Reading:
http://www.newsweek.com/2010/07/10/the-creativity-crisis.print.html 8/16/10 1:36 PM
Page 1 of 7
The Creativity Crisis
For the first time, research shows that American creativity is declining.
What went wrong—and how we can fix it.
by Po Bronson (/authors/po-bronson.html) and Ashley Merryman (/authors/ashley-merryman.html) July
10, 2010
(/photo/2010/07/10/creativity-test.html)
Experts assess 10 drawings by adults and children for signs of out-of-the-box thinking. View
gallery.
How Creative Are You? (/photo/2010/07/10/creativity-test.html)
Back in 1958, Ted Schwarzrock was an 8-year-old third grader when he became one of the
“Torrance kids,” a group of nearly 400 Minneapolis children who completed a series of creativity
tasks newly designed by professor E. Paul Torrance. Schwarzrock still vividly remembers the
moment when a psychologist handed him a fire truck and asked, “How could you improve this toy
to make it better and more fun to play with?” He recalls the psychologist being excited by his
answers. In fact, the psychologist’s session notes indicate Schwarzrock rattled off 25
improvements, such as adding a removable ladder and springs to the wheels. That wasn’t the only
time he impressed the scholars, who judged Schwarzrock to have “unusual visual perspective” and
“an ability to synthesize diverse elements into meaningful products.”
The accepted definition of creativity is production of something original and useful, and that’s
what’s reflected in the tests. There is never one right answer. To be creative requires divergent
thinking (generating many unique ideas) and then convergent thinking (combining those ideas into
the best result).
http://www.newsweek.com/2010/07/10/the-creativity-crisis.print.html 8/16/10 1:36 PM
Page 2 of 7
In the 50 years since Schwarzrock and the others took their tests, scholars—first led by Torrance,
now his colleague, Garnet Millar—have been tracking the children, recording every patent earned,
every business founded, every research paper published, and every grant awarded. They tallied
the books, dances, radio shows, art exhibitions, software programs, advertising campaigns,
hardware innovations, music compositions, public policies (written or implemented), leadership
positions, invited lectures, and buildings designed.
Related Article: Forget Brainstorming » (/2010/07/12/forget-brainstorming.html)
Nobody would argue that Torrance’s tasks, which have become the gold standard in creativity
assessment, measure creativity perfectly. What’s shocking is how incredibly well Torrance’s
creativity index predicted those kids’ creative accomplishments as adults. Those who came up with
more good ideas on Torrance’s tasks grew up to be entrepreneurs, inventors, college presidents,
authors, doctors, diplomats, and software developers. Jonathan Plucker of Indiana University
recently reanalyzed Torrance’s data. The correlation to lifetime creative accomplishment was more
than three times stronger for childhood creativity than childhood IQ.
Like intelligence tests, Torrance’s test—a 90-minute series of discrete tasks, administered by a
psychologist—has been taken by millions worldwide in 50 languages. Yet there is one crucial
difference between IQ and CQ scores. With intelligence, there is a phenomenon called the Flynn
effect—each generation, scores go up about 10 points. Enriched environments are making kids
smarter. With creativity, a reverse trend has just been identified and is being reported for the first
time here: American creativity scores are falling.
Kyung Hee Kim at the College of William & Mary discovered this in May, after analyzing almost
300,000 Torrance scores of children and adults. Kim found creativity scores had been steadily
rising, just like IQ scores, until 1990. Since then, creativity scores have consistently inched
downward. “It’s very clear, and the decrease is very significant,” Kim says. It is the scores of
younger children in America—from kindergarten through sixth grade—for whom the decline is
“most serious.”
Weekly Podcast and Radio Program 7/10/10: Obamanomics, Immigration, Spy Games; Keys to
Creativity; Israel and Iran; The Karen Oberlin Loesser Show; Movie Review: Inception; From the
Archives: McNamara's Mistake. SUBSCRIBE OR DOWNLOAD PODCAST:
http://itunes.apple.com/us/podcast/newsweek-on-air/id73329823
The potential consequences are sweeping. The necessity of human ingenuity is undisputed. A
recent IBM poll of 1,500 CEOs identified creativity as the No. 1 “leadership competency” of the
http://www.newsweek.com/2010/07/10/the-creativity-crisis.print.html 8/16/10 1:36 PM
Page 3 of 7
future. Yet it’s not just about sustaining our nation’s economic growth. All around us are matters of
national and international importance that are crying out for creative solutions, from saving the Gulf
of Mexico to bringing peace to Afghanistan to delivering health care. Such solutions emerge from a
healthy marketplace of ideas, sustained by a populace constantly contributing original ideas and
receptive to the ideas of others.
