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The Einstein Factor
Proven Techniques
to Boost Your Brain's Performance!
NOVEMBER 1995
SUCCESS Pages 55-62
Everything we do depends on our minds
-- yet we don't often think of the mind as a tool whose powers can
be multiplied dramatically.
Entrepreneurs bought thousands of
copies of Dr. Win Wenger's earlier book, A New Method
for Personal Growth and Development, because his focus is not
on pathology, but opportunity. Dr. Wenger, a president of the Institute
for Visual Thinking in Gaithersburg, Md., has made a specialty of
understanding genius.
He argues that those who make intuitive
leaps of clarity, from Mozart to Einstein to Edison, are able to
read messages their subconscious minds are trying to send them.
The rest of us receive such messages, too, but are not adept at
listening to them. The gift of the gifted is the ability to listen
to their own minds.
The good news, as Dr. Wenger and former
SUCCESS senior editor Richard Poe show in their new book, The
Einstein Factor, is that we can learn techniques that open our
brains' capacity for genius.
Today, those numinous eyes, bushy
mustache, and shock of silver hair remain the quintessential image
of "genius," the name a synonym for supernormal intelligence.
But as a child, Albert Einstein appeared deficient. Dyslexia caused
him great difficulty in speech and reading.
"Normal childhood development
Proceeded slowly," recalled his sister. "He had such difficulty
with language that they feared that he would never learn to speak….Every
sentence he uttered, he repeated to himself softly, moving his lips.
This habit persisted into his seventh year."
Later, poor language skills provoked
his Greek teacher to tell the boy, "You will never amount to
anything." Einstein was expelled from high school. He flunked
a college entrance exam. After finally completing his bachelor's
degree, he failed to attain a recommendation from his professors
and was forced to take a lowly job in the Swiss patent office. Until
his mid-20s, he seemed destined for a life of mediocrity. Yet, when
he was 26, Einstein published his Special Theory of Relacivity.
Sixteen years later, he won a Nobel prize.
What did Einstein have that we don't?
That's what Dr. Thomas Harvey wanted to know. He was the pathologist
on duty at Princeton Hospital when Einstein died in 1955. By sheer
chance, fate had fingered Harvey to perform Einstein's autopsy.
Without permission from the family, Harvey took it upon himself
to remove and keep Einstein's famous brain. For the next 40 years,
Harvey stored the brain in jars of formaldehyde, studying it slice
by slice under the microscope and dispensing small samples to other
researchers on request.
"Nobody had ever found a difference
that earmarked a brain as that of a genius," Harvey later explained
to a reporter. Neither he nor his colleagues found any definitive
sign that would mark Einstein's brain as extraordinary according
to the ideas of brain physiology of that time. But in the early
1980s, Marian Diamond, a neuroanatomist at the University of California
at Berkeley, made some discoveries about brains in general and Einstein's
in particular that could revolutionize ideas about genius and help
entrepreneurs who want to become more innovative.
One of Diamond's experiments was with
rats, One group she placed in a super-stimulating environment with
swings, ladders, treadmills, and toys. The other group was confined
to bare cages. The rats in the high-stimulus environment not only
lived to the advanced age of 3 (the equivalent of 90 in a man),
but their brains increased in size, sprouting new glial cells, which
make connections between neurons (nerve cells) As long ago as 1911,
Santiago Ramon y Cajal, the father of neuroanatomy, had found
that the number of interconnections between neurons was a far better
predictor of brainpower than the sheer number of neurons.
So, in rats, Diamond had created the
physical footprint of higher intelligence through mental exercise.
She then examined sections of Einstein's brain -- and found that
it, too, was unusually "interconnected." It had a larger-than-normal
number of glial cells in the left parietal lobe, which is a kind
of neurological switching station that connects the various areas
of the brain. It has long been known that unlike neurons, which
do not reproduce after we are born, the connective hardware of the
brain -- glial cells, axons, and dendrites -- can increase in number
throughout life, depending on how you use your brain. The more we
learn, the more of these pathways are created. When we learn a skill
such as riding a bicycle, We create connections between brain cells
that remain, even if we don't practice the skill for decades. Mental
power is, in a way, connective power.
