Why specializing early doesn't always mean career success

0:02 - 0:05

So, I'd like to talk about
the development of human potential,
0:05 - 0:10

and I'd like to start with maybe the most
impactful modern story of development.
0:10 - 0:14

Many of you here have probably heard
of the 10,000 hours rule.
0:14 - 0:16

Maybe you even model
your own life after it.
0:16 - 0:18

Basically, it's the idea
that to become great in anything,
0:18 - 0:21

it takes 10,000 hours
of focused practice,
0:21 - 0:24

so you'd better get started
as early as possible.
0:24 - 0:28

The poster child for this story
is Tiger Woods.
0:28 - 0:31

His father famously gave him a putter
when he was seven months old.
0:31 - 0:35

At 10 months, he started imitating
his father's swing.
0:35 - 0:38

At two, you can go on YouTube
and see him on national television.
0:38 - 0:40

Fast-forward to the age of 21,
0:40 - 0:42

he's the greatest golfer in the world.
0:42 - 0:44

Quintessential 10,000 hours story.
0:44 - 0:46

Another that features
in a number of bestselling books
0:46 - 0:48

is that of the three Polgar sisters,
0:48 - 0:51

whose father decided to teach them chess
in a very technical manner
0:51 - 0:52

from a very early age.
0:52 - 0:54

And, really, he wanted to show
0:54 - 0:56

that with a head start
in focused practice,
0:56 - 0:58

any child could become
a genius in anything.
0:58 - 1:00

And in fact,
1:00 - 1:03

two of his daughters went on to become
Grandmaster chess players.
1:03 - 1:06

So when I became the science writer
at "Sports Illustrated" magazine,
1:06 - 1:07

I got curious.
1:07 - 1:09

If this 10,000 hours rule is correct,
1:09 - 1:12

then we should see
that elite athletes get a head start
1:12 - 1:14

in so-called "deliberate practice."
1:14 - 1:16

This is coached,
error-correction-focused practice,
1:16 - 1:18

not just playing around.
1:18 - 1:20

And in fact, when scientists
study elite athletes,
1:20 - 1:23

they see that they spend more time
in deliberate practice --
1:23 - 1:24

not a big surprise.
1:24 - 1:28

When they actually track athletes
over the course of their development,
1:28 - 1:29

the pattern looks like this:
1:29 - 1:32

the future elites actually spend
less time early on
1:32 - 1:35

in deliberate practice
in their eventual sport.
1:35 - 1:38

They tend to have what scientists
call a "sampling period,"
1:38 - 1:40

where they try a variety
of physical activities,
1:40 - 1:42

they gain broad, general skills,
1:42 - 1:44

they learn about
their interests and abilities
1:44 - 1:48

and delay specializing until later
than peers who plateau at lower levels.
1:49 - 1:51

And so when I saw that, I said,
1:51 - 1:54

"Gosh, that doesn't really comport
with the 10,000 hours rule, does it?"
1:54 - 1:56

So I started to wonder about other domains
1:56 - 2:00

that we associate with obligatory,
early specialization,
2:00 - 2:01

like music.
2:01 - 2:03

Turns out the pattern's often similar.
2:03 - 2:05

This is research
from a world-class music academy,
2:05 - 2:08

and what I want to draw
your attention to is this:
2:08 - 2:12

the exceptional musicians didn't start
spending more time in deliberate practice
2:12 - 2:13

than the average musicians
2:13 - 2:14

until their third instrument.
2:14 - 2:16

They, too, tended to have
a sampling period,
2:16 - 2:19

even musicians we think of
as famously precocious,
2:19 - 2:20

like Yo-Yo Ma.
2:20 - 2:21

He had a sampling period,
2:21 - 2:24

he just went through it more rapidly
than most musicians do.
2:24 - 2:27

Nonetheless, this research
is almost entirely ignored,
2:27 - 2:29

and much more impactful
2:29 - 2:32

is the first page of the book
"Battle Hymn of the Tiger Mother,"
2:32 - 2:35

where the author recounts
assigning her daughter violin.
2:35 - 2:37

Nobody seems to remember
the part later in the book
2:37 - 2:40

where her daughter turns to her
and says, "You picked it, not me,"
2:40 - 2:42

and largely quits.
2:42 - 2:45

So having seen this sort of surprising
pattern in sports and music,
2:45 - 2:48

I started to wonder about domains
that affect even more people,
2:48 - 2:49

like education.
2:49 - 2:51

An economist found a natural experiment
2:51 - 2:53

in the higher-ed systems
of England and Scotland.
2:53 - 2:56

In the period he studied,
the systems were very similar,
2:56 - 2:59

except in England, students had
to specialize in their mid-teen years
2:59 - 3:01

