Michio Kaku - Physics of the Impossible - Scientific Exploration in the world of phasers, force fields, teleportation and time travel.pdf - Świat Nauki - Planetar81

NATIONAL

BESTSELLER

"[Kaku explores] what we still do not quite understand, those grey areas

that are surely the most fascinating part of physics." — New Scientist

MICH.IO

,-K.A K U

BFSTSELLING

AUTHOR

OP HYPERSPACE

PHYSICS

OF TH

PREFACE

If at first an idea does not sound absurd,

then there is no hope for it.

-ALBERT EINSTEIN

One day, would it be possible to walk through walls? To build starships

that can travel faster than the speed of light? To read other people's

minds? To become invisible? To move objects with the power of our

minds? To transport our bodies instantly through outer space?

Since I was a child, I've always been fascinated by these questions.

Like many physicists, when I was growing up, I was mesmerized by

the possibility of time travel, ray guns, force fields, parallel universes,

and the like. Magic, fantasy, science fiction were all a gigantic play-

ground for my imagination. They began my lifelong love affair with the

impossible.

I remember watching the old Flash Gordon reruns on TV. Every

Saturday, I was glued to the TV set, marveling at the adventures of

Flash, Dr. Zarkov, and Dale Arden and their dazzling array of futuris-

tic technology: the rocket ships, invisibility shields, ray guns, and cities

in the sky. I never missed a week. The program opened up an entirely

new world for me. I was thrilled by the thought of one day rocketing to

an alien planet and exploring its strange terrain. Being pulled into the

orbit of these fantastic inventions I knew that my own destiny was

somehow wrapped up with the marvels of the science that the show

promised.

As it turns out, I was not alone. Many highly accomplished scien-

tists originally became interested in science through exposure to sci-

ence fiction. The great astronomer Edwin Hubble was fascinated by

the works of Jules Verne. As a result of reading Verne's work, Hubble

abandoned a promising career in law, and, disobeying his father's

wishes, set off on a career in science. He eventually became the great-

est astronomer of the twentieth century. Carl Sagan, noted astronomer

and bestselling author, found his imagination set afire by reading

Edgar Rice Burroughs's John Carter of Mars novels. Like John Carter,

he dreamed of one day exploring the sands of Mars.

I was just a child the day when Albert Einstein died, but I remem-

ber people talking about his life, and death, in hushed tones. The next

day I saw in the newspapers a picture of his desk, with the unfinished

manuscript of his greatest, unfinished work. I asked myself, What

could be so important that the greatest scientist of our time could not

finish it? The article claimed that Einstein had an impossible dream, a

problem so difficult that it was not possible for a mortal to finish it. It

took me years to find out what that manuscript was about: a grand,

unifying "theory of everything." His dream-which consumed the last

three decades of his life-helped me to focus my own imagination. I

wanted, in some small way, to be part of the effort to complete Ein-

stein's work, to unify the laws of physics into a single theory.

As I grew older I began to realize that although Flash Gordon was

the hero and always got the girl, it was the scientist who actually made

the TV series work. Without Dr. Zarkov, there would be no rocket ship,

no trips to Mongo, no saving Earth. Heroics aside, without science

there is no science fiction.

I came to realize that these tales were simply impossible in terms

of the science involved, just flights of the imagination. Growing up

meant putting away such fantasy. In real life, I was told, one had to

abandon the impossible and embrace the practical.

However, I concluded that if I was to continue my fascination with

the impossible, the key was through the realm of physics. Without a

PREFACE

solid background in advanced physics, I would be forever speculating

about futuristic technologies without understanding whether or not

they were possible. I realized I needed to immerse myself in advanced

mathematics and learn theoretical physics. So that is what I did.

In high school for my science fair project I assembled an atom

smasher in my mom's garage. I went to the Westinghouse company

and gathered 400 pounds of scrap transformer steel. Over Christmas I

wound 22 miles of copper wire on the high school football field. Even-

tually I built a 2.3-million-electron-volt betatron particle accelerator,

which consumed 6 kilowatts of power (the entire output of my house)

and generated a magnetic field of 20,000 times the Earth's magnetic

field. The goal was to generate a beam of gamma rays powerful

enough to create antimatter.

My science fair project took me to the National Science Fair and

eventually fulfilled my dream, winning a scholarship to Harvard, where

I could finally pursue my goal of becoming a theoretical physicist and

follow in the footsteps of my role model, Albert Einstein.

Today I receive e-mails from science fiction writers and screen-

writers asking me to help them sharpen their own tales by exploring

the limits of the laws of physics.

THE "IMPOSSIBLE" IS RELATIVE

As a physicist, I have learned that the "impossible" is often a relative

term. Growing up, I remember my teacher one day walking up to the

map of the Earth on the wall and pointing out the coastlines of South

America and Africa. Wasn't it an odd coincidence, she said, that the

two coastlines fit together, almost like a jigsaw puzzle? Some scientists,

she said, speculated that perhaps they were once part of the same, vast

continent. But that was silly. No force could possibly push two gigantic

continents apart. Such thinking was impossible, she concluded.

Later that year we studied the dinosaurs. Wasn't it strange, our

teacher told us, that the dinosaurs dominated the Earth for millions of

years, and then one day they all vanished? No one knew why they had

all died off. Some paleontologists thought that maybe a meteor from

space had killed them, but that was impossible, more in the realm of

science fiction.

Today we now know that through plate tectonics the continents do

move, and that 65 million years ago a gigantic meteor measuring six

miles across most likely did obliterate the dinosaurs and much of life

on Earth. In my own short lifetime I have seen the seemingly impossi-

ble become established scientific fact over and over again. So is it im-

possible to think we might one day be able to teleport ourselves from

one place to another, or build a spaceship that will one day take us

light-years away to the stars?

Normally such feats would be considered impossible by today's

physicists. Might they become possible within a few centuries? Or in

ten thousand years, when our technology is more advanced? Or in a

million years? To put it another way, if we were to somehow encounter

a civilization a million years more advanced than ours, would their

everyday technology appear to be "magic" to us? That, at its heart, is

one of the central questions running through this book; just because

something is "impossible" today, will it remain impossible centuries or

millions of years into the future?

Given the remarkable advances in science in the past century, es-

pecially the creation of the quantum theory and general relativity, it is

now possible to give rough estimates of when, if ever, some of these

fantastic technologies may be realized. With the coming of even more

advanced theories, such as string theory, even concepts bordering on

science fiction, such as time travel and parallel universes, are now be-

ing re-evaluated by physicists. Think back 150 years to those techno-

logical advances that were declared "impossible" by scientists at the

time and that have now become part of our everyday lives. Jules Verne

wrote a novel in 1865, Paris in the Twentieth Century, which was

locked away and forgotten for over a century until it was accidentally

discovered by his great-grandson and published for the first time in

1994. In it Verne predicted what Paris might look like in the year 1960.

His novel was filled with technology that was clearly considered im-

possible in the nineteenth century, including fax machines, a world-

Michio Kaku - Physics of the Impossible - Scientific Exploration in the world of phasers, force fields, teleportation and time travel.pdf

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