A "Retarded" Achievement
Was Einstein's mental development
affected by some analogy to the swings, ladders, treadmills, and
toys of Diamond's super-rats? Did he, in some sense, learn
his inventive mental powers? Einstein himself seemed to think so.
He believed that you could stimulate ingenious thought by allowing
the imagination to float freely, forming associations at will. For
instance, he attributed his Theory of Relativity not to any special
gift, but to what he called his "retarded" development.
"A normal adult never stops to
think about problems of space and time," he said. "These
are things which he has thought of as a child. But my intellectual
development was retarded, and I began to wonder about space and
time only when I had already grown up."
In his Autobiographical Notes,
Einstein recalled having the first crucial insight that led
to his Special Theory of Relativity at age 16 while he was daydreaming.
As a boy, Einstein had a favorite
uncle named Jakob who used to teach him mathematics. "Algebra
is a merry science," said Jakob once. "We go hunting for
a little animal whose name we don't know, so we call it x. When
we bag our game, we pounce on it and give it its right name."
Uncle Jakob's words stayed with Einstein for the rest of his life.
They encapsulated his attitude toward mathematical and scientific
problems, which to Einstein always seemed more like puzzles or games
than work. Einstein could focus on his math studies with the concentration
most children reserve for play.
"What would it be like,"
Einstein wondered, "to run beside a light beam at the speed
of light?" Normal adults would squelch such a question or forget
it. Einstein was different. He played with this question for 10
years. The more he pondered, the more questions arose. Suppose,
he asked himself, that you were riding on the end of a light beam
and held a mirror before your face. Would you see your reflection?
According to classical physics, you
would not -- because light leaving your face would have to travel
faster than light in order to reach the mirror. But Einstein could
not accept this. It didn't feel right. It seemed ludicrous that
you would look into a mirror and see nothing. Einstein imagined
rules for a universe that would allow you to see your reflection
in a mirror while riding a light beam. Only years later did he undertake
proving his theory mathematically.
Einstein attributed his scientific
prowess to what he called a "vague play" with "signs,"
"images," and other elements, both "visual"
and "muscular." "This combinatory play," he
wrote, "seems to be the essential feature in productive thought."
My project of the last 25 years has
been to develop techniques and mental exercises, based in part on
Einstein's methods, that work in the short term and also develop
the mind's permanent powers.
Einstein is the most spectacular modern
example of a man who could dream while wide awake. With few exceptions,
the great discoveries in science were made through such intuitive
"thought experiments."
Inventor Elias Howe labored long and
hard to create the first sewing machine. Nothing worked. Then, one
night, Howe had a nightmare. He was running from a band of cannibals
-- they were so close, he could see their spear tips. Despite his
terror, Howe noticed that each spear point had a hole bored in its
tip like the eye of a sewing needle.
When he awoke, Howe realized what
his nightmare was trying to say: On his sewing machine, he needed
to move the eye hole from the middle of the needle down to the tip.
That was his breakthrough, and the sewing machine was born.
Insights from dreams have inspired
rulers, artists, scientists, and inventors since Biblical times.
But day after day, year after year, the vast majority of people
squelch their most profound insights without even knowing it. This
defensive reflex -- which I call The Squelcher -- blocks us from
achieving our full potential.
But dreams have their limitations.
They are notoriously hard to control. We have not yet learned how
to summon them at will. And, most of the time, we forget them.
In March 1977, a group of us had heard
about the revolutionary experiments Russian scientists were making
by tapping the subconscious for accelerated learning. Although no
one at that time had published reliable accounts of the exact procedures,
we reconstructed these as best we could from odd corners of the
scientific literature. We decided to conduct an experiment in a
friend's apartment in Arlington, Va.
I don't think any of us really expected
dramatic results.
We were completely surprised. Nearly
every technique produced striking
results for almost everyone in the
group. Especially memorable was the experience of a participant
whom I shall call "Mary." Like all of us, she had agreed
to embark upon some new learning experience just prior to the workshop.
She chose the violin. Mary had her first lesson just one week before
our experiment. Until that time, she had never touched a violin
in her life.
The week following our workshop, Mary
had her second lesson. She worked as a secretary in a Washington
office and had only a moderate amount of time to practice. Nevertheless,
after Mary had played a few minutes, her astonished instructor announced
that he was going to reenroll her in his advanced class! At our
second experimental workshop, just a few weeks later, Mary gave
a fine concert with her violin.