to pick a specific course
of study to apply to,
3:01 - 3:05

whereas in Scotland, they could
keep trying things in the university
3:05 - 3:06

if they wanted to.
3:06 - 3:07

And his question was:
3:07 - 3:10

Who wins the trade-off,
the early or the late specializers?
3:10 - 3:13

And what he saw was that the early
specializers jump out to an income lead
3:13 - 3:16

because they have more
domain-specific skills.
3:16 - 3:18

The late specializers get to try
more different things,
3:18 - 3:20

and when they do pick,
they have better fit,
3:20 - 3:22

or what economists call "match quality."
3:22 - 3:25

And so their growth rates are faster.
3:25 - 3:26

By six years out,
3:26 - 3:28

they erase that income gap.
3:28 - 3:31

Meanwhile, the early specializers
start quitting their career tracks
3:31 - 3:32

in much higher numbers,
3:32 - 3:35

essentially because they were
made to choose so early
3:35 - 3:37

that they more often made poor choices.
3:37 - 3:39

So the late specializers
lose in the short term
3:39 - 3:40

and win in the long run.
3:40 - 3:43

I think if we thought about
career choice like dating,
3:43 - 3:46

we might not pressure people
to settle down quite so quickly.
3:46 - 3:48

So this got me interested,
seeing this pattern again,
3:48 - 3:52

in exploring the developmental backgrounds
of people whose work I had long admired,
3:52 - 3:55

like Duke Ellington, who shunned
music lessons as a kid
3:55 - 3:57

to focus on baseball
and painting and drawing.
3:57 - 4:00

Or Maryam Mirzakhani, who wasn't
interested in math as a girl --
4:00 - 4:02

dreamed of becoming a novelist --
4:02 - 4:04

and went on to become
the first and so far only woman
4:04 - 4:05

to win the Fields Medal,
4:05 - 4:08

the most prestigious prize
in the world in math.
4:08 - 4:10

Or Vincent Van Gogh
had five different careers,
4:10 - 4:13

each of which he deemed his true calling
before flaming out spectacularly,
4:13 - 4:18

and in his late 20s, picked up a book
called "The Guide to the ABCs of Drawing."
4:18 - 4:19

That worked out OK.
4:20 - 4:23

Claude Shannon was an electrical engineer
at the University of Michigan
4:23 - 4:26

who took a philosophy course
just to fulfill a requirement,
4:26 - 4:30

and in it, he learned about
a near-century-old system of logic
4:30 - 4:33

by which true and false statements
could be coded as ones and zeros
4:33 - 4:35

and solved like math problems.
4:35 - 4:37

This led to the development
of binary code,
4:37 - 4:40

which underlies all
of our digital computers today.
4:40 - 4:43

Finally, my own sort of role model,
Frances Hesselbein --
4:43 - 4:44

this is me with her --
4:44 - 4:47

she took her first professional
job at the age of 54
4:47 - 4:50

and went on to become
the CEO of the Girl Scouts,
4:50 - 4:51

which she saved.
4:51 - 4:53

She tripled minority membership,
4:53 - 4:55

added 130,000 volunteers,
4:55 - 4:59

and this is one of the proficiency badges
that came out of her tenure --
4:59 - 5:02

