|
 Listen
to this story via
streaming audio, a
downloadable file, or
get help.
March 23, 2005: Albert Einstein was exhausted. For the third
night in a row, his baby son Hans, crying, kept the household awake
until dawn. When Albert finally dozed off … it was time to get up and go
to work. He couldn't skip a day. He needed the job to support his young
family.
Walking briskly to the Patent Office where he was a "Technical Expert,
Third Class," Albert worried about his parents. They were getting older
and frail, and his relations with them were strained: they didn't
approve of his marriage to Mileva.... Albert glanced at a passing shop
window. His hair was a mess; he had forgotten to comb it again.
Work. Family. Making ends meet. Albert felt all the pressure and
responsibility of any young husband and father.
 To
relax, he revolutionized physics.
Right:
Young Albert Einstein at the patent office. [More]
In 1905, at the age of 26 and four years before he was able to get a
job as a professor of physics, Einstein published five of the most
important papers in the history of science--all written in his "spare
time." He proved that atoms and molecules existed. Before 1905,
scientists weren't sure about that. He argued that light came in little
bits (later called "photons") and thus laid the foundation for quantum
mechanics. He described his theory of special relativity: space and time
were threads in a common fabric, he proposed, which could be bent,
stretched and twisted.
Oh, and by the way, E=mc2.
Before Einstein, the last scientist who had such a creative outburst
was Sir Isaac Newton. It happened in 1666 when Newton secluded himself
at his mother's farm to avoid an outbreak of plague at Cambridge. With
nothing better to do, he developed his Theory of Universal Gravitation.
For centuries historians called 1666 Newton's annus mirabilis,
or "miracle year." Now those words have a different meaning: Einstein
and 1905. The United Nations has declared 2005 "The World Year of
Physics" to celebrate the 100th anniversary of Einstein's annus
mirabilis. (Nobel prize winners and other top scientists will meet
with the public next month to discuss Einstein's work. Would you like to
join them?)
Modern pop culture paints Einstein as a bushy-haired superthinker.
His ideas, we're told, were improbably far ahead of other scientists. He
must have come from some other planet--maybe the same one
Newton grew up on.
"Einstein was no space alien," laughs Harvard University physicist
and science historian Peter Galison. "He was a man of his time." All of
his 1905 papers unraveled problems being worked on, with mixed success,
by other scientists. "If Einstein hadn't been born, [those papers] would
have been written in some form, eventually, by others," Galison believes.
Above: Bushy-haired superthinker ... ordinary man ...
or both?
What's remarkable about 1905 is that a single person authored all
five papers, plus the original, irreverent way Einstein came to his
conclusions.
For example: the photoelectric effect. This was a puzzle in the early
1900s. When light hits a metal, like zinc, electrons fly off. This can
happen only if light comes in little packets concentrated enough to
knock an electron loose. A spread-out wave wouldn't do the photoelectric
trick.
The solution seems simple--light is particulate. Indeed, this is the
solution Einstein proposed in 1905 and won the Nobel Prize for in 1921.
Other physicists like Max Planck (working on a related problem:
blackbody radiation), more senior and experienced than Einstein, were
closing in on the answer, but Einstein got there first. Why?
It's a question of authority.
"In Einstein's day, if you tried to say that light was made of
particles, you found yourself disagreeing with physicist James Clerk
Maxwell. Nobody wanted to do that," says Galison. Maxwell's equations
were enormously successful, unifying the physics of electricity,
magnetism and optics. Maxwell had proved beyond any doubt that light was
an electromagnetic wave. Maxwell was an Authority Figure.
 Einstein
didn't give a fig for authority. He didn't resist being told what to
do, not so much, but he hated being told what was true.
Even as a child he was constantly doubting and questioning. "Your mere
presence here undermines the class's respect for me," spat his 7th grade
teacher, Dr. Joseph Degenhart. (Degenhart also predicted that Einstein "would
never get anywhere in life.") This character flaw was to be a key
ingredient in Einstein's discoveries.
Right:
Einstein's High School Diploma. Contrary to urban legend, Albert did
well in school. [larger
image]
"In 1905," notes Galison, "Einstein had just received his Ph.D. He
wasn't beholden to a thesis advisor or any other authority figure." His
mind was free to roam accordingly.
In retrospect, Maxwell was right. Light is a wave. But Einstein was
right, too. Light is a particle. This bizarre duality baffles Physics
101 students today just as it baffled Einstein in 1905. How can light be
both? Einstein had no idea.
That didn't slow him down. Disdaining caution, Einstein adopted the
intuitive leap as a basic tool. "I believe in intuition and inspiration,"
he wrote in 1931. "At times I feel certain I am right while not knowing
the reason."
Although Einstein's five papers were published in a single year, he
had been thinking about physics, deeply, since childhood. "Science was
dinner-table conversation in the Einstein household," explains Galison.
Albert's father Hermann and uncle Jakob ran a German company making such
things as dynamos, arc lamps, light bulbs and telephones. This was
high-tech at the turn of the century, "like a Silicon Valley company
would be today," notes Galison. "Albert's interest in science and
technology came naturally."
Below:
Einstein's family: Albert and sister Maja (bottom left), father Hermann
(top), and mother Pauline (bottom right). [More]
 Einstein's
parents sometimes took Albert to parties. No babysitter was required:
Albert sat on the couch, totally absorbed, quietly doing math problems
while others danced around him. Pencil and paper were Albert's GameBoy!
He had impressive powers of concentration. Einstein's sister, Maja,
recalled "...even when there was a lot of noise, he could lie down on
the sofa, pick up a pen and paper, precariously balance an inkwell on
the backrest and engross himself in a problem so much that the
background noise stimulated rather than disturbed him."
Einstein was clearly intelligent, but not outlandishly more so than
his peers. "I have no special talents," he claimed, "I am only
passionately curious." And again: "The contrast between the popular
assessment of my powers ... and the reality is simply grotesque."
Einstein credited his discoveries to imagination and pesky questioning
more so than orthodox intelligence.
Later in life, it should be remembered, he struggled mightily to
produce a unified field theory, combining gravity with other forces of
nature. He failed. Einstein's brainpower was not limitless.
Neither was Einstein's brain. It was removed without permission by
Dr. Thomas Harvey in 1955 when Einstein died. He probably expected to
find something extraordinary: Einstein's mother Pauline had famously
worried that baby Einstein's head was lopsided. (Einstein's grandmother
had a different concern: "Much too fat!") But Einstein's brain looked
much like any other, gray, crinkly, and, if anything, a trifle smaller
than average.
Detailed studies of Einstein's brain are few and recent. In 1985, for
instance, Prof. Marian Diamond of UC Berkeley reported an above-average
number of glial cells (which nourish neurons) in areas of the left
hemisphere thought to control math skills. In 1999, neuroscientist
Sandra Witelson reported that Einstein's inferior parietal lobe, an area
related to mathematical reasoning, was 15% wider than normal.
Furthermore, she found, the Slyvian fissure, a groove that normally
extends from the front of the brain to the back, did not go all the way
in Einstein's case. Might this have allowed greater connectivity among
different parts of Einstein's brain?
No one knows.
Not knowing. It makes some researchers feel uncomfortable.
It exhilarated Einstein: "The fairest thing we can experience is the
mysterious," he said. "It is the fundamental emotion that stands at the
cradle of true art and true science."
It's the fundamental emotion that Einstein felt, walking to work,
awake with the baby, sitting at the dinner table. Wonder beat exhaustion,
every day.
SEND THIS STORY TO A FRIEND
|
Headlines
Hot Link