Mary owed her precocious ability to
the "Raikov Effect." Using deep hypnosis, Soviet psychiatrist
Dr. Vladimir Raikov made people think that they had become some
great genius in history. When he "reincarnated" someone
as Rembrandt, the person could draw with great facility. Later,
the subject remembered nothing. Many would scoff in disbelief when
shown artwork they had done under hypnosis.
Raikov demonstrated that talents unleashed
under hypnosis left significant effects even after the sessions.
So the method was more than an experimental oddity. It was a practical
tool for learning. Moreover, as we were to discover, it could be
achieved without the aid of hypnosis. The Raikov Effect is like
the ancient practice by which prophets, oracles, and tribal shamans
took on the identity of gods, spirits, animals, and inanimate objects,
in order to gain knowledge.
In the Broadway musical Camelot, the
wizard Merlin "transforms" the young boy who will become
King Arthur into various animals in his imagination. While soaring
aloft as a hawk, Arthur hears Merlin ask, "What does the hawk
know that Arthur doesn't know?" Arthur looks down and realizes
that the hawk can see no borders in Britain. He resolves to forge
a single nation from the feuding tribes below.
Although fictional, this episode was
inspired by a real tradition in Celtic folklore. In an old Welsh
epic, a bard boasts, "I have been in many shapes…. have
been a drop in the air; I have been a shining star….I have
journeyed as an eagle.... I have been a shield in fight; I have
been the string of a harp….There is nothing which I have not
been."
Perhaps these flights of imagination
-- if such they are -- inspire creative thinking simply by juxtaposing
a set of perceptions that do not ordinarily belong together in the
subject's mind. Efforts to "force" a fit between these
odd components will yield a provocative new gestalt or insight.
Such "force-fitting" played
a big role in a productive brainstorming session at The Gillette
Co. in 1980. Executives were to pretend that they were shafts of
hair. While in their "hair" identities, they brainstormed
over what qualities would most please them in a shampoo. Some wanted
a powerful cleanser that would root out dirt from the scalp. Others,
fearing for their split ends, asked for a milder formula.
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In the end, the human "hair shafts"
settled on a new shampoo that would automatically adjust to every
hair need. Silkience, the product they invented, remains one of
the leading shampoos on the market.
George S. Patton thought himself reincarnated
from great generals of the past. This odd belief may have catalyzed
his eerie genius for applying the lessons of ancient battles to
modern mechanized warfare. Michelangelo imagined his statues as
living beings, awaiting only his hammer and chisel to free
them. His vision somehow aided Michelangelo's genius for "freeing"
forms from the stone.
The Stinger missile is one of the
most sophisticated "smart" weapons that the high-tech
arsenal has. It homes in on its target by infrared scanner. Once
locked on, it can outmaneuver a jet fighter. But the Stinger still
depends upon human operators, using intuition. Expert Stinger shooters
report that, just after hearing the beep that means they have "acquired"
the target and just before pulling the trigger, they always stop
and ask themselves, "Does it feel right?" They know that
if you fire the missile when it "feels" wrong, you miss.
But when it "feels" right, you hit your mark. Military
behavioral experts call this the "K check," for "kinesthetic
check."
Nobody understands how it works. In
some way the eye, the mind, and the body cooperate subconsciously
to determine the most accurate trajectory for the missile. That
means taking into account the speed, size, and range of the target,
(the speed of the missile, the timing and angle of its firing, and
even the anticipated action of its homing technology. Any conscious
attempt to compute this many variables would overwhelm even an Einstein.
Yet ordinary soldiers -- including illiterate Mujaheddin partisans,
who used the Stinger to sweep Russian helicopters from the Afghanistan
skies -- do it easily and consistently under combat conditions.
PURPOSEFUL DREAMING
The K check is that majestic freedom
that comes only when we have mastered basic disciplines and
technical skills. It is power unleashed when right and left hemispheres
of the brain work together. I have developed the following technique
to bring together learning and inspiration in a conscious form of
dreaming called "Image Streaming."
The fact is, we are always dreaming.
