scientific analysis/reflection: the intelligent universe
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Faces at the Skylight: The Intelligent Universe
By David Pendery
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What a piece of work is man! how noble in reason,
how infinite in faculties, in form and moving how
express and admirable, in action how like an angel,
in apprehension how like a god
Hamlet, Act II, Scene II.
Theres a divinity that shapes our ends,
Rough-hew them how we will.
Hamlet, Act V, Scene II.
To the dull mind all nature is leaden.
To the illumined mind the whole world
burns and sparkles with light.
Ralph Waldo Emerson
All fact-collectors, who have no aim beyond their facts, are one-
story men. Two-story men compare, reason, generalize, using the
labors of the fact collectors as well as their own. Three-story men
idealize, imagine, predict: their best illumination comes from
above, through the skylight.
Oliver Wendell Holmes, Sr.
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Note
Some years ago I picked up Fred Hoyles The Intelligent Universe at the suggestion of a
friend. The book opens with such an arresting passage, that I will quote it at length here:
A generation or more ago a profound disservice was done to popular thought by the no-
tion that a horde of monkeys thumping away on typewriters could eventually arrive at
the plays of Shakespeare. This idea is wrongfor the whole Universe observed by as-
tronomers would not be remotely large enough to hold the horde of monkeys needed to
write even one scene from one Shakespeare play, or to hold their typewriters, and cer-
tainly not the wastepaper baskets needed for throwing out the volumes of rubbish
which the monkeys would type. The striking point is that the only practicable way for
the Universe to produce the plays of Shakespeare was through the existence of life pro-
ducing Shakespeare himself. Despite this, the entire structure of orthodox biology stillholds that life arose at random. Yet as biochemists discover more and more about the
awesome complexity of life, it is apparent that the chances of it originating by accident
are so minute that they can be completely ruled out. Life cannot have arisen by
chance. 1
As you can see, we are in for a ride with Mr. Hoyle. The Intelligent Universe is brazenly
iconoclastic (he devotes much of his energy to attacking Darwinism and the presumed mecha-
nisms of natural selection), but rich in ideas and elaborate thinking. As well, Hoyle, a noted as-
tronomer and physicist, supports his thinking with scientific examples.
The Intelligent Universe is an excellent book, engagingly written and illustrated, full of chal-
lenging assertions. And in the end, even if one cannot be shaken from ones orthodox scientific
beliefs, one can at least credit Hoyles optimistic and respectful treatment of humanitys greatest
asset: our intelligence. His aim, in a sense, is to give us back our intelligence and free will; to as-
sign to them greater importance than the mere deterministic survival mechanisms that orthodox
biology would have us believe.
David Pendery
1 Fred Hoyle The Intelligent Universe. New York: Holt, Rinehart and Winston, 1983.
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Faces at the Skylight: The Intelligent Universe
By David Pendery
As we humans make our way in our lives, encountering love and hate, reward and injustice,
order and chaos, virtue and immorality, belief and pessimism, hope and despair, courage and
cowardicethen most of us at one time or another ask ourselves whether there is any purpose,
larger design or object to our existence. Many experiences can elicit such musings. Deep pain or
what seems to be pointless or inexplicable loss can force upon us ethical and philosophical ques-
tions that seem to demand explanation (or at least serious reflection and thought). Good fortune,
or the common experience of karma (good or bad) also engender thoughts about lifes meaning.
In fact, we can be so attuned to lifes possible meaning, that in the morning we may find our-
selves reveling in the beautiful code that often seems to dictate human behavior, and, in the
form of ethics, morality, religion, cooperation, compassion or kindness can be inspiring in its util-
ity, generosity, depth and grandeur. But that very evening, after watching the television news, we
may be enveloped in despair, and cry What code? when we see the degradations that humans
can sink to.
To go through life without asking the really searching questions would constitute a barren
inner existence indeed. And the very fact that humans can enjoy and explore such a rich inner life
seems to point to the possibility of a larger purpose to our species.
Biologists tell usand back up the claim with impressive evidencethat there is no true pur-
pose. The purpose is continuity of the species, they say, and there is no other purpose than that.
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that. The human code is itself a survival mechanism, a useful tool that allows humans to cooper-
ate when such behavior is expeditious, and is thus favored by natural selection.
This conflict between the biologists and those who see or want to see a grander order and
purpose to humanitys existence is, of course, the stuff of legend. Although the biologists have in
many respects won this war, there remain, for many thoughtful observers, unanswered questions:
Can we account for the intricate complexity of life within a purely terrestrial, anthropocentric
view of its origins? In addition to natural selection, does the fossil record suggest other important
mechanisms of evolution? Why are the chaos and entropy predicted by physics (whether Newto-
nian or quantum) actually reversed in the arena of lifes growing evolving complexity and perfec-
tion? And are the many different variationsparticularly the really influential variations
available to natural selection adequately explained? As well, there are spectacular human attrib-
utes that seem to have no particular use in the doctrine of survival of the fittest.
