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The myth of average | Todd Rose | TEDxSonomaCounty

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    Host: Please welcome
    to the TEDxSonomaCounty stage,
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    Todd Rose.
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    (Applause)
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    Todd Rose: It's 1952,
    and the Air Force has a problem.
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    They've got good pilots
    flying better planes,
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    but they're getting worse results.
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    And they don't know why.
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    For a while, they blamed the pilots.
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    They even blamed the technology.
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    They eventually got around
    to blaming the flight instructors.
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    But it turned out that the problem
    was actually with the cockpit.
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    Let me explain.
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    Imagine you're a fighter pilot.
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    You're operating a machine
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    that in some cases can travel faster
    than the speed of sound,
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    and where issues
    between success and failure,
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    sometimes life and death,
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    can be measured in split seconds.
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    If you're a fighter pilot,
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    you know that your performance
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    depends fundamentally
    on the fit between you and your cockpit.
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    Because after all, what good
    is the best technology in the world,
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    if you can't reach
    the critical instruments
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    when you need them the most?
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    But this presents a challenge
    for the Air Force.
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    Because obviously,
    pilots are not the same size.
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    So, the issue is:
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    how do you design one cockpit
    that can fit the most individuals?
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    For a long time,
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    it was assumed that you could do this
    by designing for the average pilot.
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    That almost seems intuitively right.
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    If you design something
    that's fit for the average sized person,
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    wouldn't it fit most people?
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    It seems right but it's actually wrong.
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    And 60 years ago,
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    an Air Force researcher, Gilbert Daniels,
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    proved to the world
    just how wrong this really is,
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    and what it was costing us.
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    Here's how he did it.
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    He studied over 4,000 pilots
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    and he measured them
    on ten dimensions of size,
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    and he asked a very simple question:
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    how many of these pilots
    are average on all ten dimensions?
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    (Laughter)
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    The assumption was
    that most of them would be.
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    Do you know how many really were?
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    Zero.
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    Gilbert Daniels proved
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    there was no such thing
    as an average pilot.
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    Instead, what he found
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    was that every single pilot
    had what we call a jagged size profile.
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    Right?
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    It means no one is the same
    on every dimension.
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    And this makes sense.
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    Just because you're the tallest person
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    doesn't mean you're the heaviest,
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    doesn't mean you have
    the broadest shoulders,
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    or the longest torso.
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    But this is tricky because if every pilot
    has a jagged size profile
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    and you design a cockpit on average,
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    you've literally designed it for nobody.
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    So, the Air Force
    realized they had a problem.
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    And their response was bold.
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    They banned the average.
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    (Laughter)
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    Meaning that moving forward,
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    they refused to buy fighter jets
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    where the cockpit was designed
    for an average sized pilot.
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    And instead, they demanded
    that the companies who built these planes
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    designed them to the edges
    of dimensions of size.
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    Meaning that rather than design
    for, say, the average height,
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    they wanted a cockpit
    that could accommodate
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    as close to the shortest pilot
    and the tallest pilot
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    as the technology would allow.
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    Now, the companies that made these planes,
    as you could imagine,
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    weren't happy, right?
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    They argued, and lobbied, and they said,
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    it's going to be impossible
    or at least impossibly expensive
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    to build a flexible cockpit.
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    But once they realized
    that the Air Force wasn't going to budge,
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    suddenly, it was possible.
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    And it turned out
    it wasn't that expensive.
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    And in fact, they made great strides
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    leveraging simple solutions
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    that we all take for granted
    in our everyday life,
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    like adjustable seats.
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    And as a result,
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    the Air Force not only
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    improved the performance
    of the pilots that they already had,
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    but they dramatically
    expanded their talent pool.
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    And today, we have the most diverse
    pool of fighter pilots ever.
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    But here's the thing,
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    many of our top pilots would have never
    fit in a cockpit designed on average.
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    So, most of us have never sat
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    in the cockpit of a $150 million
    fighter jet, right?
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    But we've all sat in the classroom.
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    And I would argue
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    (Laghter)
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    (Applause)
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    I would argue that these are
    the cockpits of our economy,
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    and I think we all know
    that we have some problems.
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    We're spending more money
    than ever before,
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    but we're getting worse results.
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    Whether we're talking about
    declining test scores in math and science
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    or our dropout crisis.
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    You probably know,
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    that we have over 1.2 million dropouts
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    every single year
    in high school in this country.
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    What you may not know
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    is that at least 4% of those dropouts
    are known to be intellectually gifted.
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    That means we're losing over 50,000
    of our brightest minds every single year.
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    So, we know we have a problem.
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    But do we know why?