Evidence suggests that the stream
of images in bur minds literally never ceases. Even when our minds
are preoccupied with work, conversation, or other demanding tasks,
the sensory mechanisms continue to generate imaginary sights, sounds,
smells, tastes, and feelings. Many of these images consist of memories,
triggered by random associations. Others are echoes or reinforcements
of our conscious thoughts at the moment. How, then, can we best
gain access to the remarkable flow of subconscious perception?
Over the last 25 years, I believe
I have found answer. The Image Streaming technique that I developed
opens the mind to a flow of symbolic imagery as potent as that of
any dream. But, unlike dreaming, you can practice Image Streaming
while you're wide awake, and you can do it virtually any time, anywhere.
Ten minutes of Image Streaming per day will suffice to induce profound,
positive change in your life.
• The first "commandment"
of Image Streaming is to describe the images that come to you aloud.
• The second commandment is to
use all five senses
• The third commandment is surely
to "use the present tense." Even if the image has already
vanished from sight, you should never say, "I saw such-and-such,"
in your description. Always phrase it, "I see such-and-such,"
or "I am looking now at such-and-such."
The idea here is to connect and mine
all the different parts of your brain at once. Through speech and
imagination, an Image Streamer talks, listens, sees, smells, tastes,
feels, analyzes, reflects, wonders, creates, and generates mental
imagery all at the same time. This unusual combination of activities
spans or bridges many opposing "poles" of the brain. Over
the past15 years, the quest to achieve balance between the brain's
analytical left hemisphere and its creative, pattern-sensing right
hemisphere has become a fad. Describing the brain as divided merely
between left and right has been overplayed. Important functions
are just as likely to be separated between top and bottom or front
and back. But any activity that links opposite sides, or "poles,"
of the brain contributes toward the brain's balance and increases
its resources. Image Streaming is one of many possible "Pole-Bridging"
exercises.
The value of Image Streaming was given
some unexpected confirmation in a preliminary experiment at Southwest
State University in Marshall, Minn., in 1988. Physics professor
Dr. Charles P. Reinert asked 79 of his first year students to compare
the effect of two mental exercises on IQ. Half the students used
the Whimbey Method, a standard program that uses word problems to
build analytical skills. For each hour of study, these students'
IQ scores gained .4 of a point The other group used Image Streaming
-- they gained more than twice that, or .9 points.
You're ready? In a comfortable chair,
turn on a tape recorder. Sit back, close your eyes, and . . . nothing
happens?
If you are among that 30 percent of
the population that has difficulty generating mental imagery, don't
despair. Everyone has an Image Stream. You simply need to learn
how to stop squelching yours. The following simple technique will
give you access to your Image Stream.
Take a piece of paper. Pick two corners
or sections of the room you are in. On one side of the paper, write
about one corner, On the other side of the paper, write about the
other. Describe the first corner only in terms of color, texture,
form, and feel. As you describe the second, use only abstract terms
-- having nothing to do with sensory impressions. You can say, "There's
a picture hanging on the wall and an upholstered chair wedged in
the corner," but nothing about how those objects look or feel.
Take about five minutes to produce your descriptions.
Look over your results. Which description
is more interesting? Which conveys more? Obviously, the first description.
It involves more neurological contact because as you hear or read
a description overflowing with vivid sensory impressions, your brain
automatically "lights up" in the appropriate sensory areas,
as it lights up in a dream. The more different senses you evoke,
the wider the base of neurological contact.
Get started. Start describing something:
Your physical surroundings; the room
where you are sitting; some scene you pass in the course of your
day. It is important that you describe it aloud -- to a tape recorder
or another person.
Treat the tape recorder as a telephone,
as though you are describing the scene to a friend. Your goal should
be to describe it so richly that you literally force the reality
of it onto your listener, through the sheer richness of detail and
raw sensory description.
When in doubt,just keep talking. Don’t
edit! Don't worry about making nice sentences. If you're wondering
whether to include some nuance or some triviality in your description,
go ahead and describe it. There is no "right" way to describe
something. The only mistake you can make is to hesitate, to stop,
or to edit.
After a few days of this exercise,
your ability to describe surroundings will have improved vastly.
As soon as you have grown comfortable with the descriptive process,
start describing scenes and pictures that aren't physically there,
but exist only in your mind.