it's binary code for girls
learning about computers.
5:02 - 5:04

Today, Frances runs a leadership institute
5:04 - 5:06

where she works
every weekday, in Manhattan.
5:06 - 5:07

And she's only 104,
5:07 - 5:09

so who knows what's next.
5:09 - 5:10

(Laughter)
5:11 - 5:14

We never really hear developmental
stories like this, do we?
5:14 - 5:15

We don't hear about the research
5:15 - 5:18

that found that Nobel laureate scientists
are 22 times more likely
5:18 - 5:20

to have a hobby outside of work
5:20 - 5:21

as are typical scientists.
5:21 - 5:22

We never hear that.
5:22 - 5:25

Even when the performers
or the work is very famous,
5:25 - 5:27

we don't hear these
developmental stories.
5:27 - 5:29

For example, here's
an athlete I've followed.
5:29 - 5:31

Here he is at age six,
wearing a Scottish rugby kit.
5:31 - 5:34

He tried some tennis,
some skiing, wrestling.
5:34 - 5:37

His mother was actually a tennis coach
but she declined to coach him
5:37 - 5:39

because he wouldn't return balls normally.
5:39 - 5:41

He did some basketball,
table tennis, swimming.
5:41 - 5:43

When his coaches wanted
to move him up a level
5:44 - 5:45

to play with older boys,
5:45 - 5:48

he declined, because he just wanted
to talk about pro wrestling
5:48 - 5:49

after practice with his friends.
5:49 - 5:51

And he kept trying more sports:
5:51 - 5:54

handball, volleyball, soccer,
badminton, skateboarding ...
5:54 - 5:56

So, who is this dabbler?
5:57 - 5:59

This is Roger Federer.
5:59 - 6:02

Every bit as famous
as an adult as Tiger Woods,
6:02 - 6:05

and yet even tennis enthusiasts
don't usually know anything
6:05 - 6:07

about his developmental story.
6:07 - 6:09

Why is that, even though it's the norm?
6:09 - 6:12

I think it's partly because
the Tiger story is very dramatic,
6:12 - 6:15

but also because it seems like
this tidy narrative
6:15 - 6:18

that we can extrapolate to anything
that we want to be good at
6:18 - 6:19

in our own lives.
6:19 - 6:21

But that, I think, is a problem,
6:21 - 6:24

because it turns out that in many ways,
golf is a uniquely horrible model
6:24 - 6:27

of almost everything
that humans want to learn.
6:27 - 6:28

(Laughter)
6:28 - 6:29

Golf is the epitome of
6:29 - 6:33

what the psychologist Robin Hogarth
called a "kind learning environment."
6:33 - 6:36

Kind learning environments
have next steps and goals that are clear,
6:36 - 6:38

rules that are clear and never change,
6:38 - 6:41

when you do something, you get feedback
that is quick and accurate,
6:41 - 6:43

work next year will look like
work last year.
6:43 - 6:46

Chess: also a kind learning environment.
6:46 - 6:47

The grand master's advantage
6:47 - 6:50

is largely based on
knowledge of recurring patterns,
6:50 - 6:52

which is also why
it's so easy to automate.
6:52 - 6:55

On the other end of the spectrum
are "wicked learning environments,"
6:55 - 6:57

where next steps and goals
may not be clear.
6:57 - 6:59

Rules may change.
6:59 - 7:01

You may or may not get feedback
when you do something.
7:01 - 7:03

It may be delayed, it may be inaccurate,
7:03 - 7:06

and work next year
may not look like work last year.
7:06 - 7:10

So which one of these sounds like
the world we're increasingly living in?
7:10 - 7:13

In fact, our need to think
in an adaptable manner
7:13 - 7:15

and to keep track of interconnecting parts
7:15 - 7:17

has fundamentally changed our perception,
7:17 - 7:19

so that when you look at this diagram,
7:19 - 7:23

the central circle on the right
probably looks larger to you
7:23 - 7:24

because your brain is drawn to
7:24 - 7:26

the relationship
of the parts in the whole,
7:26 - 7:29

whereas someone who hasn't been
exposed to modern work
7:29 - 7:32

with its requirement for adaptable,
conceptual thought,
7:32 - 7:35

will see correctly that
the central circles are the same size.
7:35 - 7:38

So here we are in the wicked work world,
7:38 - 7:42

and there, sometimes
hyperspecialization can backfire badly.
7:42 - 7:44

For example, in research
in a dozen countries
7:44 - 7:47

that matched people
for their parents' years of education,
7:47 - 7:48

their test scores,
7:48 - 7:49

their own years of education,
7:50 - 7:52

the difference was
some got career-focused education
7:52 - 7:54

and some got broader, general education.
7:54 - 7:57

The pattern was those who got
the career-focused education
7:57 - 8:00

are more likely to be hired
right out of training,
8:00 - 8:02

more likely to make more money right away,
8:02 - 8:04

but so much less adaptable
in a changing work world
8:04 - 8:07

that they spend so much less time
in the workforce overall
8:07 - 8:10

that they win in the short term
and lose in the long run.
8:10 - 8:13

Or consider a famous,
20-year study of experts
8:13 - 8:16

making geopolitical
and economic predictions.
8:16 - 8:20

The worst forecasters
were the most specialized experts,
8:20 - 8:23

those who'd spent their entire careers
studying one or two problems
8:23 - 8:26

and came to see the whole world
through one lens or mental model.
8:26 - 8:28

Some of them actually got worse
8:28 - 8:30

as they accumulated
experience and credentials.
8:30 - 8:35

The best forecasters were simply
bright people with wide-ranging interests.
8:36 - 8:38

