian, C., & Vong, K. I. (1995). The parts and wholes of arithmetic story problems: Developing knowledge in preschool years. Cognition and Instruction, 13(3), p. p469–477.
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Dernièrement modifiée par: Lynda Taabane
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Pop. 34.78%
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Sovik, N., Frostrad, P., & Heggberget, M. (1999). The relation between reading comprehension and task-specific strategies used in arithmetical word problems. Scandinavian Journal of Educational Research, 43(4), p. p371–398.
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Ajoutée par: Lynda Taabane
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Pop. 31.61%
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Squire, S., & Bryant, P. (2003). Children's models of division. Cognitive Development, 18(3), p. p355–376.
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Dernièrement modifiée par: Sterenn Audo
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Pop. 34.51%
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Stark, R., Gruber, H., Renkl, A., & Mandl, H. (1998). Instructional effects in complex learning: Do objective and subjective learning outcomes converge? Learning and Instruction, 8(2), pp. 117–129.
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Ajoutée par: Sterenn Audo
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Pop. 32.88%
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Staub, F. C., & Stern, E. (2002). The nature of teachers' pedagogical content beliefs matters for students' achievement gains: Quasi-experimental evidence from elementary mathematics. Journal of educational psychology, 94(2), p. p344–355.
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Dernièrement modifiée par: Lynda Taabane
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Pop. 34.51%
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Stern, E. (1993). What makes certain arithmetic word problems involving the comparison of sets so difficult for children? Journal of educational psychology, 85(1), p. p7–23.
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Ajoutée par: Lynda Taabane
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Pop. 28.8%
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Sweller, J., Mawer, R. F., & Ward, M. R. (1983). Development of expertise in mathematical problem solving. Journal of Experimental Psychology: General, 112(4), p. p639–661.
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Dernièrement modifiée par: Lynda Taabane
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Pop. 30.98%
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Thevenot, C., Barrouillet, P., & Fayol, M. (2001). Algorithmic solution of arithmetic problems and operands–answer associations in long-term memory. Quarterly Journal of Experimental Psychology: Section A, 54(2), p. p599–611.
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Dernièrement modifiée par: Lynda Taabane
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Pop. 34.24%
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Thevenot, C., Barrouillet, P., & Fayol, M. (2004). Représentation mentale et procédures de résolution de problèmes arithmétiques: L'effet du placement de la question. L'année Psychologique, 104(4), p. p683–699.
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Dernièrement modifiée par: Sterenn Audo
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Pop. 34.06%
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Thevenot, C., & Oakhill, J. (2005). The strategic use of alternative representations in arithmetic word problem solving. The Quarterly Journal of Experimental Psychology A: Human Experimental Psychology, 58(7), p. p1311–1323.
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Dernièrement modifiée par: Lynda Taabane
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Pop. 34.51%
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Touron, D. R., Hoyer, W. J., & Cerella, J. (2004). Cognitive skill learning: Age-related differences in strategy shifts and speed of component operations. Psychology and Aging, 19(4), pp. 565–580.
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Dernièrement modifiée par: Sterenn Audo
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Pop. 35.14%
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Van Gog, T., Paas, F., & Van Merriënboer, J. J. G. (2004). Process-oriented worked examples: Improving transfer performance through enhanced understanding. Instructional Science, 32(1), pp. 83–98.
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Ajoutée par: Sterenn Audo
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Pop. 34.24%
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