It’s too early to determine conclusively why U.S. creativity scores are declining. One likely culprit is
the number of hours kids now spend in front of the TV and playing videogames rather than
engaging in creative activities. Another is the lack of creativity development in our schools. In
effect, it’s left to the luck of the draw who becomes creative: there’s no concerted effort to nurture
the creativity of all children.
Around the world, though, other countries are making creativity development a national priority. In
2008 British secondary-school curricula—from science to foreign language—was revamped to
emphasize idea generation, and pilot programs have begun using Torrance’s test to assess their
progress. The European Union designated 2009 as the European Year of Creativity and
Innovation, holding conferences on the neuroscience of creativity, financing teacher training, and
instituting problem-based learning programs—curricula driven by real-world inquiry—for both
children and adults. In China there has been widespread education reform to extinguish the drilland-
kill teaching style. Instead, Chinese schools are also adopting a problem-based learning
approach.
Plucker recently toured a number of such schools in Shanghai and Beijing. He was amazed by a
boy who, for a class science project, rigged a tracking device for his moped with parts from a cell
phone. When faculty of a major Chinese university asked Plucker to identify trends in American
education, he described our focus on standardized curriculum, rote memorization, and nationalized
testing. “After my answer was translated, they just started laughing out loud,” Plucker says. “They
said, ‘You’re racing toward our old model. But we’re racing toward your model, as fast as we can.’ ”
Overwhelmed by curriculum standards, American teachers warn there’s no room in the day for a
creativity class. Kids are fortunate if they get an art class once or twice a week. But to scientists,
this is a non sequitur, borne out of what University of Georgia’s Mark Runco calls “art bias.” The
age-old belief that the arts have a special claim to creativity is unfounded. When scholars gave
creativity tasks to both engineering majors and music majors, their scores laid down on an identical
spectrum, with the same high averages and standard deviations. Inside their brains, the same
thing was happening—ideas were being generated and evaluated on the fly.
Researchers say creativity should be taken out of the art room and put into homeroom. The
argument that we can’t teach creativity because kids already have too much to learn is a false
trade-off. Creativity isn’t about freedom from concrete facts. Rather, fact-finding and deep research
are vital stages in the creative process. Scholars argue that current curriculum standards can still
be met, if taught in a different way.
To understand exactly what should be done requires first understanding the new story emerging
from neuroscience. The lore of pop psychology is that creativity occurs on the right side of the
brain. But we now know that if you tried to be creative using only the right side of your brain, it’d be
like living with ideas perpetually at the tip of your tongue, just beyond reach.
http://www.newsweek.com/2010/07/10/the-creativity-crisis.print.html 8/16/10 1:36 PM
Page 4 of 7
When you try to solve a problem, you begin by concentrating on obvious facts and familiar
solutions, to see if the answer lies there. This is a mostly left-brain stage of attack. If the answer
doesn’t come, the right and left hemispheres of the brain activate together. Neural networks on the
right side scan remote memories that could be vaguely relevant. A wide range of distant
information that is normally tuned out becomes available to the left hemisphere, which searches for
unseen patterns, alternative meanings, and high-level abstractions.
Having glimpsed such a connection, the left brain must quickly lock in on it before it escapes. The
attention system must radically reverse gears, going from defocused attention to extremely focused
attention. In a flash, the brain pulls together these disparate shreds of thought and binds them into
a new single idea that enters consciousness. This is the “aha!” moment of insight, often followed by
a spark of pleasure as the brain recognizes the novelty of what it’s come up with.
Now the brain must evaluate the idea it just generated. Is it worth pursuing? Creativity requires
constant shifting, blender pulses of both divergent thinking and convergent thinking, to combine
new information with old and forgotten ideas. Highly creative people are very good at marshaling
their brains into bilateral mode, and the more creative they are, the more they dual-activate.
Is this learnable? Well, think of it like basketball. Being tall does help to be a pro basketball player,
but the rest of us can still get quite good at the sport through practice. In the same way, there are
certain innate features of the brain that make some people naturally prone to divergent thinking.
But convergent thinking and focused attention are necessary, too, and those require different
neural gifts. Crucially, rapidly shifting between these modes is a top-down function under your
mental control. University of New Mexico neuroscientist Rex Jung has concluded that those who
diligently practice creative activities learn to recruit their brains’ creative networks quicker and
better. A lifetime of consistent habits gradually changes the neurological pattern.
