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(Lia Commissar) Hi! This morning
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I'm going to talk about education and
neuroscience,
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both generally as the
field's developing
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but also, the specific work
that we've been doing in this field.
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The Wellcome Trust -- OK --
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the Wellcome Trust, for those of you
who don't know,
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is the second largest charitable
foundation globally,
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with the aim of improving health.
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And it does that by funding lots of
bio-medical research, but also
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by funding work in the social science
and humanities,
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funding lots of education work,
doing lots of engagement work
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and also lots of policy work.
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So I'm going to talk through a few things
this morning.
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Firstly, what has neuroscience got to do
with education?
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What impact is it having on education
at the moment?
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The work that we've been doing, and then
thinking about the future.
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So, what has neuroscience got to do
with education?
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Well, if education is about
learning something,
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be it knowledge or a skill,
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and neuroscience is the study of
the nervous system and the brain,
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then they're pretty linked, in my opinion.
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And it's not new to kind of talk about
the brain, in relation to education.
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People have been discussing this,
critiquing it,
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debating it for lots of years.
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There's loads of research papers out there
with titles such as
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"A Bridge too far",
"Its a Prime time to build a bridge",
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"A two-way path is possible",
"Buildng the bridge from both ends."
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So lots of people have been talking
about this bridge
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but not many people have been building it.
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And, this is kind of understandable
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because it's probably only really in
the last 10 years that neuroscience is,
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the understanding from neuroscience
has evolved significantly
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that we can start to think about how
it might have implications for the classroom.
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And this is really exciting,
and there is lots of potential
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and its really understanding,
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you can understand why teachers,
why policy makers,
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why technologists want to start applying
some of these ideas to education.
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But my word of warning that will go
throughout this presentation
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really is about waiting and doing
the research and finding out
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whether these things are actually going
to be helpful and impactful
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in the classroom.
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And the other thing that I must say
just before I go on
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is that I am not saying in any way that
neuroscience alone is the answer
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and is going to solve all our problems
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or can tell us everything
about the classroom.
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That's a very complex ecosystem.
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But, neuroscience is
a kind of a newish field
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where we can start using that
alongside psychology,
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alongside educational research,
and alongside teacher's knowledge
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to build something really good
for the future
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and see if we can start improving
learning in the classroom.
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So, what impact is neuroscience
having on education?
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So, we're at an education conference --
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I thought I'd wait and see
what you guys think.
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So, I'm going to put a few statements
up on the board, as any good teacher does.
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And what I would like you to do is
just simply raise your hand
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if you agree with the statement,
if you think it's true.
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So: "We mostly only use 10% of our brain."
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Hands up if you agree.
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OK.
I will just show you this:
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These are some stats, I'll show you
the paper this comes from in a second.
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This was a survey of teachers
in five countries
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and those are the percentages
of the teachers that agree.
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Hum -- it's not really working, but
I can tell you that this is not true
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-- uh, there we go -- even sat there now,
you might think you're not doing very much
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but your brain is still in control
of your breathing,
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in control of your heart rate, keeping you
standing up, sitting upright,
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perhaps paying attention, maybe not,
maybe mind-wandering
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but it's all using your brain,
all parts of your brain.
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So that's one of these myths.
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Second one: "Individuals lean better
when they receive information
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"in their preferred learning style."
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So visually, by seeing,
auditory, by hearing,
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or kinesthetically, by doing things.
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Hands up if you agree with that statement.
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OK.
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You can see, across the board, teachers
in lots of countries agree with this.
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(Laughter)
Yes. So (she laughs)
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It is true that people have a preference.
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You might prefer to learn something
in a particular way,
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you might feel that you are
a visual learner,
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and that you learn better in that,
by using stuff visually:
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you do have a preference; but researches
show that you don't learn any better
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if you are showing the material
in that particular way, believe it or not.
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One last one:
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"Differences in hemispheric dominance,
left or right brain, can help to explain
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"individual differences amongst learners."
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Hands up if you agree.
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We might start to see a pattern,
I don't know.
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(Laughter)
So, here is some stats.
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Really high in the UK.
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Again, it's not true.
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If you hear things about integrating
the right or left brain,
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or if you hear things about
one side of your brain is the logical side
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and the other side is more mathsy --
sorry, creative, it's just not true.
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And I'm going to skip the next one.
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["Regular drinking of caffeinated drinks
reduces alertness."]
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But this one is true.
(Laughter)
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OK, I can tell you a little more about that.
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If you want to see more
about these neuromyths,
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This is a really good paper written by
Paul Howard Jones last year.
