Managing Wide Plurality Through Metarepresentations

IF 3.4 1区教育学 Q1 EDUCATION & EDUCATIONAL RESEARCH

Science & Education Pub Date : 2024-09-16 DOI:10.1007/s11191-024-00556-6

Michel Bélanger, Vincent Richard

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Abstract

Various studies in science education have concluded that successful science learning sometimes consists in students having two or more incompatible representations regarding a phenomenon. Specifically, a pluralist perspective acknowledges that such representational plurality is normal and even beneficial for the individual. Our working hypothesis in this paper is that in order for such plurality to be indeed functional, it must be adequately integrated into a cognitive structure responsible for its management. Following Cosmides and Tooby (Cosmides and Tooby, Sperber (ed), Metarepresentations in an evolutionary perspective, Oxford University Press, 2000), we use the concept of metarepresentation for this purpose. A metarepresentation is a structure that includes both a representation and various information about this representation, called tags. We focus on two kinds of tags: (1) scope tags, which are cognitive elements responsible for specifying the circumstances in which a representation can profitably be used; and (2) qualificative tags, which are judgments about the properties and value of a representation (e.g., simplicity, understandability, usefulness). We argue the concepts of metarepresentation and tags (or their equivalent) are required to better understand the nature of expertise in situation of representational plurality. In our view, humans have large minds: they can acquire a repertoire of incompatible representations and use it efficiently in various situations. Expertise does not lie solely in the mastering of one scientific representation, but in the capacity to operate adequately the repertoire one possesses.

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通过元表示管理广泛的多元性

科学教育的各种研究得出结论，成功的科学学习有时在于学生对一种现象有两种或两种以上不相容的表征。具体来说，多元主义观点承认这种代表性的多元性是正常的，甚至对个人是有益的。我们在本文中的工作假设是，为了使这种多元性真正发挥作用，它必须充分整合到负责其管理的认知结构中。继Cosmides和Tooby （Cosmides和Tooby， Sperber主编，《进化视角下的元表示》，牛津大学出版社，2000年）之后，我们将元表示的概念用于此目的。元表示是一种结构，它既包括表示，也包括关于这种表示的各种信息，称为标签。我们关注两种类型的标签：(1)范围标签，这是一种认知元素，负责指定在何种情况下可以有益地使用表示；(2)限定标签，这是对表征的属性和价值的判断（例如，简单性、可理解性、有用性）。我们认为，为了更好地理解代表性多元化情况下的专业知识的本质，需要元表征和标签（或其等同物）的概念。在我们看来，人类有很大的头脑：他们可以获得一系列不相容的表征，并在各种情况下有效地使用它。专业知识并不仅仅在于掌握一种科学表现形式，而在于充分运用自己所拥有的技能的能力。

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来源期刊

Science & Education EDUCATION & EDUCATIONAL RESEARCH-

CiteScore

6.60

自引率

14.00%

发文量

期刊介绍： Science Education publishes original articles on the latest issues and trends occurring internationally in science curriculum, instruction, learning, policy and preparation of science teachers with the aim to advance our knowledge of science education theory and practice. In addition to original articles, the journal features the following special sections: -Learning : consisting of theoretical and empirical research studies on learning of science. We invite manuscripts that investigate learning and its change and growth from various lenses, including psychological, social, cognitive, sociohistorical, and affective. Studies examining the relationship of learning to teaching, the science knowledge and practices, the learners themselves, and the contexts (social, political, physical, ideological, institutional, epistemological, and cultural) are similarly welcome. -Issues and Trends : consisting primarily of analytical, interpretive, or persuasive essays on current educational, social, or philosophical issues and trends relevant to the teaching of science. This special section particularly seeks to promote informed dialogues about current issues in science education, and carefully reasoned papers representing disparate viewpoints are welcomed. Manuscripts submitted for this section may be in the form of a position paper, a polemical piece, or a creative commentary. -Science Learning in Everyday Life : consisting of analytical, interpretative, or philosophical papers regarding learning science outside of the formal classroom. Papers should investigate experiences in settings such as community, home, the Internet, after school settings, museums, and other opportunities that develop science interest, knowledge or practices across the life span. Attention to issues and factors relating to equity in science learning are especially encouraged.. -Science Teacher Education [...]