A fine example of this emerged in January of this year, with release of a study by University of
Western Ontario neuroscientist Daniel Ansari and Harvard’s Aaron Berkowitz, who studies music
cognition. They put Dartmouth music majors and nonmusicians in an fMRI scanner, giving
participants a one-handed fiber-optic keyboard to play melodies on. Sometimes melodies were
rehearsed; other times they were creatively improvised. During improvisation, the highly trained
music majors used their brains in a way the nonmusicians could not: they deactivated their righttemporoparietal
junction. Normally, the r-TPJ reads incoming stimuli, sorting the stream for
relevance. By turning that off, the musicians blocked out all distraction. They hit an extra gear of
concentration, allowing them to work with the notes and create music spontaneously.
Charles Limb of Johns Hopkins has found a similar pattern with jazz musicians, and Austrian
researchers observed it with professional dancers visualizing an improvised dance. Ansari and
Berkowitz now believe the same is true for orators, comedians, and athletes improvising in games.
The good news is that creativity training that aligns with the new science works surprisingly well.
The University of Oklahoma, the University of Georgia, and Taiwan’s National Chengchi University
each independently conducted a large-scale analysis of such programs. All three teams of scholars
concluded that creativity training can have a strong effect. “Creativity can be taught,” says James
C. Kaufman, professor at California State University, San Bernardino.
http://www.newsweek.com/2010/07/10/the-creativity-crisis.print.html 8/16/10 1:36 PM
Page 5 of 7
What’s common about successful programs is they alternate maximum divergent thinking with
bouts of intense convergent thinking, through several stages. Real improvement doesn’t happen in
a weekend workshop. But when applied to the everyday process of work or school, brain function
improves.
So what does this mean for America’s standards-obsessed schools? The key is in how kids work
through the vast catalog of information. Consider the National Inventors Hall of Fame School, a
new public middle school in Akron, Ohio. Mindful of Ohio’s curriculum requirements, the school’s
teachers came up with a project for the fifth graders: figure out how to reduce the noise in the
library. Its windows faced a public space and, even when closed, let through too much noise. The
students had four weeks to design proposals.
Working in small teams, the fifth graders first engaged in what creativity theorist Donald Treffinger
describes as fact-finding. How does sound travel through materials? What materials reduce noise
the most? Then, problem-finding—anticipating all potential pitfalls so their designs are more likely
to work. Next, idea-finding: generate as many ideas as possible. Drapes, plants, or large kites
hung from the ceiling would all baffle sound. Or, instead of reducing the sound, maybe mask it by
playing the sound of a gentle waterfall? A proposal for double-paned glass evolved into an idea to
fill the space between panes with water. Next, solution-finding: which ideas were the most
effective, cheapest, and aesthetically pleasing? Fiberglass absorbed sound the best but wouldn’t
be safe. Would an aquarium with fish be easier than water-filled panes?
Then teams developed a plan of action. They built scale models and chose fabric samples. They
realized they’d need to persuade a janitor to care for the plants and fish during vacation. Teams
persuaded others to support them—sometimes so well, teams decided to combine projects.
Finally, they presented designs to teachers, parents, and Jim West, inventor of the electric
microphone.
Along the way, kids demonstrated the very definition of creativity: alternating between divergent
and convergent thinking, they arrived at original and useful ideas. And they’d unwittingly mastered
Ohio’s required fifth-grade curriculum—from understanding sound waves to per-unit cost
calculations to the art of persuasive writing. “You never see our kids saying, ‘I’ll never use this so I
don’t need to learn it,’ ” says school administrator Maryann Wolowiec. “Instead, kids ask, ‘Do we
have to leave school now?’ ” Two weeks ago, when the school received its results on the state’s
achievement test, principal Traci Buckner was moved to tears. The raw scores indicate that, in its
first year, the school has already become one of the top three schools in Akron, despite having
open enrollment by lottery and 42 percent of its students living in poverty.
With as much as three fourths of each day spent in project-based learning, principal Buckner and
her team actually work through required curricula, carefully figuring out how kids can learn it
through the steps of Treffinger’s Creative Problem-Solving method and other creativity
pedagogies. “The creative problem-solving program has the highest success in increasing
children’s creativity,” observed William & Mary’s Kim.
The home-game version of this means no longer encouraging kids to spring straight ahead to the
right answer. When UGA’s Runco was driving through California one day with his family, his son
http://www.newsweek.com/2010/07/10/the-creativity-crisis.print.html 8/16/10 1:36 PM
Page 6 of 7
asked why Sacramento was the state’s capital—why not San Francisco or Los Angeles? Runco
turned the question back on him, encouraging him to come up with as many explanations as he
could think of.
Preschool children, on average, ask their parents about 100 questions a day. Why, why, why—
sometimes parents just wish it’d stop. Tragically, it does stop. By middle school they’ve pretty much
stopped asking. It’s no coincidence that this same time is when student motivation and engagement
plummet. They didn’t stop asking questions because they lost interest: it’s the other way around.