Imagery comes more easily in a relaxed,
but alert, state. A simple method for attaining this state is "Velvety-Smooth
Breathing." Close your eyes and keep them closed for the next
10 minutes. Don't look for any images. You'll just aggravate yourself
if you can't find them. Focus instead on your breathing. Breathe
in and out so smoothly that there is no pause between the "in"
breath and the "out" breath. It is just one, long continuous,
flowing b-r-e-a-t-h, like a slow, sensuous sigh.
Let it stroke you, as you might stroke
a smooth piece of velvet Then, with your eyes closed, try
describing a familiar person or object in great detail: your mother,
your child, or your spouse. Then describe the Taj Mahal or another
interesting building.
Now, having read the instructions
for Velvety-Smooth Breathing, please put down this magazine and
actually try the technique before moving on.
If you succeed in this simple task,
congratulations! You have just started "working" with
mental imagery. Many people will deny that they saw an image. But
it is psychologically impossible to describe a person or object
from memory without first forming a mental image of it.
Now you are ready to experience spontaneous
imagery.
When awaiting spontaneous images,
you must be ready for anything. You're not "supposed"
to see any particular thing. Imagery can come in any form. A fence,
a face, or a tree branch. The feel of touching sand, a whiff of
gingerbread, or even an emotion. Or it might be a splotch of color,
a few crisscrossing lines, or a pinpoint of light.
It is vital to report every image
you see, no matter how vague, trivial, or puzzling. Bob S., who
was participating in an Image Streaming session with me in Ravenna,
Ohio, felt he shouldn't. For when he closed his eyes, he immediately
got a perfectly clear image of an old automobile tire. He tried
to block the tire out of his mind, because he refused to believe
this was what he was "supposed" to be seeing. But as Bob
finally described the tire to his partner, a realization crept over
him. He had seen this tire before. It was the right rear
tire of his fiancee's car. He had the impression now that there
was something wrong with it.
"I dashed out and phoned my fiancee,"
recalls Bob. '1 got her father, and he was the one who went out
to check that tire. He found the side was bruised and cut almost
through." Had the weakened tire blown out on the freeway at
65 mph, it could easily have killed everyone in the car. This incident
stands out not as unusual, but as typical. Our subconscious minds
are spewing forth images, hunches, and subtle perceptions almost
24 hours each day.
Stay alert. The moment an image or
impression congeals in your awareness, describe the dickens
out of it! Many people fail at this point, because they think the
image must remain in their conscious view the whole time they're
describing it. Not so. Even if it flickers for one second and disappears,
you can still keep describing it from memory, just as you described
the Taj Mahal. Indeed, the act of describing will bring it back
into view.
Don't worry about accuracy.
It doesn't matter if you "fudge" a bit. Feel free to enhance,
exaggerate, or make up parts of your description, if these embellishments
give the image more vividness and life. Remember to fudge in all
five senses. Sometimes noting a certain smell will provoke a visual
image, or a sound will remind you of a taste.
The Image Stream is self-reinforcing.
Almost any stimulus will serve to get it started and trigger the
stream of images. But from that point on, it is your own flow of
verbal description that keeps the Image Stream going. In general,
the more you describe something, the more of it you get.
Remember that the first commandment
of Image Streaming is to describe the images out loud. Many beginners
think they know better. When they bother to describe the images
at all, they do so silently, to themselves. This is one of the surest
ways I know to fall asleep. In fact, if you are troubled by insomnia,
I strongly recommend Image Streaming silently as you lie in your
bed.
Image Streaming won’t work
without having a friend listen to you as you ''stream "
or using the tape recorder as though a friend were there to listen.
Remember that the Image Stream makes
use of all five senses, not just sight. Your brain is so wired that
vision will always tend to dominate the creative process. That's
all right. But, when we describe mental images into our tape recorder,
we should take care to include in those descriptions other senses
as well, especially those of taste and scent, which are often neglected.
LSD researchers discovered that psychedelic compounds tend to break
down the boundaries between different senses so that you might "hear"
the color red or "smell" a Bach concerto. Image Streaming
seems to draw much of its Pole-Bridging power from this hidden mechanism,
playing upon links between senses that most of us thought were quite
distinct, in a process called synesthesia
Synesthetic perceptions seem to flood
our cortex from the limbic brain, without most of us being aware
of them. The Squelcher blocks these signals from our consciousness,
but synesthetic vestiges emerge in common turns of speech, as when
we speak of the "coolness" of blue, the "sweetness"
of a woman's voice, or a "piercing' sound. These metaphors
make no rational sense. Yet, we understand them instinctively.
