A Punctuated Equilibrium Model for Conceptual Change and the Role of Neo-Piagetian Constructs: Methodology, Empirical Evidence, and Theoretical Perspectives.

IF 0.6 4区 心理学 Q4 PSYCHOLOGY, MATHEMATICAL Nonlinear Dynamics Psychology and Life Sciences Pub Date : 2023-07-01
Dimitrios Stamovlasis, Julie Vaiopoulou, Themistocles Tsikalas, George Papageorgiou
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Abstract

This study explores the hypothesis related to a punctuated equilibrium process for conceptual change in science learning, in conjunction with the effects of four cognitive variables: logical thinking and field-dependence/field-independence, divergent and convergent thinking. The participants were fifth and sixth-grade elementary school pupils involved in different tasks, who were asked to describe and interpret chemical phenomena. Latent Class Analysis (LCA) was applied to children's responses, and three clusters or latent classes (LC1, LC2, and LC3) were identified, corresponding to hierarchical levels of conceptual understanding. The ensued LCs align with the theoretical conjecture about a stepwise conceptual change process that might go through various stages or mental models. These levels or stages are conceptualized as attractors, and changes between them were modeled as cusp catastrophes using the four cognitive variables as controls. The analysis showed that logical thinking acted as asymmetry factor, while field-dependence/field-independence, divergent and convergent thinking acted as bifurcation variables. This analytic approach presents a methodology for investigating conceptual change as a punctuated equilibrium process that adds to the nonlinear dynamical research with important implications for theories of conceptual change in science education and psychology as well. Discussion on the new perspective embracing the meta-theoretical framework of complex adaptive systems (CDS) is provided.

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概念变化的间断均衡模型和新皮亚杰结构的作用:方法论、经验证据和理论观点。
本研究结合四个认知变量:逻辑思维和场依赖/场独立、发散思维和收敛思维的影响,探讨了科学学习中概念变化的间断平衡过程的假设。参与者是五年级和六年级的小学生,他们被要求描述和解释化学现象。潜在类别分析(LCA)应用于儿童的反应,并确定了三个集群或潜在类别(LC1, LC2和LC3),对应于概念理解的层次水平。随后的lc与理论猜想一致,即一个逐步的概念变化过程可能经历不同的阶段或心理模型。这些级别或阶段被概念化为吸引子,它们之间的变化被建模为使用四个认知变量作为控制的尖端灾难。分析表明,逻辑思维是不对称因素,场依赖/场独立、发散和收敛思维是分岔变量。这种分析方法提出了一种研究概念变化作为间断平衡过程的方法,增加了非线性动力学研究,对科学教育和心理学的概念变化理论也有重要意义。讨论了包含复杂适应系统元理论框架的新视角。
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来源期刊
CiteScore
1.40
自引率
11.10%
发文量
26
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