They lost interest because they stopped asking questions.
Having studied the childhoods of highly creative people for decades, Claremont Graduate
University’s Mihaly Csikszentmihalyi and University of Northern Iowa’s Gary G. Gute found highly
creative adults tended to grow up in families embodying opposites. Parents encouraged
uniqueness, yet provided stability. They were highly responsive to kids’ needs, yet challenged kids
to develop skills. This resulted in a sort of adaptability: in times of anxiousness, clear rules could
reduce chaos—yet when kids were bored, they could seek change, too. In the space between
anxiety and boredom was where creativity flourished.
It’s also true that highly creative adults frequently grew up with hardship. Hardship by itself doesn’t
lead to creativity, but it does force kids to become more flexible—and flexibility helps with creativity.
In early childhood, distinct types of free play are associated with high creativity. Preschoolers who
spend more time in role-play (acting out characters) have higher measures of creativity: voicing
someone else’s point of view helps develop their ability to analyze situations from different
perspectives. When playing alone, highly creative first graders may act out strong negative
emotions: they’ll be angry, hostile, anguished. The hypothesis is that play is a safe harbor to work
through forbidden thoughts and emotions.
In middle childhood, kids sometimes create paracosms—fantasies of entire alternative worlds. Kids
revisit their paracosms repeatedly, sometimes for months, and even create languages spoken
there. This type of play peaks at age 9 or 10, and it’s a very strong sign of future creativity. A
Michigan State University study of MacArthur “genius award” winners found a remarkably high rate
of paracosm creation in their childhoods.
From fourth grade on, creativity no longer occurs in a vacuum; researching and studying become
an integral part of coming up with useful solutions. But this transition isn’t easy. As school stuffs
more complex information into their heads, kids get overloaded, and creativity suffers. When
creative children have a supportive teacher—someone tolerant of unconventional answers,
occasional disruptions, or detours of curiosity—they tend to excel. When they don’t, they tend to
underperform and drop out of high school or don’t finish college at high rates.
They’re quitting because they’re discouraged and bored, not because they’re dark, depressed,
anxious, or neurotic. It’s a myth that creative people have these traits. (Those traits actually shut
down creativity; they make people less open to experience and less interested in novelty.) Rather,
creative people, for the most part, exhibit active moods and positive affect. They’re not particularly
happy—contentment is a kind of complacency creative people rarely have. But they’re engaged,
motivated, and open to the world.
http://www.newsweek.com/2010/07/10/the-creativity-crisis.print.html 8/16/10 1:36 PM
Page 7 of 7
The new view is that creativity is part of normal brain function. Some scholars go further, arguing
that lack of creativity—not having loads of it—is the real risk factor. In his research, Runco asks
college students, “Think of all the things that could interfere with graduating from college.” Then he
instructs them to pick one of those items and to come up with as many solutions for that problem
as possible. This is a classic divergent-convergent creativity challenge. A subset of respondents,
like the proverbial Murphy, quickly list every imaginable way things can go wrong. But they
demonstrate a complete lack of flexibility in finding creative solutions. It’s this inability to conceive
of alternative approaches that leads to despair. Runco’s two questions predict suicide ideation—
even when controlling for preexisting levels of depression and anxiety.
In Runco’s subsequent research, those who do better in both problem-finding and problem-solving
have better relationships. They are more able to handle stress and overcome the bumps life throws
in their way. A similar study of 1,500 middle schoolers found that those high in creative selfefficacy
had more confidence about their future and ability to succeed. They were sure that their
ability to come up with alternatives would aid them, no matter what problems would arise.
When he was 30 years old, Ted Schwarzrock was looking for an alternative. He was hardly on track
to becoming the prototype of Torrance’s longitudinal study. He wasn’t artistic when young, and his
family didn’t recognize his creativity or nurture it. The son of a dentist and a speech pathologist, he
had been pushed into medical school, where he felt stifled and commonly had run-ins with
professors and bosses. But eventually, he found a way to combine his creativity and medical
expertise: inventing new medical technologies.
Today, Schwarzrock is independently wealthy—he founded and sold three medical-products
companies and was a partner in three more. His innovations in health care have been wide
ranging, from a portable respiratory oxygen device to skin-absorbing anti-inflammatories to insights
into how bacteria become antibiotic-resistant. His latest project could bring down the cost of spinesurgery
implants 50 percent. “As a child, I never had an identity as a ‘creative person,’ ”
Schwarzrock recalls. “But now that I know, it helps explain a lot of what I felt and went through.”