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It got a lot of interest on social media
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and it goes through lots of what
these common neuromyths are.
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So, neuromyths:
Where do they come from?
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Are they a problem?
And what to do about them?
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So, generally they often come from
some kind of science
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that's been over- or misinterpreted,
and they tend to stick around (excuse me)
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because they are easy to understand or
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easy to kind of implement
in the classroom.
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Are they a problem?
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Well, if you think you only use
10% of your brain, is that a problem?
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Possibly not, it's not accurate,
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but when I first started teaching
about nine years ago,
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and this was common in lots of schools
across the UK,
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I'm not sure about in other countries,
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students were asked to fill
a questionnaire about how they learned,
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and did they like learning in this way.
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And teachers were given a spreadsheet
with students
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and which were their preferred
learning styles.
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And teachers were encouraged to make sure
that they were providing
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information for those students
in that particular way.
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And I'd say that is a bit of a problem,
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because teachers were potentially
wasting time
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or feeling that they should be doing
something
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that was not actually benefiting
the students.
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A positive outcome was that lessons
became more diverse,
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............... (check) about a range of
activities
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but at the same time, students would say
things like:
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"Miss, I'm not doing this activity
because I'm a kinesthetic learner."
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And so students were themselves
limiting themselves
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and not getting the benefit of learning
in multiple modalities,
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which is the way you learn best,
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by using different ways of learning
the same information. 7:19
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So, what to do about them?
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Well, I might come on to that a bit later
in what we're going to do.
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So, the research is carrying on, but
lots of research in this area
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is still at the stage of it's
about cells in a Petri dish
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It might be about finding out about
what's going on in animals,
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or very small-scale trials of humans,
but maybe in a lab.
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Not much is going on in the classroom.
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And so we set p this initiative,
Education Neuroscience Initiative
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with the Education Endowment Foundation,
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who are the What Works Centre of
Education in the UK.
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And we did it for two reasons:
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we wanted to build the evidence of
what works in education,
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informed by neuroscience,
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and we also wanted to help support
teachers and general educators
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with what we do and don't know. (check)
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So, we firstly launched a funding round,
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to get people to apply for money
to do research in the space,
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and all the projects had to have some
evidence that they will -- that they work,
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some pilot data.
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But they also had to be scalable
and affordable,
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so that if we find that
these things worked,
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that they could be rolled out,
that they could lead to policy changes,
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that they could be available to everybody.
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And there is particular emphasis as well
around disadvantaged students.
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We want to do something
that would benefit all,
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and try and close the socioeconomic gap.
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And all of our projects are also paired
with an independent evaluator.
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So, you have your project team
and you also have an evaluation team.
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And that evaluation team helps to shape
the methodology that's used,
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make sure it's robust, educationally.
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They also collect some of the first data
and they also report on that data first.
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So there is no chance for the project team
to maybe overstate claims
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about what they found.
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So we funded these projects
and these are all taking place
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in around 50 to 100 schools,
each in the UK.
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I won't talk about all of them,
but I'll just whiz through a couple.
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Fit to Study is looking at great research
around how more vigorous activity
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can influence learning,
short- and long-term.
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We know this from lots of research
in animals and from small-group studies,
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but nobody has done anything in the UK
on this scale.
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And so we're looking at changing
what happens in P.E. lessons,
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and then measuring the short- and
long-term outcomes of those students.
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Teen Sleep has had a certain media coverage.
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And that's looking at we know,
researchers know,
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neuroscientists will tell you,
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we know that teens have
a different sleep-wake cycle,
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their circadian rhythm is altered
by a couple of hours.
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So they don't feel tired in the evenings,
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it's really hard to get them up
in the morning,
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they are not fit and ready
to start learning early in the morning.
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So we're studying, at a late school start
time against a sleep education program,
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where we just teach them about
the importance of their sleep,
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how to get good sleep, about
using technology just before bed
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and about how that might affect
their sleep -- not in a positive way --
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and looking again
at their academic outcomes.
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These are two projects
which are both in primary schools.
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They're training very young children:
one, a different way to learn reading,
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one, about training their inhibitions
that they're better equipped
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when they learn science and maths,
when they come across
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these kind of counter-intuitive ideas.
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Engaging the brain's reward system
from Paul Howard Jones.
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This one is maybe of particular interest
because it's taking ideas from gaming,
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the idea of why games are so engaging
and motivating.
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Neuroscientists have discovered
it's this idea of uncertain rewards,
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so not the consistency that we
see in schools around the world
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of you get something right,
you get a point,
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but you get something right
and you can game that point.
