Affichage de 1 - 20 of 34 (Bibliographie: Bibliographie WIKINDX globale)
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Keyword: problem solving
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Anghileri, J. (2001). A study of progression in written calculation strategies for division. Support for Learning, 16(1), pp. 17–22.
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Dernièrement modifiée par: Sterenn Audo
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Pop. 36.31%
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Babbitt, B. C., & Miller, S. P. (1996). Using hypermedia to improve the mathematics problem-solving skills of students with learning disabilities. Journal of learning disabilities, 29(4), p. p391–401.
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Dernièrement modifiée par: Lynda Taabane
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Pop. 36.59%
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Bernardo, A. B. I. (2001). Analogical problem construction and transfer in mathematical problem solving. Educational Psychology, 21(2), p. p137–150.
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Dernièrement modifiée par: Lynda Taabane
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Pop. 35.58%
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Broaders, S. C., Cook, S. W., Mitchell, Z., & Goldin-Meadow, S. (2007). Making children gesture brings out implicit knowledge and leads to learning. Journal of Experimental Psychology: General, 136(4), p. p539–550.
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Dernièrement modifiée par: Lynda Taabane
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Pop. 32.66%
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Chung, K. K. H., & Tam, Y. H. (2005). Effects of cognitive‐based instruction on mathematical problem solving by learners with mild intellectual disabilities. Journal of Intellectual & Developmental Disability, 30(4), pp. 207–216.
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Dernièrement modifiée par: Sterenn Audo
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Pop. 36.31%
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Cooper, G., & Sweller, J. (1987). Effects of schema acquisition and rule automation on mathematical problem-solving transfer. Journal of educational psychology, 79(4), pp. 347–362.
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Ajoutée par: Sterenn Audo
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Pop. 33.21%
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Coquin-Viennot, D., & Moreau, S. (2007). Arithmetic problems at school: When there is an apparent contradiction between the situation model and the problem model. British Journal of Educational Psychology, 77(1), p. p69–80.
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Dernièrement modifiée par: Sterenn Audo
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Pop. 69.53%
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de Corte, E., & Verschaffel, L. (1985). Beginning first graders' initial representation of arithmetic word problems. The Journal of Mathematical Behavior, 5, pp. 3–21.
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Dernièrement modifiée par: Sterenn Audo
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Pop. 34.4%
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Desoete, A., Roeyers, H., & Clercq, A. D. (2004). Children with mathematics learning disabilities in belgium. Journal of learning disabilities, 37(1), pp. 50–61.
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Dernièrement modifiée par: Sterenn Audo
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Pop. 28.56%
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Dijkstra, S. (2001). The design space for solving instructional-design problems. Instructional Science, 29(4), p. p275–290.
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Dernièrement modifiée par: Sterenn Audo
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Pop. 33.94%
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Fuchs, L. S., Fuchs, D., Prentice, K., Burch, M., Hamlett, C. L., & Owen, R., et al. (2003). Explicitly teaching for transfer: Effects on third-grade students' mathematical problem solving. Journal of educational psychology, 95(2), p. p293–304.
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Dernièrement modifiée par: Lynda Taabane
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Pop. 33.12%
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Fuchs, L. S., Fuchs, D., Prentice, K., Burch, M., Hamlett, C. L., Owen, R., & Schroeter, K. (2003). Enhancing third-grade student' mathematical problem solving with self-regulated learning strategies. Journal of educational psychology, 95(2), p. p306–315.
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Dernièrement modifiée par: Lynda Taabane
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Pop. 33.39%
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Fuchs, L. S., Fuchs, D., Prentice, K., Hamlett, C. L., Finelli, R., & Courey, S. J. (2004). Enhancing mathematical problem solving among third-grade students with schema-based instruction. Journal of educational psychology, 96(4), p. p635–647.
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Dernièrement modifiée par: Lynda Taabane
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Pop. 32.85%
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Fuchs, L. S., Fuchs, D., Compton, D. L., Powell, S. R., Seethaler, P. M., & Capizzi, A. M., et al. (2006). The cognitive correlates of third-grade skill in arithmetic, algorithmic computation, and arithmetic word problems. Journal of educational psychology, 98(1), pp. 29–43.
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Dernièrement modifiée par: Sterenn Audo
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Pop. 35.77%
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van Garderen, D., & Montague, M. (2003). Visual-spatial representation, mathematical problem solving, and students of varying abilities. Learning Disabilities Research & Practice, 18(4), pp. 246–254.
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Dernièrement modifiée par: Sterenn Audo
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Pop. 33.76%
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Hardiman, P. T., & Mestre, J. P. (1989). Understanding multiplicative contexts involving fractions. Journal of educational psychology, 81(4), p. p547–557.
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Ajoutée par: Lynda Taabane
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Pop. 31.39%
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Hegarty, M., Mayer, R. E., & Monk, C. A. (1995). Comprehension of arithmetic word problems: A comparison of successful and unsuccessful problem solvers. Journal of educational psychology, 87(1), pp. 18–32.
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Dernièrement modifiée par: Sterenn Audo
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Pop. 27.65%
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Jackson, N., & Coney, J. (2007). Simple arithmetic processing: Individual differences in automaticity. European Journal of Cognitive Psychology, 19(1), pp. 141–160.
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Dernièrement modifiée par: Sterenn Audo
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Pop. 33.67%
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Jitendra, A. K., Sczesniak, E., Griffin, C. C., & Deatline-Buchman, A. (2007). Mathematical word problem solving in third-grade classrooms. Journal of Educational Research, 100(5), pp. 283–302.
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Dernièrement modifiée par: Sterenn Audo
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Pop. 29.93%
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Jitendra, A. K., Griffin, C. C., Haria, P., Leh, J., Adams, A., & Kaduvettoor, A. (2007). A comparison of single and multiple strategy instruction on third-grade students' mathematical problem solving. Journal of educational psychology, 99(1), p. p115–127.
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Dernièrement modifiée par: Lynda Taabane
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Pop. 32.76%
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