Creativity has always been prized in American society, but it’s never really been understood. While
our creativity scores decline unchecked, the current national strategy for creativity consists of little
more than praying for a Greek muse to drop by our houses. The problems we face now, and in the
future, simply demand that we do more than just hope for inspiration to strike. Fortunately, the
science can help: we know the steps to lead that elusive muse right to our doors.
http://www.newsweek.com/2010/07/10/the-creativity-crisis.print.html 8/16/10 1:36 PM
Page 1 of 7
The Creativity Crisis
For the first time, research shows that American creativity is declining.
What went wrong—and how we can fix it.
by Po Bronson (/authors/po-bronson.html) and Ashley Merryman (/authors/ashley-merryman.html) July
10, 2010
(/photo/2010/07/10/creativity-test.html)
Experts assess 10 drawings by adults and children for signs of out-of-the-box thinking. View
gallery.
How Creative Are You? (/photo/2010/07/10/creativity-test.html)
Back in 1958, Ted Schwarzrock was an 8-year-old third grader when he became one of the
“Torrance kids,” a group of nearly 400 Minneapolis children who completed a series of creativity
tasks newly designed by professor E. Paul Torrance. Schwarzrock still vividly remembers the
moment when a psychologist handed him a fire truck and asked, “How could you improve this toy
to make it better and more fun to play with?” He recalls the psychologist being excited by his
answers. In fact, the psychologist’s session notes indicate Schwarzrock rattled off 25
improvements, such as adding a removable ladder and springs to the wheels. That wasn’t the only
time he impressed the scholars, who judged Schwarzrock to have “unusual visual perspective” and
“an ability to synthesize diverse elements into meaningful products.”
The accepted definition of creativity is production of something original and useful, and that’s
what’s reflected in the tests. There is never one right answer. To be creative requires divergent
thinking (generating many unique ideas) and then convergent thinking (combining those ideas into
the best result).
http://www.newsweek.com/2010/07/10/the-creativity-crisis.print.html 8/16/10 1:36 PM
Page 2 of 7
In the 50 years since Schwarzrock and the others took their tests, scholars—first led by Torrance,
now his colleague, Garnet Millar—have been tracking the children, recording every patent earned,
every business founded, every research paper published, and every grant awarded. They tallied
the books, dances, radio shows, art exhibitions, software programs, advertising campaigns,
hardware innovations, music compositions, public policies (written or implemented), leadership
positions, invited lectures, and buildings designed.
Related Article: Forget Brainstorming » (/2010/07/12/forget-brainstorming.html)
Nobody would argue that Torrance’s tasks, which have become the gold standard in creativity
assessment, measure creativity perfectly. What’s shocking is how incredibly well Torrance’s
creativity index predicted those kids’ creative accomplishments as adults. Those who came up with
more good ideas on Torrance’s tasks grew up to be entrepreneurs, inventors, college presidents,
authors, doctors, diplomats, and software developers. Jonathan Plucker of Indiana University
recently reanalyzed Torrance’s data. The correlation to lifetime creative accomplishment was more
than three times stronger for childhood creativity than childhood IQ.
Like intelligence tests, Torrance’s test—a 90-minute series of discrete tasks, administered by a
psychologist—has been taken by millions worldwide in 50 languages. Yet there is one crucial
difference between IQ and CQ scores. With intelligence, there is a phenomenon called the Flynn
effect—each generation, scores go up about 10 points. Enriched environments are making kids
smarter. With creativity, a reverse trend has just been identified and is being reported for the first
time here: American creativity scores are falling.
Kyung Hee Kim at the College of William & Mary discovered this in May, after analyzing almost
300,000 Torrance scores of children and adults. Kim found creativity scores had been steadily
rising, just like IQ scores, until 1990. Since then, creativity scores have consistently inched
downward. “It’s very clear, and the decrease is very significant,” Kim says. It is the scores of
younger children in America—from kindergarten through sixth grade—for whom the decline is
“most serious.”
Weekly Podcast and Radio Program 7/10/10: Obamanomics, Immigration, Spy Games; Keys to
Creativity; Israel and Iran; The Karen Oberlin Loesser Show; Movie Review: Inception; From the
Archives: McNamara's Mistake. SUBSCRIBE OR DOWNLOAD PODCAST:
http://itunes.apple.com/us/podcast/newsweek-on-air/id73329823
The potential consequences are sweeping. The necessity of human ingenuity is undisputed. A
recent IBM poll of 1,500 CEOs identified creativity as the No. 1 “leadership competency” of the
http://www.newsweek.com/2010/07/10/the-creativity-crisis.print.html 8/16/10 1:36 PM
Page 3 of 7
future. Yet it’s not just about sustaining our nation’s economic growth. All around us are matters of
national and international importance that are crying out for creative solutions, from saving the Gulf
of Mexico to bringing peace to Afghanistan to delivering health care. Such solutions emerge from a
healthy marketplace of ideas, sustained by a populace constantly contributing original ideas and
receptive to the ideas of others.
