Dispelling the Myth: Training in Education or Neuroscience Decreases but Does Not Eliminate Beliefs in Neuromyths
Neuromyths are misconceptions about brain research and its application to education and learning. Previous research has shown that these myths may be quite pervasive among educators, but less is known about how these rates compare to the general public or to individuals who have more exposure to neu...
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Frontiers Media S.A.
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| Series: | Frontiers in Psychology |
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| Online Access: | http://journal.frontiersin.org/article/10.3389/fpsyg.2017.01314/full |
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doaj-a8afd18a5aec491bbe71aa8546c50a1f2020-11-25T00:54:38ZengFrontiers Media S.A.Frontiers in Psychology1664-10782017-08-01810.3389/fpsyg.2017.01314263147Dispelling the Myth: Training in Education or Neuroscience Decreases but Does Not Eliminate Beliefs in NeuromythsKelly Macdonald0Laura Germine1Alida Anderson2Joanna Christodoulou3Lauren M. McGrath4Department of Psychology, University of HoustonHouston, TX, United StatesDepartment of Psychiatry, McLean Hospital, Harvard Medical SchoolBelmont, MA, United StatesSchool of Education, American UniversityWashington, DC, United StatesCommunication Sciences and Disorders, MGH Institute of Health ProfessionsCharlestown, MA, United StatesDepartment of Psychology, University of DenverDenver, CO, United StatesNeuromyths are misconceptions about brain research and its application to education and learning. Previous research has shown that these myths may be quite pervasive among educators, but less is known about how these rates compare to the general public or to individuals who have more exposure to neuroscience. This study is the first to use a large sample from the United States to compare the prevalence and predictors of neuromyths among educators, the general public, and individuals with high neuroscience exposure. Neuromyth survey responses and demographics were gathered via an online survey hosted at TestMyBrain.org. We compared performance among the three groups of interest: educators (N = 598), high neuroscience exposure (N = 234), and the general public (N = 3,045) and analyzed predictors of individual differences in neuromyths performance. In an exploratory factor analysis, we found that a core group of 7 “classic” neuromyths factored together (items related to learning styles, dyslexia, the Mozart effect, the impact of sugar on attention, right-brain/left-brain learners, and using 10% of the brain). The general public endorsed the greatest number of neuromyths (M = 68%), with significantly fewer endorsed by educators (M = 56%), and still fewer endorsed by the high neuroscience exposure group (M = 46%). The two most commonly endorsed neuromyths across all groups were related to learning styles and dyslexia. More accurate performance on neuromyths was predicted by age (being younger), education (having a graduate degree), exposure to neuroscience courses, and exposure to peer-reviewed science. These findings suggest that training in education and neuroscience can help reduce but does not eliminate belief in neuromyths. We discuss the possible underlying roots of the most prevalent neuromyths and implications for classroom practice. These empirical results can be useful for developing comprehensive training modules for educators that target general misconceptions about the brain and learning.http://journal.frontiersin.org/article/10.3389/fpsyg.2017.01314/fullneuromythseducational neurosciencelearning stylesdyslexia |
| collection |
DOAJ |
| language |
English |
| format |
Article |
| sources |
DOAJ |
| author |
Kelly Macdonald Laura Germine Alida Anderson Joanna Christodoulou Lauren M. McGrath |
| spellingShingle |
Kelly Macdonald Laura Germine Alida Anderson Joanna Christodoulou Lauren M. McGrath Dispelling the Myth: Training in Education or Neuroscience Decreases but Does Not Eliminate Beliefs in Neuromyths Frontiers in Psychology neuromyths educational neuroscience learning styles dyslexia |
| author_facet |
Kelly Macdonald Laura Germine Alida Anderson Joanna Christodoulou Lauren M. McGrath |
| author_sort |
Kelly Macdonald |
| title |
Dispelling the Myth: Training in Education or Neuroscience Decreases but Does Not Eliminate Beliefs in Neuromyths |
| title_short |
Dispelling the Myth: Training in Education or Neuroscience Decreases but Does Not Eliminate Beliefs in Neuromyths |
| title_full |
Dispelling the Myth: Training in Education or Neuroscience Decreases but Does Not Eliminate Beliefs in Neuromyths |
| title_fullStr |
Dispelling the Myth: Training in Education or Neuroscience Decreases but Does Not Eliminate Beliefs in Neuromyths |
| title_full_unstemmed |
Dispelling the Myth: Training in Education or Neuroscience Decreases but Does Not Eliminate Beliefs in Neuromyths |
| title_sort |
dispelling the myth: training in education or neuroscience decreases but does not eliminate beliefs in neuromyths |
| publisher |
Frontiers Media S.A. |
| series |
Frontiers in Psychology |
| issn |
1664-1078 |
| publishDate |
2017-08-01 |
| description |
Neuromyths are misconceptions about brain research and its application to education and learning. Previous research has shown that these myths may be quite pervasive among educators, but less is known about how these rates compare to the general public or to individuals who have more exposure to neuroscience. This study is the first to use a large sample from the United States to compare the prevalence and predictors of neuromyths among educators, the general public, and individuals with high neuroscience exposure. Neuromyth survey responses and demographics were gathered via an online survey hosted at TestMyBrain.org. We compared performance among the three groups of interest: educators (N = 598), high neuroscience exposure (N = 234), and the general public (N = 3,045) and analyzed predictors of individual differences in neuromyths performance. In an exploratory factor analysis, we found that a core group of 7 “classic” neuromyths factored together (items related to learning styles, dyslexia, the Mozart effect, the impact of sugar on attention, right-brain/left-brain learners, and using 10% of the brain). The general public endorsed the greatest number of neuromyths (M = 68%), with significantly fewer endorsed by educators (M = 56%), and still fewer endorsed by the high neuroscience exposure group (M = 46%). The two most commonly endorsed neuromyths across all groups were related to learning styles and dyslexia. More accurate performance on neuromyths was predicted by age (being younger), education (having a graduate degree), exposure to neuroscience courses, and exposure to peer-reviewed science. These findings suggest that training in education and neuroscience can help reduce but does not eliminate belief in neuromyths. We discuss the possible underlying roots of the most prevalent neuromyths and implications for classroom practice. These empirical results can be useful for developing comprehensive training modules for educators that target general misconceptions about the brain and learning. |
| topic |
neuromyths educational neuroscience learning styles dyslexia |
| url |
http://journal.frontiersin.org/article/10.3389/fpsyg.2017.01314/full |
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