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EUREKA!
EUREKA!
Scientific Breakthroughs that
Changed the World
Leslie Alan Horvitz
John Wiley & Sons, Inc.
(cid:1)
Copyright 2002byLeslieAlanHorvitz.Allrightsreserved.
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CONTENTS
Introduction . A Sudden Flash of Light 1
hapter
C 1
A Breath of Immoral Air . Joseph Priestley and the
Discovery of Oxygen 11
hapter
C 2
Epiphany at Clapham Road . Friedrich Kekule and
the Discovery of the Structure of Carbon
Compounds 24
hapter
C 3
A Visionary from Siberia . Dmitry Mendeleyev
and the Invention of the Periodic Table 41
hapter
C 4
The Birth of Amazing Discoveries . Isaac Newton
and the Theory of Gravity 57
hapter
C 5
The Happiest Thought . Albert Einstein and the
Theory of Gravity 74
hapter
C 6
The Forgotten Inventor . Philo Farnsworth and the
Development of Television 92
hapter
C 7
A Faint Shadow of Its Former Self . Alexander
Fleming and the Discovery of Penicillin 112
hapter
C 8
A Flash of Light in Franklin Park . Charles
Townes and the Invention of the Laser 128
v
contents
hapter
C 9
The Pioneer of Pangaea . Alfred Wegener and the
Theory of Continental Drift 148
hapter
C 10
Solving the Mystery of Mysteries . Charles Darwin
and the Origin of Species 167
hapter
C 11
Unraveling the Secret of Life . James Watson and
Francis Crick and the Discovery of the Double
Helix 188
hapter
C 12
Broken Teacups and Infinite Coastlines . Benoit
Mandelbrot and the Invention of Fractal
Geometry 210
Recommended Reading 231
Index 237
vi
Introduction
A Sudden Flash of Light
Scientific progress comes in fits and starts—years of toil in a
laboratory may prove fruitless but a contemplative walk in
the countryside can yield an astonishing breakthrough. That’s
what the nineteenth-century French mathematician HenriPoin-
care´foundoutwhenpreviouseffortstosolveaparticularlythorny
mathematical problem had come to naught. “One morning,
walking on the bluff,” he wrote, “the idea came to me, with...
brevity,suddennessandimmediatecertainty....Moststrikingat
first is this appearance of sudden illumination, a manifestsignof
long, unconscious prior work. The role of unconscious work in
mathematical invention appears to me incontestable.”
As mysterious and unpredictable as such bursts of creative in-
sight are, their occurrence is frequent enough that the phenom-
enon has been well chronicled. Another French mathematician,
Jacques Hadamard described the experience: “On being very
abruptly awakened by an external noise, a solutionlongsearched
for appeared to me at once without the slightest instant of re-
flection on my part...and in a quite different direction from
anyofthosewhichIhadpreviouslytriedtofollow.”TheGerman
mathematician, Carl Friedrich Gauss, offers a similarly arresting
1
account of how he solved a problem that had resisted him for
fouryears:“Asasuddenflashoflight,theenigmawassolved....
For my part I am unable to name the nature ofthe threadwhich
connected what I previously knew with that which made my
success possible.”
Creativity, whether in mathematics, the sciences,orthearts,is
a funny business.Youcanspendlongyearsofstruggleinfruitless
effort, banging your head against a wall as if it were possible to
force an idea to come, only to hit upon a solution all at once,
out of the blue so to speak, in the course of an idle stroll. The
twelve scientists who make their appearance in this book all ex-
perienced the kind of sudden illumination that Poincare´, Gauss,
and Hadamard are referring to. Almost invariably their insights
came about in a moment of distraction or else burst forth from
their unconsciouswhiletheyslept.Religiousepiphanies,bymost
accounts, appear to represent a similar phenomenon, where in-
spiration seems to strike like a lightning bolt.
There seems no accounting for when lightning will strike (or
whether it will at all). “I have had my solutions for a long time,
but I do not yet know how I am to arrive at them,” lamented
Gauss. What he’s saying is that he knows he knows the solution
butitremainsinfuriatinglyunreachable,hidingoutinsomedark
corner of his brain. And even if lightning does strike, the reve-
lation may produce a solution for which proof is impossible to
come by. Andre´-Marie Ampe`re, the early nineteenth-century
French physicist, remarked:
I gave a shout of joy....It was seven years ago I proposed
to myself a problem which I have not been able to solve
directly, but for which I had found by chance a solution,
and knew that it was correct, without being able to prove
it. The matter often returned to my mind and I hadsought
2
introduction
twenty times unsuccessfullyforthissolution.Forsomedays
I had carried the idea about with me continually. At last, I
do not know how, I found it, together with a large number
of curious and new considerations concerning the theoryof
probability.
Sometimes, of course, genius outstrips technology, with the
result that the idea may wither and die on the vine, derided and
mocked—or worse, simply ignored—for years, only to be redis-
coveredwhensciencecatchesuptoit.WhenAlfredWegener,the
German astronomer and meteorologist, proposed the theory of
continentaldriftin1912—whichstatesthathundredsofmillions
of years ago the continents had made up one greatlandmassthat
hassincesplitapart—heprovokedastormofoutragefromfellow
geologists. That the theory was largely correct had to wait until
the early 1960s—more than thirtyyearsafterWegener’sdeath—
before the technology was available to substantiate it. But We-
gener never lost faith in the theory. That’s another thing the
scientists in this book have in common: however intense their
opposition, they remained convinced thattheywerecorrect.The
proofoftheirtheories,theyassumed,wouldeventuallybefound.
Asonemathematicianexplained,“Whenyouhavesatisfiedyour-
self that the theorem is true, you start proving it.” Thatcouldbe
called the aesthetic approach—something that looks good and
feels right, strangely enough, has a good chance of being right,
even ifyoucan’t immediatelyfigureouthowtoconvinceanyone
of its truth.
Thedevelopmentoftechnologyalsooftenprodsthemindinto
new ways of thinking. Without the refinement of X-ray diffrac-
tion techniques at the end of World War II, biophyisicistsJames
Watson and Francis Crick could have had the most brilliantthe-
ories in the world, but they still would never have gotten any-
3
Description:The common language of genius: Eureka!While the roads that lead to breakthrough scientific discovery can be as varied and complex as the human mind, the moment of insight for all scientists is remarkably similar. The word "eureka!", attributed to the ancient Greek mathematician Archimedes, has come