Now in some domains, like medicine,
8:38 - 8:41

increasing specialization has been
both inevitable and beneficial,
8:41 - 8:42

no question about it.
8:42 - 8:44

And yet, it's been a double-edged sword.
8:44 - 8:48

A few years ago, one of the most popular
surgeries in the world for knee pain
8:48 - 8:50

was tested in a placebo-controlled trial.
8:50 - 8:52

Some of the patients got "sham surgery."
8:52 - 8:54

That means the surgeons make an incision,
8:54 - 8:56

they bang around like
they're doing something,
8:56 - 8:58

then they sew the patient back up.
8:58 - 8:59

That performed just as a well.
8:59 - 9:02

And yet surgeons who specialize
in the procedure continue to do it
9:02 - 9:03

by the millions.
9:04 - 9:08

So if hyperspecialization isn't always
the trick in a wicked world, what is?
9:08 - 9:10

That can be difficult to talk about,
9:10 - 9:12

because it doesn't always
look like this path.
9:12 - 9:15

Sometimes it looks like
meandering or zigzagging
9:15 - 9:16

or keeping a broader view.
9:16 - 9:18

It can look like getting behind.
9:18 - 9:20

But I want to talk about what
some of those tricks might be.
9:20 - 9:24

If we look at research on technological
innovation, it shows that increasingly,
9:24 - 9:27

the most impactful patents
are not authored by individuals
9:27 - 9:30

who drill deeper, deeper, deeper
into one area of technology
9:30 - 9:32

as classified by the US Patent Office,
9:32 - 9:35

but rather by teams
that include individuals
9:35 - 9:38

who have worked across a large number
of different technology classes
9:38 - 9:40

and often merge things
from different domains.
9:40 - 9:44

Someone whose work I've admired
who was sort of on the forefront of this
9:44 - 9:46

is a Japanese man named Gunpei Yokoi.
9:46 - 9:48

Yokoi didn't score well
on his electronics exams at school,
9:48 - 9:52

so he had to settle for a low-tier job
as a machine maintenance worker
9:52 - 9:54

at a playing card company in Kyoto.
9:54 - 9:57

He realized he wasn't equipped
to work on the cutting edge,
9:57 - 10:00

but that there was so much
information easily available
10:00 - 10:03

that maybe he could combine things
that were already well-known
10:03 - 10:05

in ways that specialists
were too narrow to see.
10:05 - 10:09

So he combined some well-known technology
from the calculator industry
10:09 - 10:12

with some well-known technology
from the credit card industry
10:12 - 10:13

and made handheld games.
10:13 - 10:14

And they were a hit.
10:14 - 10:17

And it turned this playing card company,
10:17 - 10:20

which was founded in a wooden
storefront in the 19th century,
10:20 - 10:22

into a toy and game operation.
10:22 - 10:24

You may have heard of it;
it's called Nintendo.
10:24 - 10:26

Yokoi's creative philosophy
10:26 - 10:29

translated to "lateral thinking
with withered technology,"
10:29 - 10:32

taking well-known technology
and using it in new ways.
10:32 - 10:34

And his magnum opus was this:
10:34 - 10:35

the Game Boy.
10:35 - 10:37

Technological joke in every way.
10:37 - 10:41

And it came out at the same time
as color competitors from Saga and Atari,
10:41 - 10:43

and it blew them away,
10:43 - 10:46

because Yokoi knew
what his customers cared about
10:46 - 10:47

wasn't color.
10:47 - 10:51

It was durability, portability,
affordability, battery life,
10:51 - 10:52

game selection.
10:52 - 10:55

This is mine that I found
in my parents' basement.
10:55 - 10:56

(Laughter)
10:56 - 10:57

It's seen better days.
10:57 - 10:59

But you can see the red light is on.
10:59 - 11:01

I flipped it on and played some Tetris,
11:01 - 11:03

which I thought was especially impressive
11:03 - 11:06

because the batteries had expired
in 2007 and 2013.
11:06 - 11:07

(Laughter)
11:07 - 11:11

So this breadth advantage holds
in more subjective realms as well.
11:11 - 11:15

In a fascinating study of what leads
some comic book creators
11:15 - 11:17

to be more likely to make
blockbuster comics,
11:17 - 11:19

a pair of researchers found
11:19 - 11:22

that it was neither the number of years
of experience in the field
11:22 - 11:25

nor the resources of the publisher
11:25 - 11:27

nor the number of previous comics made.
11:27 - 11:32

It was the number of different genres
that a creator had worked across.
11:32 - 11:33