It’s too early to determine conclusively why U.S. creativity scores are declining. One likely culprit is
the number of hours kids now spend in front of the TV and playing videogames rather than
engaging in creative activities. Another is the lack of creativity development in our schools. In
effect, it’s left to the luck of the draw who becomes creative: there’s no concerted effort to nurture
the creativity of all children.
Around the world, though, other countries are making creativity development a national priority. In
2008 British secondary-school curricula—from science to foreign language—was revamped to
emphasize idea generation, and pilot programs have begun using Torrance’s test to assess their
progress. The European Union designated 2009 as the European Year of Creativity and
Innovation, holding conferences on the neuroscience of creativity, financing teacher training, and
instituting problem-based learning programs—curricula driven by real-world inquiry—for both
children and adults. In China there has been widespread education reform to extinguish the drilland-
kill teaching style. Instead, Chinese schools are also adopting a problem-based learning
approach.
Plucker recently toured a number of such schools in Shanghai and Beijing. He was amazed by a
boy who, for a class science project, rigged a tracking device for his moped with parts from a cell
phone. When faculty of a major Chinese university asked Plucker to identify trends in American
education, he described our focus on standardized curriculum, rote memorization, and nationalized
testing. “After my answer was translated, they just started laughing out loud,” Plucker says. “They
said, ‘You’re racing toward our old model. But we’re racing toward your model, as fast as we can.’ ”
Overwhelmed by curriculum standards, American teachers warn there’s no room in the day for a
creativity class. Kids are fortunate if they get an art class once or twice a week. But to scientists,
this is a non sequitur, borne out of what University of Georgia’s Mark Runco calls “art bias.” The
age-old belief that the arts have a special claim to creativity is unfounded. When scholars gave
creativity tasks to both engineering majors and music majors, their scores laid down on an identical
spectrum, with the same high averages and standard deviations. Inside their brains, the same
thing was happening—ideas were being generated and evaluated on the fly.
Researchers say creativity should be taken out of the art room and put into homeroom. The
argument that we can’t teach creativity because kids already have too much to learn is a false
trade-off. Creativity isn’t about freedom from concrete facts. Rather, fact-finding and deep research
are vital stages in the creative process. Scholars argue that current curriculum standards can still
be met, if taught in a different way.
To understand exactly what should be done requires first understanding the new story emerging
from neuroscience. The lore of pop psychology is that creativity occurs on the right side of the
brain. But we now know that if you tried to be creative using only the right side of your brain, it’d be
like living with ideas perpetually at the tip of your tongue, just beyond reach.
http://www.newsweek.com/2010/07/10/the-creativity-crisis.print.html 8/16/10 1:36 PM
Page 4 of 7
When you try to solve a problem, you begin by concentrating on obvious facts and familiar
solutions, to see if the answer lies there. This is a mostly left-brain stage of attack. If the answer
doesn’t come, the right and left hemispheres of the brain activate together. Neural networks on the
right side scan remote memories that could be vaguely relevant. A wide range of distant
information that is normally tuned out becomes available to the left hemisphere, which searches for
unseen patterns, alternative meanings, and high-level abstractions.
Having glimpsed such a connection, the left brain must quickly lock in on it before it escapes. The
attention system must radically reverse gears, going from defocused attention to extremely focused
attention. In a flash, the brain pulls together these disparate shreds of thought and binds them into
a new single idea that enters consciousness. This is the “aha!” moment of insight, often followed by
a spark of pleasure as the brain recognizes the novelty of what it’s come up with.
Now the brain must evaluate the idea it just generated. Is it worth pursuing? Creativity requires
constant shifting, blender pulses of both divergent thinking and convergent thinking, to combine
new information with old and forgotten ideas. Highly creative people are very good at marshaling
their brains into bilateral mode, and the more creative they are, the more they dual-activate.
Is this learnable? Well, think of it like basketball. Being tall does help to be a pro basketball player,
but the rest of us can still get quite good at the sport through practice. In the same way, there are
certain innate features of the brain that make some people naturally prone to divergent thinking.
But convergent thinking and focused attention are necessary, too, and those require different
neural gifts. Crucially, rapidly shifting between these modes is a top-down function under your
mental control. University of New Mexico neuroscientist Rex Jung has concluded that those who
diligently practice creative activities learn to recruit their brains’ creative networks quicker and
better. A lifetime of consistent habits gradually changes the neurological pattern.
