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日常家庭生活中父母—儿童互动对儿童数学发展的影响 被引量:5

Parent-child Joint Activity in Daily Life at Home and Children's Number Development
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摘要 本研究观察并分析了两组4岁儿童在家庭日常生活中与父母的互动及所涉及的数的学习。组1儿童为书面数符号表征高分者,组2儿童为低分者。57对儿童-父母对子参加了研究。结果表明,本研究所观察到的儿童日常活动内容丰富多样;大概有三分之一的被试对子所从事的活动涉及到不同类型的阅读和数学学习活动,但这些活动大多由父母发起;儿童早期数学发展水平可能与家庭教育的如下因素有关:家庭日常生活中父母—儿童共同活动的内容与频次,高分组儿童的父母在家中可能更加注意发起或者更加成功地发起了阅读与数学学习活动;高分组父母在与儿童互动的某些策略的运用上可能更有利于儿童的数学学习;高分组的父亲在家中可能与孩子一起参与共同活动的时间更长;高分组父母之所以更加成功地发起了与阅读和数学学习有关的活动可能与儿童本身的因素有关。 Two groups of Chinese 4-year-olds and their parents' interaction in daily life at home was observed. The children in Group 1 were high scorers in written number skills and the children in Group 2 were low scorers. Fifty-seven dyads participated in the study. The results indicated: A wide variety of activities were observed; about one-third of the dyads participated in academic learning activities, which were mostly initiated by the parents; children's number development may relate to several factors: the content and frequency of parent-child joint activities in daily life at home, the parents in the high score group were more likely or more successfully to initiate reading and mathematical activities; the parents in high score group were more likely to use some effective interactive strategies; the fathers in high score group were more likely to spent longer time in parent-child joint activities; and the reason that the parents in high score group initiated reading and number related activities more successfully may relate to children' characteristics.
作者 周欣 赵振国 毛尼娜 潘琼 肖娟 杨蕾 杨峥峥
机构地区 华东师范大学学前教育与特殊教育学院
出处 《学前教育研究》 北大核心 2007年第7期116-121,共6页 Studies in Early Childhood Education
基金 全国教育科学"十五"规划项目(课题批准号:DHA030148) 上海市教育研究课题(课题批准号:B0330)的阶段性成果
关键词 父母-儿童互动 互动策略 家庭日常生活 学前儿童的数学发展 parent-child interaction, interactive strategies, daily life at home, cognitive development of preschoolers
分类号 G78 [文化科学—教育学]
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参考文献9

  • 1Young-Loveridge, J. M. (1989). The relationship between children's home experience and their mathematical skills on entry to school. Early Childhood Development and Care, 43, 43-59
  • 2周欣,王滨.4~5岁儿童对书面数符号的表征和理解能力的发展[J].心理科学,2004,27(5):1132-1136. 被引量:13
  • 3Sigle, I. (1981). Social experience in the development of representation thought theory. In I. E. Sigle, D. M. Brodzinsky, Golinkoff (Eds.). New directions in Piagetian practice. Hillsdale, NJ: Erlbaum, 216 Distancing &R.M. theory and
  • 4Ramey, S. L., & Ramey, C.T. (1992). Early Education with disadvantaged children - to what effect? Applied and Preventive Psychology, 1, 131-140
  • 5Weinfield, N. S., Ogawa, J. R., 8: Egeland, B. (2002). Predictability of observed mother-child interaction from preschool to middle childhood in a high-risk sample. Child Development, 73 (2), 528-543
  • 6Zhou, X., Huang, J., Wang, Z. K., Wang, B., Zhao, Z. G., & Yang, L.,Yang, Z. Z(2006) Parent-child interaction and children's number learning. Early Child Development and Care, 176,7,763-775
  • 7Flanders, N. (1970). Analyzing teacher behavior. Reading, MA: Addison-Wesley
  • 8周欣,黄瑾,王烨芳,王洛丹,王滨,赵振国.4~6岁儿童书面数符号表征和理解能力发展的个案研究[J].学前教育研究,2006(10):5-10. 被引量:5
  • 9周欣.儿童数概念发展研究的新进展[J].学前教育研究,2003(1):11-13. 被引量:13

二级参考文献39

  • 1Case, R Chapter 15: The development of conceptual structures. In: D Kuhn & R Siegler (Eds.), Handbook of Child Psychology, Volume 2 : Cognition, Perception, and Language. New York: John Wiley & Sons, Inc. 1998:745- 800.
  • 2Munn, P. Symbolic function in pre- schoolers. In C Donlan (Ed.), The Development of Mathematical Skills. Britain: Psychological Press, 1998:48 - 71.
  • 3Sophian, C. Representation and reasoning in early numerical development: Counting, conservation, and comparisons between sets. Child Development, 1995, 66:559 - 577.
  • 4Miura, I T, Okamoto, Y, Kim, C C, Steere, M , & Fayol, M. First graders' cognitive representation of number and understanding of place value: Cross - national comparisons- France, Japan, Korea, Sweden, and the United States. Journal of Educational Psychology, 1993, 85 (1):24-30.
  • 5Kamii, C K. Young children reinvent arithmetic, implications of Piaget's theory. New York: Teachers College, Columbia University, 1985:52 - 63.
  • 6Bryant, P. Children and Arithmetic. Journal of Child Psychology Psychiatry, 1995, 36 (1) : 3 - 32.
  • 7Miller, K F. Origins of Quantitative Competence. In R C-elman & T K Au (Eds.), Perceptual and Cognitive Development: Handbook of Perception and Cognition, New York: Academic Press, 1996:213- 241.
  • 8Nunes, T. Systems of signs and mathematical reasoning. In Nunes, T , & Bryant, P. (Eds.), Learning and teaching mathematics: An international perspective. Hove, UK: Psychology Press Ltd. , Publishers. 1997:29- 42.
  • 9Gory, D C, Fan, L , & Bow-Thomas, C C. Loci of ability differences comparing children from China and the United States. Psychological Science, 1992, 3 (3) : 180 -185.
  • 10Miller, K F, Smith, C M, Zhu, J J, & Zhang, H. Preschool origins of cross-national differences in mathematical competence: The role of number-naming system. Psychological Science, 1995, 6 (1) :56 - 60.

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学前教育研究
2007年 第7期

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