And interestingly,
11:33 - 11:37

a broad individual
could not be entirely replaced
11:37 - 11:39

by a team of specialists.
11:39 - 11:42

We probably don't make as many
of those people as we could
11:42 - 11:45

because early on,
they just look like they're behind
11:45 - 11:49

and we don't tend to incentivize anything
that doesn't look like a head start
11:49 - 11:50

or specialization.
11:50 - 11:53

In fact, I think in the well-meaning
drive for a head start,
11:53 - 11:56

we often even counterproductively
short-circuit even the way
11:56 - 11:57

we learn new material,
11:57 - 11:59

at a fundamental level.
11:59 - 12:02

In a study last year,
seventh-grade math classrooms in the US
12:02 - 12:05

were randomly assigned
to different types of learning.
12:05 - 12:08

Some got what's called "blocked practice."
12:08 - 12:10

That's like, you get problem type A,
12:10 - 12:13

AAAAA, BBBBB, and so on.
12:13 - 12:14

Progress is fast,
12:14 - 12:15

kids are happy,
12:15 - 12:16

everything's great.
12:16 - 12:20

Other classrooms got assigned
to what's called "interleaved practice."
12:21 - 12:24

That's like if you took all the problem
types and threw them in a hat
12:24 - 12:25

and drew them out at random.
12:25 - 12:28

Progress is slower,
kids are more frustrated.
12:28 - 12:31

But instead of learning
how to execute procedures,
12:31 - 12:35

they're learning how to match
a strategy to a type of problem.
12:35 - 12:36

And when the test comes around,
12:36 - 12:40

the interleaved group blew
the block practice group away.
12:40 - 12:41

It wasn't even close.
12:42 - 12:45

Now, I found a lot of this research
deeply counterintuitive,
12:45 - 12:47

the idea that a head start,
12:47 - 12:49

whether in picking a career
or a course of study
12:49 - 12:51

or just in learning new material,
12:51 - 12:53

can sometimes undermine
long-term development.
12:54 - 12:56

And naturally, I think there are
as many ways to succeed
12:56 - 12:58

as there are people.
12:58 - 13:02

But I think we tend only to incentivize
and encourage the Tiger path,
13:02 - 13:04

when increasingly, in a wicked world,
13:04 - 13:07

we need people who travel
the Roger path as well.
13:07 - 13:09

Or as the eminent physicist
and mathematician
13:09 - 13:13

and wonderful writer,
Freeman Dyson, put it --
13:13 - 13:16

and Dyson passed away yesterday,
13:16 - 13:18

so I hope I'm doing
his words honor here --
13:18 - 13:23

as he said: for a healthy ecosystem,
we need both birds and frogs.
13:23 - 13:24

Frogs are down in the mud,
13:24 - 13:26

seeing all the granular details.
13:26 - 13:29

The birds are soaring up above
not seeing those details
13:29 - 13:31

but integrating
the knowledge of the frogs.
13:31 - 13:32

And we need both.
13:33 - 13:34

The problem, Dyson said,
13:34 - 13:37

is that we're telling everyone
to become frogs.
13:37 - 13:38

And I think,
13:38 - 13:40

in a wicked world,
13:40 - 13:42

that's increasingly shortsighted.
13:42 - 13:43

Thank you very much.
13:43 - 13:46

(Applause)

Title:: Why specializing early doesn't always mean career success
Speaker:: David Epstein
Description:: A head start doesn't always ... well, help you get ahead. With examples from sports, technology and economics, journalist David Epstein shares how specializing in a particular skill too early in life could undermine your long-term development -- and explains the benefits of a "sampling period" where you try new things and focus on building a range of skills. Learn how this broader, counterintuitive mindset (and more forgiving timeline) could lead to a more fulfilling life, personally and professionally.

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Video Language:: English
Team:: closed TED
Project:: TEDTalks
Duration:: 14:00

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