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    So far, we've been content
    to blame the students.
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    We blame the teachers.
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    We even blame the parents.
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    But here's the thing ...
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    I think back to the Air Force example,
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    and I can't help but wonder:
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    how much of this problem
    is just bad design?
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    Here's what I mean.
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    Even though we have
    one of the most diverse countries
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    in the history of the world,
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    and even though it's the 21st century,
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    we still design our learning environments,
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    like textbooks, for the average student.
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    No kidding.
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    We call it age-appropriate.
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    And we think it's good enough.
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    But of course, it's not.
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    I mean, think about it.
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    What does it even mean
    to design for an average student?
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    Because a student is not one-dimensional,
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    like struggling to gifted.
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    Students vary on many
    dimensions of learning,
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    just like they vary on dimensions of size.
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    Here are a few obvious ones.
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    And just like size,
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    each student, every single one of them,
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    has a jagged learning profile.
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    Meaning, they have strengths,
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    they're average at some things,
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    and they have weaknesses.
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    We all do.
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    Even geniuses have weaknesses.
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    But ...
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    if the fighter pilot example
    has taught us anything,
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    it's this.
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    If you design those
    learning environments on average,
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    odds are you've designed them for nobody.
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    So, no wonder we have a problem.
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    We've created learning environments
    that because they are designed on average,
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    cannot possibly do
    what we expected them to do,
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    which is to nurture individual potential.
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    But think about
    what that could really costs us.
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    Because every single student
    has a jagged learning profile,
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    it means that the average hurts everyone,
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    even our best and brightest.
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    Even for them,
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    designing on average
    destroys talent in at least two ways.
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    First, it makes your talent a liability.
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    We all know kids like this.
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    So unbelievably gifted in one area
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    that their educational environment
    can't challenge them.
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    We also know what happens.
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    They get bored, and a shockingly
    high number of them drop out.
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    The second way
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    that designing on average destroys talent
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    is that it means your weakness
    will make it hard for us to see,
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    let alone nurture, your talent.
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    We all know kids like this as well.
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    Like the kid who's gifted in science
    but who is a below average reader.
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    Because our science textbooks
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    assume that every kid
    is reading at grade level,
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    this kid's in trouble.
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    Because for her,
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    science class is first
    and foremost a reading test.
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    And it's doubtful that we will ever see
    what she's truly capable of.
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    Now, it's one thing when our technology
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    does not allow us to do anything
    other than average.
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    But it is a whole other thing
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    when the technology changes
    and we can do more,
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    but we don't realize it.
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    That's where we are today.
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    In the last few years, education,
    just like the rest of society,
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    has gone digital.
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    If you don't believe me,
    just consider this fact:
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    U.S. public schools are one of the largest
    buyers of iPads in the world.
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    Right? So, the question isn't
    do you want the technology?
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    It's already here.
    You've already paid for it.
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    The question is:
    what do you want it to be?
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    And this is where it really gets exciting.
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    We have a chance, right now,
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    to use this technology
    to create learning environments
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    that are so flexible
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    that they truly can nurture the potential
    of every single individual.
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    Now, you might think
    that sounds expensive, right?
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    Doesn't have to be.
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    In fact, we can get a long way,
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    we can make great strides
    with simple solutions
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    that we take for granted
    in our everyday digital lives.
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    Here I am thinking about basic stuff
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    like language translation,
    support for reading, vocabulary,
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    you know, even the ability of a machine
    to pronounce a word for you,
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    or read a passage if you want.
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    Basic stuff.
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    But while these are simple solutions,
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    you'll be surprised
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    at how big of an impact they actually have
    on the lives of individuals.
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    I know I was, the first time
    that I saw it happen.
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    I was observing a fourth-grade classroom
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    a few years ago,
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    and they were participating in a study
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    where we were testing the effectiveness
    of a new digital science curriculum.
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    Now, I'll be the first to say
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    this new digital version wasn't fancy.
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    In fact, it was pretty basic.
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    The thing that it had going for it though,
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    was that it did not assume
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    that every student in that classroom
    was reading at grade level.
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    Now, one of my favorite things
    about this particular classroom
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    was the teacher.
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    Because she hated technology.
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    And I know this
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    because it's the first thing
    that she told me when I met her.
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    And my response was,
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    "OK, why did you sign up for a study
    that's about technology?"
