AN EVENING WITH
STEPHEN HAWKING
RATED G
March 24, 2003
Noted physicist (and one-time Star
Trek: The Next Generation guest star) Professor Stephen Hawking is
currently in Texas to lead a month-long symposium at the Mitchell Institute for
Fundamental Physics at Texas Agricultural & Mechanical University. Sharing ideas, he and ten other leading
physicists from Europe and the United States hope to enlarge human
understanding about the nature and workings of the universe. On Friday March 14, 2003 Diane Smith attended
a public lecture by Professor Hawking, entitled Brane New
World.
I'm seated in the Cynthia
Mitchell Pavilion in The Woodlands outside Houston, Texas, anticipating the
arrival of Professor Stephen Hawking. All
around I hear the buzz of the audience; some discussing quantum physics, some
debating Prof. Hawking's theories. Some are simply fans, like myself. Never has a scientist had such a following,
and I hope he knows how much we admire him, for he exercises the brains and
broadens the vision of those of us not holding a PhD. His subject is Brane New
World.
After brief introductions,
there follows an outline of Prof. Hawking's work,
including his stints in two TV series — The Simpsons and Star Trek: The Next Generation.
There are Aggie cheers when Texas Agricultural & Mechanical
University, where Prof. Hawking is doing current work is mentioned, but the
Trekkers in the audience bring the house down with their cheers. Without further ado Prof. Hawking is wheeled
out to a thundering, standing ovation. When
the immense crowd is again seated, we hear the first synthesized word: Howdy. He then says, Can you hear me? As one, we
say yes.
The Brane
Theory, which is derived from the word membrane,
is introduced. How many brains does it take to understand brane?
he asks. Prof. Hawking
explains the four dimensions in great detail.
He elaborates on the space time continuum, which exists as warps and
curves, as opposed to a level plane. Paths
of planets appear bent because of this. If
we were to assume the universe is flat, our calculations of the positions of
the planets would be wrong. The three
dimensions of space and one of time are all we can see. Well, we can't see time, except in the
movements of the planets and the devices we use to measure it. Are there more dimensions? Why believe in more dimensions than we can
see? Are they science fiction or actual
consequences?
The Hawking-Penrose Theorem
states that general relativity will break down at a singularity, which is what
a black hole is. To clarify, here is an
excerpt from Prof. Hawking's website:
With Roger Penrose, Prof. Hawking showed that Einstein's General
Theory of Relativity implied space and time would have a beginning in the Big
Bang and an end in black holes. These
results indicated it was necessary to unify General Relativity with Quantum
Theory, the other great scientific development of the first half of the 20th
Century. One consequence of such a
unification that he discovered was that black holes should not be completely
black*, but should emit radiation and eventually evaporate and disappear. Another conjecture is that the universe has
no edge or boundary in imaginary time. This
would imply that the way the universe began was completely determined by the
laws of science.
[*Black holes are not
completely black. They emit radiation;
or more accurately, evaporate radiation.
If a black hole becomes
dismembered (or if any of my theories can be proven), I would get a Nobel Prize,
Hawking notes, smiling broadly, acknowledging the applause.]
Seated astonishingly
motionless in his specialized chair, save for the occasional, wide, engaging
smile or facial expression and the steady clicking of the hand-held device
which miraculously brings us his thoughts through the marvel of computers,
Hawking seems like a rather tired, scholarly Jimmy Stewart. Focusing on his face, you don't get an
impression of the extent of his severe physical limitations.
I had expected a pre-recorded
speech; however, there are pauses of up to 30-40 seconds, perhaps some as long
as a minute, where he keys his lecture, sentence by sentence into his
synthesizer, completely sans notes, for two hours. The small click and whirr of the machine
alerts us to the next sentence, allowing time for taking copious notes. I see people to the right, to the left, front
and back armed with pens and pads, I among them. But while they focus on mathematical formulae
and quick illustrations, I scribble only the main points and my impressions of
this man who has survived 40 years with an illness which took my own mother
within six, who has focused his exceptional mind to contemplate our deepest
questions.
Who would presume that I,
with only two years of college, could simply buy a ticket and sit in the august
presence of so many eggheads, including possibly the smartest man on earth? How many PhDs are here, anyway? However, a large part of the audience seems
to be from all walks of life — children, elders, Aggies, Trekkers — and I feel
I fit right in. All races, all creeds
are here — just like a Trek convention.
Everyone is quiet, dignified, and hanging on his every word. We laugh when he tells a joke and we applaud
when his truths strike us.
The M Theory, Positivist
Philosophy, Mathematical Models that describe and codify observations - these
are the things he's discussing while I write.
Whoosh! It goes right over my
head. Then he captures my attention and
my understanding with his ready wit and down-to-earth humor: Maybe we are a computer game being played by
aliens. The slide show situated
beside a live camera shot of his face flashes a hilarious cartoon depicting
just that.
I must admit that I am reluctant to believe in extra dimensions, he
says. The M Theory states that there are
10-11 dimensions, four of which we can see.
Why don't we observe the other six to seven dimensions? If they exist, they are very small. The professor uses a human hair as an example. Take one off your head and look at it. You easily see the length, and albeit very
small, the breadth and height. Place it
under a microscope. You will see many
other dimensions to the hair, layers wrapped around the original strand. If other dimensions exist, they are similarly
very small: a billionth of a billion centimeters and possibly curled up, as are
the layers of the hair.
Gravity and electrical forces
act differently within branes, which are the shadowy
dark matter present when a planet rests within a hollow of warped space time. Picture a flat plane, or the hood of your car. Now press indentions in the plane, as if
giant hailstones had hit. Place planets
within the indentions. Now shine a light
over the creation. You will see shadows
made by the planets against the walls of the indentions — these are branes. Within a brane gravity extends outward in all directions, and can be
felt, while electricity remains rather flat and one-dimensional. Without dark matter, the universe would 
fly apart.
Perhaps the branes collided at the juncture (see illustration) and
caused the Big Bang. The universe
represented at the top of the illustration is expanding. Imagine a balloon whose surface area is
coated with the galaxies. With this, a
cartoon flashes on the screen. A little
angel with wings blows up a black balloon festooned with stars in recognizable
patterns.
Let's hope there's no one with a cosmic pin to pop the bubble! says Prof. Hawking. A
little devil inches across the screen and sticks a pin into the balloon — POP! The
audience roars with appreciation.
Prof. Hawking then segues
into a discussion and illustration of the creation of a hologram. I know
about holograms, having portrayed one on Star Trek, he notes. More cheers, and the screen shows the entire
scene of the sixth-season Next Generation episode, Descent, in which Prof. Hawking, portraying himself, plays poker
with Einstein, Newton and Commander Data — and wins!
The lecture ends and he
thanks the audience for its attention. There
is a prolonged standing ovation, accompanied by cheers and whistles, during
which many, including myself, take out their cameras. Then Prof. Hawking turns his chair and slowly
rolls off the stage.
Just being in the presence of
this gentle, brilliant, dignified man is worth trying to understand him. He seldom travels these days, so I'll
treasure the memory of this lecture for many years.
The End
Diane Smith is a new contributor to the Trek Nation.