Full-fledged synesthesia is unusual,
unnecessary, and sometimes unpleasantly distracting. Dwelling upon
it consciously can be as futile and enervating as obsessing over
our own heartbeat or trying to "feel" the secretion of
our glands. As with many other bodily functions, synesthesia does
its best work when we are totally unaware of it.
But its work is critically important
in Image Streaming.
Here are some more techniques to get
a good Image Stream started:
• Recall the most beautiful natural
landscape you have ever seen - a real place you have been to, not
an imaginary one.
• Stare at a 40-to-60-watt light
bulb for 30 seconds or so. Then close your eyes and describe the
afterimage you see.
• Describe an old dream you recall,
filling in the gaps with"fudged" remembrance of sensory
details to keep your momentum going, if necessary.
• Recount a story you have read,
heard, or seen in a movie, and embellish it.
• Listen to music. Nineteenth-century
French music such as Ravel, European classical music (1750-1825),
and progressive jazz are among the most effective.
• Blindfold yourself and walk
around the house; feeling objects and describing them.
• Eat or smell something blindfolded
and describe the experience in detail.
Are you having problems with The Squelcher?
Leap over your self-consciousness by creating the "Surprise"
effect in your mind. You need to set up an "Answer Space"
- a psychological area you cordon off to attract surprising messages
from your right brain, much as you would set out a bird feeder to
attract birds. For example, imagine yourself wandering through a
garden and coming upon a mysterious door leading to another enclosure.
Picture yourself opening that door suddenly. What do you see? A
solution to your problem will often reveal itself in that moment,
just beyond the "threshold."
In general, as with ordinary Image
Streaming, the degree to which you are surprised by what you see
in your answer space is roughly correlated to its value.
INTERPRETING INSIGHT
Interpreting your visions, Like Image
Streaming itself, grows easier with practice. Eventually, you will
gain an instinctive feel for the language of your right brain, letting
you make quick interpretations much of the time. When you're beginning,
however, adhere to the following eight-step regimen in analyzing
an image:
1) Ask yourself if the image is
literal or symbolic. The best way to judge is simply to think
about it in a relaxed state and see what pops to mind.
2j Decide if the image represents
fact of feeling. In other words, have you discerned something
that's true -- or are you just expressing your feelings about it?
3) Identify key associations.
Associations are simply those secondary thoughts that the images
bring to mind. Think back over the Image Stream or play your tape,
and clear associations with other images, places, people, and things
will occur to you.
4) Start compiling your personaI
decoder. Symbolism in the mind is highly personal. Keep
track of the images that recur in your Image Streams. They are your
own symbols; becoming familiar with them will make you better at
discerning what your subconscious brain is trying to tell you.
5) Apply the 'when-then"
test. That is, why did the things in your Image Stream happen
in the order they did? If you saw a crystal ball turn into an egg
when it was removed from the fire -- ask yourself why it didn't
happen the other way around. If you put the egg back into the fire,
would it become a crystal ball again? These speculations, while
they appear nonsensical, reveal hidden cause-and-effect relationships,
and they will trigger insights about your problem.
6) Last is best. In Image
Streaming, as in brainstorming of any kind, the best ideas are not
usually the first to bubble up, but tend to occur toward the end
of the session.
7) Pursue the specific. Vague,
general, philosophic conclusions are probably not the real message.
Image Streaming insights are highly specific. If generalities
are all that emerges, try the "Surprise" thresholding
technique.
8) Look for the "Aha!"
If an answer or insight is still eluding you, look at your Image
Stream again for an element that seems particularly pregnant with
emotion, meaning, or importance, and ask for the answer again. It
may jump at you with an "Aha"
CHANGING HiSTORY
Einstein once wrote that "all
the valuable things, material, spiritual, and moral, which we receive
from society can be traced back through countless generations to
certain creative individuals."
He was talking about people like Imhotep.