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You might double it.
You might get nothing.
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And they've shown that
that ramps up dopamine
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in your brain and the rewards system
makes it very engaging, motivating,
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and hopefully, a very teachable moment
for students.
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And the last one is spaced learning,
and this is being actually led by
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a school in collaboration
with neuroscientists and psychologists.
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And they're looking at ideas from
neuroscience and psychology
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and trying to work out what really
works in the classroom
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in terms of repeated learning and what
the spaces are between that learning.
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So that's just a quick oversight.
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If you want more information,
I'm happy to talk about it.
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Um, very quickly I'll mention
the Education Endowment Foundation
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has a very useful toolkit that
talks about different interventions.
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It talks about the cost of those
interventions
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and the level of the evidence
and how effective it is.
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And they've got a set of projects
all around digital technologies
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which you might be interested in.
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So, that's the research.
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We have to sit and wait now
for four years
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to find out how some of the outcomes
of some of those studies,
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what they'll be.
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And we're just as interested to find out
if they're effective as if they're not,
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because we'll then know to say
to teachers, "Don't bother changing
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"your school start time.
It has no impact."
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So what we're doing.
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We're trying to support teachers
with what we know
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because we don't want these
neuro-myths being perpetuated.
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We think teachers need to be empowered
with really what we do know.
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So we did something earlier this year,
a very quick, set up very quickly.
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And it was an online event where
we had neuroscientists
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and psychologists online.
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And teachers could log on and
ask them any questions
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about the brain or learning.
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And we had about 7,000 people
engaged with it,
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but we know that that's not enough.
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So what we're doing is we're currently
crowdsourcing information
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from neuroscientists, psychologist,
educational academics across the globe.
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And we're going to develop, hopefully,
some really good resources
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for teachers that give them a summary
of the research area,
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be it reward, motivation, about
learning differences.
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But it will also give them an idea
of how developed that research is.
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Is it just in cells in a lab or is it
being tested in the classroom?
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And finally, it gives them also some
other reputable sources of information
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to go to, so that people are
finding out about research
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and scientific findings are factual,
hopefully.
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And then we're gonna do another
online event where we get
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neuroscientists, psychologists,
educational academics.
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And hopefully, by enabling this
conversation,
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scientific findings won't be over-
or misinterpreted.
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People can ask the questions
about the research.
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If you want to be involved in that,
follow us on Twitter.
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Find out what we're doing.
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So, the future, very quickly.
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There were a couple of journals
already in this space:
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Mind, Brain, and Education and
Trends in Neuroscience and Education.
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Two more are coming out
this and next year.
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This is very much a developing,
building area of research.
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The Education Endowment
Foundation did a lit review,
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so this paper gives lots of ideas
about all the bits of areas
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of neuroscience that could be
applied to education,
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the distance from the classroom,
and how solid that evidence is.
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So you can find out a bit more there.
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We also had a phone call
with the White House earlier this year.
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They're very interested.
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They're working out what they
should be doing in this space.
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So it's very exciting but early stages.
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Um, so more about the future.
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Quickly flipped to my notes
cause I can't remember all of this.
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There's lots of interesting areas
that are very promising
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in this field of research:
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things about stimulation
of young children
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and how that actually has
a huge impact on their development.
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And that might have big implications
in lower and middle income countries.
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Recognizing that teenagers and
adolescence is a very distinct time,
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and they might need different
things in terms of
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to support their learning
compared to adults.
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We are learning lots more about
reward, motivation, attention,
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about neuroplasticity,
how our brains are very plastic
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and how they can continue to learn
throughout life,
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and how that actual cognitive demand
on your brain might be good
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at staving off neurological
degenerative diseases later in life.
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There's work around fostering
better creativity,
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around specifics in maths, English,
and science,
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the impact of stress on learning,
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earlier screening for learning disorders,
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and hopefully also, this will become
something that is much more embedded
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and ingrained in teacher training.
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So very quickly, the issues I think,
are that research takes time.
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We shouldn't over-interpret
in individual studies.
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And this translation is a new
work-in-progress.
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But there's loads of potential,
lots of exciting opportunities.
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But we need multi-disciplinary
teams working on this,
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including educational technologists.
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We need to get good information
out to teachers.
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We also need to give them the tools
to ask the right questions
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so that they can ask what
things are based on,
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of their studies, has research been done.
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And we might end up with some
things that lead to
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some very interesting policy changes.
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But that's a few years down the line.
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So I'll just leave you with this quote
which I quite liked.
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I won't read it.
I'll let you read it.
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Thank you very much.
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(applause)
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