通过家族相似性方法探索跨学科背景下的边界:物理学与数学之间的对话

IF 2.1 3区 教育学 Q1 EDUCATION & EDUCATIONAL RESEARCH Science & Education Pub Date : 2023-04-27 DOI:10.1007/s11191-023-00439-2
Sara Satanassi, Laura Branchetti, Paola Fantini, Rachele Casarotto, Martina Caramaschi, Eleonora Barelli, Olivia Levrini
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引用次数: 1

摘要

在家族相似性方法(FRA)的相关方面中,我们的研究侧重于该方法在跨学科背景下阐述学科身份的潜力,特别是关于物理学和数学之间的相互作用。我们提出并讨论了FRA车轮如何与边界对象和边界穿越机构的框架交织使用(Akkerman &Bakker,《教育研究评论》,81,132-169,2011),在STEM教育中以处理跨学科而闻名。本文所讨论的联邦铁路局的作用是双重的:既是实践的又是理论的。它的实用性在于,我们展示了它如何与Akkerman和Bakker框架相结合,在历史案例中有效地促进了未来教师之间关于学科身份和跨学科性的富有成效的讨论。这是理论上的,因为这两个框架的结合提供了词汇来描述跨学科的“模糊性”:就像边界一样,跨学科既分离了学科,使它们的身份出现,又将它们联系起来,促进了跨越和超越边界的机制。这一实证研究揭示了理论阐述如何利用准教师的贡献。我们最初提出FRA是为了描述学科特征,但未来的教师强调了它的潜力,也可以描述物理和数学之间的边界区域和对话。数据分析表明,这两种框架的结合形成了一个复杂的学习空间,在这个空间里,未来的教师有非常不同的认知需求:从那些在学科的身份核心中感觉更好的人,到那些喜欢居住在边界地带的人,以及那些喜欢重新塑造边界空间并动态移动的人。
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Exploring the boundaries in an interdisciplinary context through the Family Resemblance Approach: The Dialogue Between Physics and Mathematics

Among the relevant aspects of the family resemblance approach (FRA), our study focuses on the potential of the approach to elaborate on disciplinary identities in an interdisciplinary context, specifically regarding the interplay between physics and mathematics. We present and discuss how the FRA wheel can be used and intertwined with the framework of boundary objects and boundary crossing mechanisms (Akkerman & Bakker, Review of Educational Research, 81, 132–169, 2011), which is well-known in STEM education for dealing with interdisciplinarity. The role of the FRA discussed in the article is dual: both practical and theoretical. It is practical in that we show how its use, in combination with the Akkerman and Bakker framework, appears effective in fostering productive discussions among prospective teachers on disciplinary identities and interdisciplinarity in historical cases. It is theoretical in that the combination of the two frameworks provides the vocabulary to characterise the ‘ambiguous nature’ of interdisciplinarity: like boundaries, interdisciplinarity both separates disciplines, making their identities emerge, and connects them, fostering mechanisms of crossing and transgressing the boundaries. This empirical study reveals how the theoretical elaboration took advantage of the prospective teachers’ contributions. We initially presented the FRA to characterise disciplinary identities, but the prospective teachers highlighted its potential to characterise also the boundary zone and the dialogue between physics and mathematics. The data analysis showed that the combinination of the two frameworks shaped a complex learning space where there was room for very different epistemic demands of the prospective teachers: from those who feel better within the identity cores of the disciplines, to those who like to inhabit the boundary zone and others who like to re-shape boundary spaces and move dynamically across them.

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来源期刊
Science & Education
Science & Education Social Sciences-Education
CiteScore
5.90
自引率
0.00%
发文量
1117
审稿时长
6-12 weeks
期刊介绍: Science & Education publishes research informed by the history, philosophy and sociology of science and mathematics that seeks to promote better teaching, learning, and curricula in science and mathematics. More particularly Science & Education promotes: The utilization of historical, philosophical and sociological scholarship to clarify and deal with the many intellectual issues facing contemporary science and mathematics education.  Collaboration between the communities of scientists, mathematicians, historians, philosophers, cognitive psychologists, sociologists, science and mathematics educators, and school and college teachers. An understanding of the philosophical, cultural, economic, religious, psychological and ethical dimensions of modern science and the interplay of these factors in the history of science.  The inclusion of appropriate history and philosophy of science and mathematics courses in science and mathematics teacher-education programmes.  The dissemination of accounts of lessons, units of work, and programmes in science and mathematics, at all levels, that have successfully utilized history and philosophy.  Discussion of the philosophy and purposes of science and mathematics education, and their place in, and contribution to, the intellectual and ethical development of individuals and cultures.
期刊最新文献
Family Resemblance Approach in Science Education Cobra Effect in Science Education? The Value of the Philosophy of Science in Senior High School Science Education from the Perspective of the Nature of Science Evaluation of Nature of Science Representations in Biology School Textbooks Based on a Differentiated Family Resemblance Approach Exploring the boundaries in an interdisciplinary context through the Family Resemblance Approach: The Dialogue Between Physics and Mathematics
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