Who can imagine Egypt without her pyramids? If not for those famous
monuments, most people would have little idea who the Egyptians
were, and the world of the pharaohs would have remained as obscure
to us as India's lost city of Mohenjo-Daro. Yet the invention of
the pyramid was in no way inevitable or intrinsic to the Egyptian
soul.
No such structures would have existed
in Egypt had it not been for the genius of a single man. Five thousand
years ago, the pharaohs of Egypt were buried in squat, mud-brick
structures called "mastabas." Then the court architect
Imhotep had a better idea.
Instructed to build a tomb for the
pharaoh Djoser, Imhotep piled an incredible 850.000 tons of limestone
into a structure soaring 200 feet above the desert. Nothing like
it had ever been built, not in Egypt, not anywhere. From the glass
pyramid in the courtyard of the Louvre to the
Transamerica Pyramid that dominates
the San Francisco skyline, today's architects continue to imitate
Imhotep's work. Indeed, each time modern builders lay one stone
upon another, they are in debt to this man, who virtually invented
the craft of stonemasonry. This was not only the first pyramid,
but the first high-rise stone edifice of any sort that men built.
Imhotep's genius is still with us.
When modern track and field events
began in the 19th century, it was considered physically impossible
for a human being to run a mile in four minutes. Decade after decade,
the greatest runners fell short of this milestone. Then, on May
6, 1954, Roger Bannister stunned the world by doing the impossible
-- running the mile in three minutes and 59.4 seconds.
Since then, four-minute miles have
become routine.
For centuries, the greatest chess
masters in the world tested their mettle by playing blindfolded.
It was long believed that three blindfolded games at once marked
the limit of human capacity. Then, in 1933, Alexander Alekhine successfully
played 32 simultaneous blindfolded games. Later, grand masters left
Alekhine's record in the dust. Koltanovski set the current record,
playing 56 blindfolded games in 1960. He won 50 and drew the rest.
THE KNACK OF GENIUS
Over the years, my studies have lead
me consistently to the conclusion that geniuses are little more
than ordinary people who have stumbled on some knack or technique
for widening their channel of attention, thus making conscious their
subtle, subconscious perceptions.
Some years ago, I visited a friend
whose son was trying out for the high school baseball team but feared
he wouldn't make the cut because of his poor batting average. I
worked with the boy for about an hour. The boy discovered that he
had the greatest success when he imagined a tiny flyspeck on the
baseball and aimed his bat at that, rather than at the ball itself.
It gave him the extra focus he needed to connect with the ball.
This may seem a trivial insight, but
its effect on the boy was astonishing. In baseball, a .250 to .300
batting average is quite good. But during the first 10 games of
the season, this boy batted .840! He not only made the team, but
went on to be named Most Valuable Player in the league.
But the most surprising discovery
was yet to come. I did not see this boy again until several years
later. He was still playing baseball, and he clearly remembered
our one-hour session as having marked the turning point in his athletic
career. But the boy had entirely forgotten the details of what he
had learned at that session. He remembered nothing about the fly
speck and no longer consciously envisioned it when striking the
ball. Indeed, he was just as mystified as his teammates as to just
how he had become a great batter so quickly.
It's easy to argue that this boy must
have had a talent for baseball all along. I'm sure he did, but when
I met him, there was none in evidence. Only when he discovered the
trick of the flyspeck were his latent talents catalyzed. All of
us possess hidden talents, often in the very areas where we think
ourselves weak. Study, practice, and hard work can bring incremental
improvement. But if we wish to unleash the full power of our genius,
we must find that crucial catalyst, that simple trick or knack that
brings our bodies, senses, and minds into critical focus
Win Wenger, Ph.D. teaches creativity
techniques to corporations through his Institute for Visual Thinking
in Gaithersburg, Md.
Richard Poe, a former SUCCESS senior
editor, is the author of numerous self-help books.
©1998
by Project Renaissance (regarding this internet version only, other
copyrights may apply). While we encourage the free distribution
of this article (complete text only, including this notice and acknowledgement
of source), we do require that expressed permission be granted by
Project Renaissance for any major republication. For minor printing
and sharing, we only request that you notify us.
To reach Win Wenger, please visit his website at Project
Renaissance
This
version originally published on Anakin's
Brain (now Genius By Design)
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