Lorie‐Marlène Brault Foisy scite author profile

Science education studies have revealed that students often have misconceptions about how nature works, but what happens to misconceptions after a conceptual change remains poorly understood. Are misconceptions rejected and replaced by scientific conceptions, or are they still present in students' minds, coexisting with newly acquired scientific conceptions? In this study, we use functional magnetic resonance imaging (fMRI) to compare brain activation between novices and experts in science when they evaluate the correctness of simple electric circuits. Results show that experts, more than novices, activate brain areas involved in inhibition when they evaluate electric circuits in which a bulb lights up, even though there is only one wire connecting it to the battery. These findings suggest that experts may still have a misconception encoded in the neural networks of their brains that must be inhibited in order to answer scientifically.

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Is inhibition involved in overcoming a common physics misconception in mechanics?

Foisy

Potvin

Riopel

et al. 2015

Trends in Neuroscience and Education

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Effects of teaching the concept of neuroplasticity to induce a growth mindset on motivation, achievement, and brain activity: A meta-analysis

Sarrasin

Nenciovici

Foisy

et al. 2018

Trends in Neuroscience and Education

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Teachers as Orchestrators of Neuronal Plasticity: Effects of Teaching Practices on the Brain

Foisy

Matejko

Ansari

et al. 2020

Mind Brain and Education

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Students' behavioral outcomes are often used by both researchers and teachers to evaluate the effectiveness of pedagogical interventions. Extensive research using behavioral metrics has found that some interventions are more effective than others in certain contexts. However, there has been less focus on how different interventions impact the processing of academic skills at a neural level. To explore this question, we conducted a narrative review of literature examining two or more interventions related to the same subject of learning. We discuss five main themes that encompass different pedagogical practices: (1) orienting attention toward particular features; (2) teaching a particular strategy; (3) changing the level of cognitive engagement; (4) setting an educational context; and (5) interacting with the learner. We provide examples of how these pedagogical practices lead to changes in both brain and behavior. This review provides insights into how teachers orchestrate neural plasticity through different pedagogical choices. In recent years, there has been considerable interest in the idea that understanding the brain may be important for education (

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Is inhibitory control involved in discriminating pseudowords that contain the reversible letters b and d?

Foisy¹,

Ahr²,

Masson³

et al. 2017

Journal of Experimental Child Psychology

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