A fine example of this emerged in January of this year, with release of a study by University of
Western Ontario neuroscientist Daniel Ansari and Harvard’s Aaron Berkowitz, who studies music
cognition. They put Dartmouth music majors and nonmusicians in an fMRI scanner, giving
participants a one-handed fiber-optic keyboard to play melodies on. Sometimes melodies were
rehearsed; other times they were creatively improvised. During improvisation, the highly trained
music majors used their brains in a way the nonmusicians could not: they deactivated their righttemporoparietal
junction. Normally, the r-TPJ reads incoming stimuli, sorting the stream for
relevance. By turning that off, the musicians blocked out all distraction. They hit an extra gear of
concentration, allowing them to work with the notes and create music spontaneously.
Charles Limb of Johns Hopkins has found a similar pattern with jazz musicians, and Austrian
researchers observed it with professional dancers visualizing an improvised dance. Ansari and
Berkowitz now believe the same is true for orators, comedians, and athletes improvising in games.
The good news is that creativity training that aligns with the new science works surprisingly well.
The University of Oklahoma, the University of Georgia, and Taiwan’s National Chengchi University
each independently conducted a large-scale analysis of such programs. All three teams of scholars
concluded that creativity training can have a strong effect. “Creativity can be taught,” says James
C. Kaufman, professor at California State University, San Bernardino.
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What’s common about successful programs is they alternate maximum divergent thinking with
bouts of intense convergent thinking, through several stages. Real improvement doesn’t happen in
a weekend workshop. But when applied to the everyday process of work or school, brain function
improves.
So what does this mean for America’s standards-obsessed schools? The key is in how kids work
through the vast catalog of information. Consider the National Inventors Hall of Fame School, a
new public middle school in Akron, Ohio. Mindful of Ohio’s curriculum requirements, the school’s
teachers came up with a project for the fifth graders: figure out how to reduce the noise in the
library. Its windows faced a public space and, even when closed, let through too much noise. The
students had four weeks to design proposals.
Working in small teams, the fifth graders first engaged in what creativity theorist Donald Treffinger
describes as fact-finding. How does sound travel through materials? What materials reduce noise
the most? Then, problem-finding—anticipating all potential pitfalls so their designs are more likely
to work. Next, idea-finding: generate as many ideas as possible. Drapes, plants, or large kites
hung from the ceiling would all baffle sound. Or, instead of reducing the sound, maybe mask it by
playing the sound of a gentle waterfall? A proposal for double-paned glass evolved into an idea to
fill the space between panes with water. Next, solution-finding: which ideas were the most
effective, cheapest, and aesthetically pleasing? Fiberglass absorbed sound the best but wouldn’t
be safe. Would an aquarium with fish be easier than water-filled panes?
Then teams developed a plan of action. They built scale models and chose fabric samples. They
realized they’d need to persuade a janitor to care for the plants and fish during vacation. Teams
persuaded others to support them—sometimes so well, teams decided to combine projects.
Finally, they presented designs to teachers, parents, and Jim West, inventor of the electric
microphone.
Along the way, kids demonstrated the very definition of creativity: alternating between divergent
and convergent thinking, they arrived at original and useful ideas. And they’d unwittingly mastered
Ohio’s required fifth-grade curriculum—from understanding sound waves to per-unit cost
calculations to the art of persuasive writing. “You never see our kids saying, ‘I’ll never use this so I
don’t need to learn it,’ ” says school administrator Maryann Wolowiec. “Instead, kids ask, ‘Do we
have to leave school now?’ ” Two weeks ago, when the school received its results on the state’s
achievement test, principal Traci Buckner was moved to tears. The raw scores indicate that, in its
first year, the school has already become one of the top three schools in Akron, despite having
open enrollment by lottery and 42 percent of its students living in poverty.
With as much as three fourths of each day spent in project-based learning, principal Buckner and
her team actually work through required curricula, carefully figuring out how kids can learn it
through the steps of Treffinger’s Creative Problem-Solving method and other creativity
pedagogies. “The creative problem-solving program has the highest success in increasing
children’s creativity,” observed William & Mary’s Kim.
The home-game version of this means no longer encouraging kids to spring straight ahead to the
right answer. When UGA’s Runco was driving through California one day with his family, his son
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asked why Sacramento was the state’s capital—why not San Francisco or Los Angeles? Runco
turned the question back on him, encouraging him to come up with as many explanations as he
could think of.
Preschool children, on average, ask their parents about 100 questions a day. Why, why, why—
sometimes parents just wish it’d stop. Tragically, it does stop. By middle school they’ve pretty much
stopped asking. It’s no coincidence that this same time is when student motivation and engagement
plummet. They didn’t stop asking questions because they lost interest: it’s the other way around.
They lost interest because they stopped asking questions.
