Black Holes
Black holes are one of the more bizarre and intriguing predictions of
Einstein's
theory of gravity. Surprisingly, there is now a great deal of
observational
evidence that black holes do exist, both in binary star systems
and at the
center of most galaxies, including our own. Although we are
gaining more
knowledge of black holes, they still remain one of the strangest
things anyone
has ever heard of, and we may never know what exactly one of
these things are
and can do. It is impossible to manufacture black holes in a
laboratory. The
density of matter required is too great. In order to make a
black hole the size
of a baseball, you would have to pack all the matter in
and on the Earth into a
volume the size of a fist. Nature can make black
holes, however. Matter
naturally collapses unless there is some other force
to hold it up. The objects
in a room are kept from collapsing by
electromagnetic forces. The gas in an
active star is held up by thermal
pressure. However, once a star uses up its
thermonuclear fuel, it starts to
collapse, and if there is enough mass to
overcome other, microscopic forces,
it collapses into a black hole. According to
Einstein's theory, if we
could pack enough matter into a small enough volume,
the thing created inside
will get so deep that the matter inside can never
escape. A circle of no
return forms. Any matter that passes the point of no
return can no longer
escape to the outside world. It necessarily keeps
collapsing, moving towards
the center. It gets deeper and deeper until finally a
hole is literally torn
in the fabric of spacetime: the density of matter at the
center becomes
essentially infinite. Thus, what is meant by "a hole in the
fabric of
spacetime" is: a tiny region of space where the known laws of
physics break
down. A black hole is a region of space so tightly packed with
matter, that
nothing, not even light can escape. Hidden at its center is a tear
in the
fabric of spacetime. Stephen Hawking showed in the mid-seventies that
black
holes aren't actually black. They glow in the dark. They emit radiation
via
microscopic processes that occur just outside the horizon. This means
black
holes ultimately evaporate. In reality, though, a solar mass black hole
will
take many times the lifetime of the Universe to evaporate. In some
sense, a
black hole marks a boundary to spacetime: a horizon beyond which no
one can see
without travelling through it. This radius of no return is called
the event
horizon of the black hole. All the bumps and wriggles of the matter
from which
they were formed are smoothed out as the matter contracts, so that
the final
shape of the horizon is always perfectly smooth and round. This is
where
everything gets really weird. To a distant observer, events near the
horizon
appear to slow down. If you drop a clock into a black hole it appears
to tick
more and more slowly as it approaches the event horizon. Time
actually appears
to stop right at the horizon. The clock's motion towards the
black hole also
slows down and to a distant observer it takes literally
forever to fall through.
If you fell in the event horizon with the clock,
you would be sucked into the
singularity in no time. As you fall, time and
space become jumbled, and you
can’t control your falling to the center as
much as you can’t help yourself
falling into the future. Black holes are
definitely one of the most bizarre
things anyone has ever heard of. We will
never totally understand everything
about them. They make up only a small
part of our mysterious universe,
though.