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Brian Greene Lecture
updated: Feb 26, 2013, 2:00 PM
By Robert Bernstein
Physicist Brian Greene sold out UCSB's Campbell Hall for his talk "Explaining the Elegant Universe."
Greene is not only a respected researcher, but is also an engaging and entertaining ambassador of the
field.
Here are my photos from the event.
Greene explained that Galileo and Newton pioneered the use of math to gain insights into the nature of
reality. Even when the equipment to test the theory may not yet exist. This powerful technique succeeds
to this day.
Sometimes the math leads in directions that seem impossible or absurd. Yet that is when the discoveries
can be greatest.
Einstein was able to develop his theories of relativity by asking the kinds of questions a five year old
might ask. "How does gravity really work?" for example. Then he let the math and the physics take him
wherever they might go, however impossible the answers might seem.
The result was a world in which space itself warped to create what we call gravity. It was only later that a
solar eclipse allowed the theory to be confirmed. By watching the sun's gravity warp the light path from
a distant star.
Belgian priest and physicist Georges Lemaître radically applied Einstein's theory to the entire universe.
He concluded the universe cannot be static. It must be expanding or contracting based on the raw math
of general relativity. Einstein said Lemaître's math was brilliant, but the physics was abominable.
Einstein should have realized not to dismiss the physics just because the result was surprising.
Lemaître was in fact correct. The universe was expanding, as Edwin Hubble discovered. And we now
know of the force behind the expansion as "dark energy". Einstein's own equations allowed gravity to
repel as well as to attract.
And this repulsive energy is so great that there is more than enough to drive our own big bang and
cosmic expansion. There is enough left over to create bubbles of other universe creation.
Greene's original research is in string theory, the theory of the very small. But there are now vast
numbers of different string theories. The idea of multiple universes gives a chance for each of these
different theories to exist, each in its own universe!
Thus, the study of the very small connects with the study of the largest of all: The "multiverse" of all
possible universes.
Not all physicists are so quick to resort to such radical solutions. But Greene said we should try to
observe the existence of these other universes. What a great achievement that would be for our
generation, to establish that ours is not the only universe, Greene concluded.
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