Myth-conceptions: How myths about the brain are hampering teaching
News Oct 16, 2014
Myths about the brain are common among teachers worldwide and are hampering teaching, according to new research published October 15
Teachers in the UK, Holland, Turkey, Greece and China were presented with seven so-called ‘neuromyths’ and asked whether they believe them to be true.
A quarter or more of teachers in the UK and Turkey believe a student’s brain would shrink if they drank less than six to eight glasses of water a day, while around half or more of those surveyed believe a student’s brain is only 10 per cent active and that children are less attentive after sugary drinks and snacks.
Over 70 per cent of teachers in all countries wrongly believe a student is either left-brained or right-brained, peaking at 91 per cent in the UK.
And almost all teachers (over 90 per cent in each country) feel that teaching to a student’s preferred learning style - auditory, kinaesthetic or visual - is helpful, despite no convincing evidence to support this approach.
The new research from the University of Bristol, published in Nature Reviews Neuroscience, calls for better communication between neuroscientists and educators.
Dr Paul Howard-Jones, author of the article from Bristol University’s Graduate School of Education, said: “These ideas are often sold to teachers as based on neuroscience – but modern neuroscience cannot be used support them. These ideas have no educational value and are often associated with poor practice in the classroom.”
The report blames wishfulness, anxiety and a bias towards simple explanations as typical factors that distort neuroscientific fact into neuromyth.
Such factors also appear to be hampering recent efforts of neuroscientists to communicate the true meaning of their work to educators.
Dr Howard-Jones added: “Although the increased dialogue between neuroscience and education is encouraging, we see new neuromyths on the horizon and old ones returning in new forms.
“Sometimes, transmitting ‘boiled-down’ messages about the brain to educators can just lead to misunderstanding, and confusions about concepts such as brain plasticity are common in discussions about education policy.”
The report highlights several areas where new findings from neuroscience are becoming misinterpreted by education, including brain-related ideas regarding early educational investment, adolescent brain development and learning disorders such as dyslexia and ADHD.
Hopes that education will draw genuine benefit from neuroscience may rest on a new but rapidly growing field of ‘neuroeducational’ research that combines both fields.
The review concludes that, in the future, such collaboration will be greatly needed if education is to be enriched rather than misled by neuroscience.
Seven of the neuromyths presented to teachers in the UK, Holland, Turkey, Greece and China were:
- ♦ We mostly only use 10 per cent of our brain
- ♦ Individuals learn better when they receive information in their preferred learning style (for example, visual, auditory or kinaesthetic)
- ♦ Short bouts of co-ordination exercises can improve integration of left and right hemispheric brain function
- ♦ Differences in hemispheric dominance (left brain or right brain) can help to explain individual differences amongst learners
- ♦ Children are less attentive after sugary drinks and snacks
- ♦ Drinking less than 6 to 8 glasses of water a day can cause the brain to shrink
- ♦ Learning problems associated with developmental differences in brain function cannot be remediated by education
Note: Material may have been edited for length and content. For further information, please contact the cited source.
Paul A. Howard-Jones. Neuroscience and education: myths and messages. Nature Reviews Neuroscience, Published Online October 15 2014. doi: 10.1038/nrn3817
Researchers Find a Way to Separate Side Effects of Opioid Drugs Reducing RiskNews
Scientists have discovered a way to separate these two effects -- pain relief and breathing, opening a window of opportunity to make effective pain medications without the risk of respiratory failure.READ MORE
Biological Mechanism of a Leading Cause of Childhood Blindness RevealedNews
Scientists have revealed the pathology of cells and structures stricken by optic nerve hypoplasia, a leading cause of childhood blindness in developed nations.READ MORE
Machine Learning: Helping Determine How a Drug Affects the BrainNews
Machine learning could improve our ability to determine whether a new drug works in the brain, potentially enabling researchers to detect drug effects that would be missed entirely by conventional statistical tests, finds a new UCL study published today in Brain.READ MORE