为学生认知发展建模:学习进阶十年研究回顾及展望被引量：156

Model Building for Students' Cognitive Development:A Review of Ten-year Research on Learning Progression

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摘要为了改变科学课程学习内容零散且缺乏衔接的现状,学习进阶成为了国际科学教育研究的热点议题。对学习进阶的研究系统追踪学生的认知发展过程,为科学教育中标准设计、课程开发、学业评价和教师培训等多个系统的整合提供了统一框架。基于文献综述并结合自身研究经验,并从学习进阶的定义、进阶研究的基础、进阶研究的模式和研究成果的应用四个方面展开分析讨论后发现:科学教育界对学习进阶内涵理解上的差异逐渐消弭,进阶研究在描述学生认知发展过程上取得了阶段性的成果并在向着精细化发展,在学习进阶中融合知识学习与能力培养、学习进阶与教学实践的交互影响等将是后续研究的核心议题。 Learning progression, which aims at changing the unfocused and disconnected content of science curriculum, is one of the key topics in science education research. The research on learning pro- gression systematically traces students＇ cogriitive development and provides a coherent framework for standard design, curriculum development, student achievement assessment, and teacher professional de- velopment in science education. Based on the literature review and the authors＇ research experience, this study analyzed the definition, research foundation, research model and the application of research findings of learning progression. The results show that：（1） the definition of learning progression in science educa- tion community is reaching a consistency; （2） fruitful outcome has been achieved in describing the develop- mental process of students＇ cognitive development, and more and more in-depth studies have been conduc- ted; and （3） the core topic in future research agenda are the integration of knowledge learning and ability fostering in learning progression, and the mutual influence between learning progression and teaching practice.

作者姚建欣郭玉英

机构地区北京师范大学物理学系

出处《教育学报》 CSSCI 北大核心 2014年第5期35-42,共8页 Journal of Educational Studies

基金教育部人文社会科学研究规划基金项目"基于科学概念学习进阶的教学设计模型研究"(项目批准号:13YJA880022)的阶段成果

关键词学习进阶科学教育认知发展科学课程核心概念 learning progression science education cognitive development science curriculum core concept

分类号 G442 [哲学宗教—心理学]

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参考文献35

1Smith C, Wiser M,et al. Implications of Research onChildren.s Learning for Assessment: Matter and Atom-ic Molecular Theory[R]. Commissioned paper preparedfor the National Research Council’s Committee on TestDesign for K-12 Science Achievement, 2004. 被引量：1
2郭玉英,姚建欣,彭征.美国《新一代科学教育标准》述评[J].课程．教材．教法,2013,33(8):118-127. 被引量：107
3Salinas I. Learning Progressions in Science Education:Two Approaches for Development [C]. The LearningProgressions in Science (LeaPS) Conference. Iowa City,IA, 2009. 被引量：1
4GotwalsA, Alonzo A. Leaping into Learning Progres-sions in Science [A]. Alonzo A, Gotwais A (Eds).Learning Progressions in Science[M]. Rotterdam: Sen-se Publishers, 2012 :4-12. 被引量：1
5Roseman J, Caldwell A, et al. Mapping a CoherentLearning Progression for the Molecular Basis of Heredi-ty[EB/OL].检索于2013年10月8日,来源网址:http : // www. proj ect2061. org/ pubUcations/articales/papers/narst2006. pdf. 被引量：1
6Alonzo A,Gotwais A (Eds. ). Learning Progressionsin Science[M]. Rotterdam: Sense Publishers, 2012. 被引量：1
7National Research Council. Taking Science to School[M].Washington. D. C. : National Academies Press. 2007. 被引量：1
8DuschlR,MaengS &.SezenA. Learning Progressions andTeaching Sequences: A Review and Analysis[J]. Stud-ies in Science Education, 2011,47 (2) : 123-182. 被引量：1
9Stevens S, ShinN. Krajcik J. Towards a Model forthe Development of an Empirically Tested Learning Pro-gression[C]. In Learning Progressions in Science (LeaPS). 被引量：1
10Driver R, Leach J,et al. Young People’s Understand-ing of Science Concepts : Implications of Cross-ageStudies for Curriculum Planning[J]. Studies in ScienceEducation, 1994(24) : 75-100. 被引量：1

二级参考文献47

1刘占兰.加拿大小学科学教育对我们的启示[J].课程．教材．教法,2006,26(12):85-89. 被引量：7
2Joseph D. Novak. Concept in Science [J]. Theory into Practice,1971,10(2):129-133. 被引量：1
3Paul Dehart Hurd. New Directions in Teaching Secondary School[M]. Chicago: Rand McNally&Company, 1971. 被引量：1
4普莱斯顿·D·费德恩,等.教学方法--应用认知科学、促进学生学习[M].王锦,等译.上海:华东师范大学出版社,2006:462. 被引量：2
5艾里克森.概念为本的课程与教学[M].兰英,译.北京:中国轻工业出版社,2003. 被引量：9
6Wilson, M. R. & Bertenthal, M. L. Systems for state science assessment [M]. Washington, D. C. : The National Academies Press, 2005: 40. 被引量：1
7Weiss, I. R. & Pasley, J. D. What is high-quality instruction [J]. Educational Leadership, 2004: 61. 被引量：1
8Russell, J. Effects of lecture information density on medical student achievement [J]. Journal of Medical Education, 1984, 59: 881-889. 被引量：1
9Shaffer, D. W. & Resnick, M.‘Thick' authenticity: New media and authentic learning [J]. Journal of Interactive Learning Research, 1999, 10(2): 195-215. 被引量：1
10莫里斯·L·比格.学习的基本理论与教学实践[M].张敷荣,等译.北京:文化教育出版社,1984. 被引量：1