Having studied the childhoods of highly creative people for decades, Claremont Graduate
University’s Mihaly Csikszentmihalyi and University of Northern Iowa’s Gary G. Gute found highly
creative adults tended to grow up in families embodying opposites. Parents encouraged
uniqueness, yet provided stability. They were highly responsive to kids’ needs, yet challenged kids
to develop skills. This resulted in a sort of adaptability: in times of anxiousness, clear rules could
reduce chaos—yet when kids were bored, they could seek change, too. In the space between
anxiety and boredom was where creativity flourished.
It’s also true that highly creative adults frequently grew up with hardship. Hardship by itself doesn’t
lead to creativity, but it does force kids to become more flexible—and flexibility helps with creativity.
In early childhood, distinct types of free play are associated with high creativity. Preschoolers who
spend more time in role-play (acting out characters) have higher measures of creativity: voicing
someone else’s point of view helps develop their ability to analyze situations from different
perspectives. When playing alone, highly creative first graders may act out strong negative
emotions: they’ll be angry, hostile, anguished. The hypothesis is that play is a safe harbor to work
through forbidden thoughts and emotions.
In middle childhood, kids sometimes create paracosms—fantasies of entire alternative worlds. Kids
revisit their paracosms repeatedly, sometimes for months, and even create languages spoken
there. This type of play peaks at age 9 or 10, and it’s a very strong sign of future creativity. A
Michigan State University study of MacArthur “genius award” winners found a remarkably high rate
of paracosm creation in their childhoods.
From fourth grade on, creativity no longer occurs in a vacuum; researching and studying become
an integral part of coming up with useful solutions. But this transition isn’t easy. As school stuffs
more complex information into their heads, kids get overloaded, and creativity suffers. When
creative children have a supportive teacher—someone tolerant of unconventional answers,
occasional disruptions, or detours of curiosity—they tend to excel. When they don’t, they tend to
underperform and drop out of high school or don’t finish college at high rates.
They’re quitting because they’re discouraged and bored, not because they’re dark, depressed,
anxious, or neurotic. It’s a myth that creative people have these traits. (Those traits actually shut
down creativity; they make people less open to experience and less interested in novelty.) Rather,
creative people, for the most part, exhibit active moods and positive affect. They’re not particularly
happy—contentment is a kind of complacency creative people rarely have. But they’re engaged,
motivated, and open to the world.
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The new view is that creativity is part of normal brain function. Some scholars go further, arguing
that lack of creativity—not having loads of it—is the real risk factor. In his research, Runco asks
college students, “Think of all the things that could interfere with graduating from college.” Then he
instructs them to pick one of those items and to come up with as many solutions for that problem
as possible. This is a classic divergent-convergent creativity challenge. A subset of respondents,
like the proverbial Murphy, quickly list every imaginable way things can go wrong. But they
demonstrate a complete lack of flexibility in finding creative solutions. It’s this inability to conceive
of alternative approaches that leads to despair. Runco’s two questions predict suicide ideation—
even when controlling for preexisting levels of depression and anxiety.
In Runco’s subsequent research, those who do better in both problem-finding and problem-solving
have better relationships. They are more able to handle stress and overcome the bumps life throws
in their way. A similar study of 1,500 middle schoolers found that those high in creative selfefficacy
had more confidence about their future and ability to succeed. They were sure that their
ability to come up with alternatives would aid them, no matter what problems would arise.
When he was 30 years old, Ted Schwarzrock was looking for an alternative. He was hardly on track
to becoming the prototype of Torrance’s longitudinal study. He wasn’t artistic when young, and his
family didn’t recognize his creativity or nurture it. The son of a dentist and a speech pathologist, he
had been pushed into medical school, where he felt stifled and commonly had run-ins with
professors and bosses. But eventually, he found a way to combine his creativity and medical
expertise: inventing new medical technologies.
Today, Schwarzrock is independently wealthy—he founded and sold three medical-products
companies and was a partner in three more. His innovations in health care have been wide
ranging, from a portable respiratory oxygen device to skin-absorbing anti-inflammatories to insights
into how bacteria become antibiotic-resistant. His latest project could bring down the cost of spinesurgery
implants 50 percent. “As a child, I never had an identity as a ‘creative person,’ ”
Schwarzrock recalls. “But now that I know, it helps explain a lot of what I felt and went through.”
Creativity has always been prized in American society, but it’s never really been understood. While
our creativity scores decline unchecked, the current national strategy for creativity consists of little
more than praying for a Greek muse to drop by our houses. The problems we face now, and in the
future, simply demand that we do more than just hope for inspiration to strike. Fortunately, the
science can help: we know the steps to lead that elusive muse right to our doors.
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