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    She told me
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    she was willing to go through this
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    in the hopes that it might help
    one kid in her class.
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    His name was Billy.
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    And Billy, as she told me,
    had a mind for science.
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    But he was one of those kids
    who was a below average reader.
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    And she was hoping this
    might reach him now
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    while he's still learning to read.
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    Now, I have to say,
    that actually made me nervous.
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    Because as I said,
    the technology was pretty basic.
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    And I didn't want to disappoint her.
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    So, you can imagine
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    how pleasantly surprised I was
    about halfway through the study,
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    the teacher reaches out to say,
    "Hey, guess what?"
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    Not only has Billy taken to the technology
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    but I'm starting to see
    improvement in his performance.
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    So, that was nice.
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    But nothing,
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    nothing prepared me for what I saw
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    when I went back to that classroom
    at the end of the study.
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    Billy had become the de facto
    smartest kid in the class.
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    No kidding.
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    And everybody knew it.
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    In fact, the first thing that I saw
    when I walked through the door
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    was six or seven kids
    huddled around Billy's desk
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    asking him questions about the assignment.
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    And boy did he have answers,
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    it turns out.
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    The thing is, all we really gave Billy
    and his classmates
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    was the learning equivalent
    of adjustable seats.
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    And in return,
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    we got a glimpse of Billy's talent.
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    And sure, you might say, "Well, look,
    that's one kid in one classroom,"
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    but then again,
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    that's one kid in one classroom.
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    And isn't that what it's actually about?
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    Nurturing individual potential.
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    Jonas Salk was one individual
    and he cured polio.
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    What if Billy is the next Jonas Salk?
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    What if the cure for cancer
    is in his mind?
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    Who knows?
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    But I do know that we came
    dangerously close to losing his talent
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    before he even left grade school.
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    Not because he didn't understand science,
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    but because he was still learning to read.
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    And that's what I mean
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    when I say that simple solutions
    can have a profound impact on individuals.
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    So, the real question to me
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    is how do we get these
    adjustable seats for learning
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    in the hands of every student
    as fast as possible
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    without spending more money?
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    Here, I actually think the Air Force
    has given us the formula for success.
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    What if we ban the average in education?
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    We know it destroys talent.
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    Instead, what if we demanded
    that the companies
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    that sell these materials
    into our classrooms
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    design them not to the average
    of dimensions of learning
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    but to the edges?
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    It would be a bold move.
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    It would certainly send
    a strong signal to the market:
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    the game's changed.
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    But trust me,
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    if we do this,
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    not only will we increase the performance
    of the kids in our classrooms today,
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    we will dramatically
    expand our talent pool.
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    Because right now
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    there are so many students
    we simply cannot reach
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    because we design on average.
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    Design to the edges
    and we will reach them,
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    and we'll get their talent.
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    And I have to say I know,
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    because I was one of those students.
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    So today, I'm a faculty member at Harvard.
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    But I'm also a high school dropout.
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    It gets better.
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    I was a high school
    dropout with a 0.9 GPA.
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    (Laughter)
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    For those of you who don't know,
    that's pretty bad.
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    (Laughter)
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    But here's the thing.
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    I've been to the very bottom
    of our educational system
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    and I've been to the very top.
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    I'm here to tell you
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    we are wasting so much talent
    at every single level.
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    And the thing is,
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    because for every one person like me
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    there are millions who worked as hard,
    who had the ability,
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    but who were unable to overcome
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    the drag of an educational environment
    designed on average.
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    And their talent is forever lost to us.
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    The thing is
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    we can't really afford to lose them.
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    The good news is
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    we don't have to anymore.
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    I'm telling you we have
    a once in a lifetime chance, right now,
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    to fundamentally re-imagine
    the very foundation
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    of our institutions of opportunity
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    like education,
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    in ways that nurture the potential
    of every single individual;
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    therefore, expand our talent pool,
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    make us far more competitive in the world.
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    We can do this.
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    We know the formula.
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    And it's time we demand it.
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    Thank you.
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    (Applause)
Title:
The myth of average | Todd Rose | TEDxSonomaCounty
Description:

This talk was given at a TEDx event using the TED conference format but independently organized by a local community. Learn more at http://ted.com/tedx

High school dropout turned Harvard faculty talks about how a simple new way of thinking helps nurture individual potential.

L. Todd Rose is co-founder and president of Project Variability, an organization dedicated to providing leadership around the emerging new science of the individual and its implications for education, the workforce, and society. In addition, he is a faculty member at the Harvard Graduate School of Education, where he teaches Educational Neuroscience. Todd is also the author of Square Peg: My story and what it means for raising visionaries, innovators, and out-of-the-box thinkers.
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Video Language:
English
Team:
closed TED
Project:
TEDxTalks
Duration:
18:27

English subtitles

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