Abstract
The buzzwordbrain-based learningemerged in the 1970s and continues to fascinate teachers and learners in schools and universities today. However, what interested teachers often fail to realize is thatbrain-basedorbrain-friendly learningcan not only be a plausible concept, but also a myth when applied incorrectly. Numerous empirical studies reveal a high degree of support for misconceptions aboutlearning and the brain, known as neuromyths, among both pre-service and in-service teachers. When applied in the classroom, these myths can waste the educational system’s money, time and effort. Even though the neuromyths issue has been known for two decades and the topic remains a focus of constant research, even today, the research discourse barely goes beyond replicating the earliest research findings. This review article provides an overview of the theoretical and empirical state of research on neuromyths. As part of this, ten neuromyths on the subject oflearning and memorywill be described in terms of content and the results of prior studies on neuromyths will be summarized. The overview of the theoretical and empirical state of research serves as a basis for highlighting controversies, fundamental concepts, issues and problems, current research gaps and potential developments in the field. Topics discussed include whether controversial research findings on correlations with endorsement of neuromyths are merely a methodological artefact, and why contradictions exist between the theoretical and empirical state of research. In addition, three central research gaps will be identified: First, studies should be conducted on whether and to what extent the endorsement of neuromyths really deprives teachers and students of opportunities to spend the education system’s money, time and effort on more effective theories and methods. Second, there is too little work on developing and evaluating intervention approaches to combat neuromyths. Third, a standard scientific methodology or guidelines for determining new neuromyths are lacking. As desirable future developments in the field, more work educating people on neuromyths, uniform vocabulary, and interdisciplinary cooperation are highlighted. This contributes to answering the question of to what extent interweaving neuroscience, educational science and cognitive psychology can contribute to reducing the prevalence of neuromyths in education.
Highlights
Insights from brain research have resulted in a downright neuroboom in recent years, expressed in transfer endeavors such as neuro-marketing, neuro-architecture and neuromanagement (Grospietsch and Mayer, 2020), and and primarily in various neuro-education or neuro-didactics publications for teachers and learning guides for students (e.g., Jensen, 1998; Sprenger, 2002; Doyle and Zakrajsek, 2013; Kagan, 2014; Grospietsch, 2021)
“Brain-based learning can change everything”, “Brain-friendly learning is a little gear that, when turned, unleashes a powerful effect”, and “When we teach children and youth how to learn in a brain-friendly way, we change the world” are just a few of the promises made with respect to neurodidactics
Interested teachers and learners often fail to consider that neurodidactics is more than just a plausible concept – it can be a myth when applied incorrectly
Summary
Insights from brain research have resulted in a downright neuroboom in recent years, expressed in transfer endeavors such as neuro-marketing, neuro-architecture and neuromanagement (Grospietsch and Mayer, 2020), and and primarily in various neuro-education or neuro-didactics publications for teachers and learning guides for students (e.g., Jensen, 1998; Sprenger, 2002; Doyle and Zakrajsek, 2013; Kagan, 2014; Grospietsch, 2021). Brain-based or brain-friendly learning is often treated as a magic word in schools, universities and other educational institutions (e.g., Jensen, 2008; Folta-Schoofs and Ostermann, 2019). Numerous empirical studies reveal widespread endorsement of such misconceptions on the topic of learning and the brain both among the public at large and among pre-service and in-service teachers (e.g., Dekker et al, 2012; Ferrero et al, 2016). Even school principals, awardwinning teachers and university instructors widely endorse neuromyths like “we only use 10% of our brains”, “learning differences due to hemispheric use”, or the “existence of learning styles” (Horvath et al, 2018; Zhang et al, 2019). It seeks to gain insight into the question of to what extent interweaving neuroscience, educational science and cognitive psychology can contribute to reducing the prevalence of neuromyths in education
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