We must conclude from the work of those who have
studied the origin of life,
that given a planet only
approximately like our own, life is almost certain to
start. Of all the planets in our own solar system we arc now pretty certain the
Earth is the only one on which life can survive. Mars is too dry and poor in
oxygen, Venus far too hot, and so is Mercury, and the outer planets have tem-
peratures near absolute zero and
hydrogen-dominated atmospheres. But other
suns, stars as the astronomers call them, are bound to have planets like our own,
and as the number of stars in the
universe is so vast, this possibility becomes
virtual
certainty. There are one hundred thousand million stars in our own
Milky Way alone, and then there are three thousand million other Milky Ways,
or Galaxies, in the
universe. So the number of stars that we know exist is
estimated at about 300 million million million.
Although perhaps only 1 per cent of the life that has started somewhere will
develop into highly complex and intelligent patterns, so vast is the number of
planets that intelligent life is bound to be a natural part of the
universe.
If then we are so certain that other intelligent life exists in the
universe, why
have we had no visitors from outer space yet ? First of all, they may have come to
this planet of ours thousands or millions of years ago, and found our then pre-
vailing primitive state completely uninteresting to their own advanced knowledge.
Professor Ronald Bracewell, a leading American radio-astronomer, argued in
Nature that such a superior civilization, on a visit to our own solar system, may-
have left an
automatic messenger behind to await the possible
awakening of an
advanced civilization. Such a messenger, receiving our radio and television sig-
nals, might well re-transmit them back to its home-planet, although what im-
pression any other civilization would thus get from us is best left unsaid.
But here we come up against the most difficult of all obstacles to contact with
people on other planets--the astronomical distances which separate us. As a
reasonable guess, they might, on an average, be 100 light years away. (A light
year is the distance which light travels at 186,000 miles per second in one year,
namely 6 million million miles.) Radio waves also travel at the speed of light,
and assuming such an
automatic messenger picked up our first broadcasts of the
1920's, the message to its home planet is barely halfway there. Similarly, our
own Present primitive chemical rockets, though good enough to orbit men, have
no chance of transporting us to the nearest other star, four light years away, let
alone distances of tens or hundreds of light years.
Fortunately, there is a 'uniquely
rational way' for us to
communicate with
other intelligent beings, as Walter Sullivan has put it in his excellent recent book,
We are not alone. This depends on the
precise radio-
frequency of the 21-cm
wavelength, or 1420 megacycles per second. It is the natural
frequency of emis-
sion of the
hydrogen atoms in space and was discovered by us in 1951; it must
be known to any kind of radio-astronomer in the
universe.
Once the existence of this wave-length had been discovered, it was not long
before its use as the uniquely recognizable broadcasting
frequency for interstellar
communication was suggested. Without something of this kind, searching for
intelligences on other planets would be like
trying to meet a friend in London
without a Pre-arranged rendezvous and absurdly wandering the streets in the
hope of a chance encounter.
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