In keeping with the tradition of skeptics and philosophers who have challenged the orthodox,
and have often provided the counter-currents of thought that invoke criticism, curiosity and de-
bate, I, with Fred Hoyle as my guide, will explore some of these questions and whether or not
there could be a larger intelligence at work in the universe, prodding and prompting, coaxing and
controlling evolution and human development.
Biology tells us that all life on Earth has evolved from a common ancestor, and that that an-
cestor itself originally emerged as a complex of amino acids and/or other organic compounds
from a primordial soup some billions of years ago. Amino acidsfairly simple organic com-
poundshave been produced in the laboratory in conditions that are believed to be similar to
those on Earth in its earliest history. Stanley Miller and Harold Urey conducted the most famous
of these experiments in the early 1950s. After applying electric charges to a laboratory atmos-
phere of hydrogen, methane, ammonia and other gases, they indeed discovered that amino acids
and nitrogenous bases had been created. This is good evidence of the spontaneous creation of the
basic components of life on earth, but evidence of these basic building blocks combining into
ever more complex and numerous series of proteins and then life forms stretches the bounds of
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plausibility. Hoyle notes that the probability of the random assembly of amino acids (for biology
does insist on such random, undirected assembly) into the some 2,000 enzymes that are found in
different organisms (to say nothing of the thousands of other proteins that life forms utilize) is
approximately equal to rolling 50,000 consecutive sixes with two dice. Although such statistics
are open to interpretation, Hoyle does use other such examples to make several interesting points
about the formation of life on Earth. For example, to solve the Rubik cube (remember the Rubik
cube?) entirely at random, as a blindfolded player would try to do, could take, at one move per
second, about 1,350,000,000,000 yearsabout 300 times the age of the Earth! Surely we can
equate the formation of a complex protein to the correct sequence of moves to solve the Rubik
cube. And so, when we consider the thousands and thousands of proteins that are required for life
to continue and evolve, then the random assembly of amino acids into complex proteins with in-
tricate functions seems an inadequate and almost unimaginably unlikely mechanism to achieve
this end. In short, unintelligent selection is only too likely to produce an unintelligent result
(Hoyle, 244).In contrast, intelligence-driven selection could, to use the above example, solve the
Rubik cube in a matter of hours. What is the source of sciences reliance on processes that we can
logically see, and intuitively feel, are highly improbable?
The source is Darwinism itself. Darwinism has led us to believe that the development of life
[is] an inevitable product of the purely local natural processes (Hoyle, 23). Thus, given enough
time (and, ultimately, variation) anything is possible, including (or, especially) the emergence of
hundreds of thousands of distinct species of plants and animals with a stupendous range of inter-
action, abilities and functions.
Genetic variation and its cousin, mutation, are two of Darwinisms pillars. These are the
sources of the variation that natural selection works upon. This is true enough, but to look at these
mechanisms in purely orthodox terms overlooks key questions and doubts about their utility in
evolution. Recombination of DNA in the gametes, and the subsequent pairing off of the chromo-
somes, is most assuredly the largest source of variation in humans. Yet most of this (un-mutated)
variation is of a fairly unimpressive scope. The sieve that is natural selection is likely to pass by
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subject to lapses), and is an example of a human characteristic that seems to defy the gradual,
one-way path of evolution. I shall return to other such examples.
I have so far examined some of the basic complaints that some scientists (like Hoyle and
none other than Francis Crick) have made about Darwinism and natural selection as the sole
mechanisms for the emergence and development of life. Yet clearly natural selection exists, and
any alternative hypothesis about evolution must rely on its fundamentals. As I have noted, the
random nature of evolution, variation and the origin of life has been the chief doubt clouding the
leap of faith necessary to explain its spectacular development. What different factor has been of-
fered as a an explanation for the rise of the intricate, abundant, amazingly interactive array of life
of Earth?
Panspermia is the most comprehensive theory. Originated by the Swedish chemist/physicist
Svante Arrhenius (Nobel Prize in chemistry, 1903), the theory postulates that microorganisms
from throughout the Universe have seeded Earth, initiating the key chemical reactions that led
to the emergence of life. While no doubt largely speculative, evidence has been gathered that can
support panspermia . Organisms have occasionally been gathered from high in the Earths atmos-
phere, and, more importantly, there is intriguing evidence that fossilized microorganisms and vi-
ruses have been found in meteorites, indicating life outside Earth, as well as a vehicle for its
dispersion in the universe. Scientists have certainly questioned whether such microorganisms and
viruses could survive a long journey through the low-pressure, high-radiation environment of
space. Interestingly, though, bacteria and viruses have been identified in incredibly hostile envi-
ronments right here on Earth. Why, for example, have bacteria been found within the core of nu-
clear reactors, such as pseudomonas , located in 1960? This organism, as well as micrococcus
radiophilus , which can also withstand enormous doses of radiation, exist in environments that
have never even been present on Earth. Why would they have emerged at all, and what role could
natural selection have played in their development? The characteristics of these organisms and
others that can survive extremely high and low temperatures suggest that some life is equipped
for space travel (they would still need some protective skin of, perhaps, carbon).
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Seeds from space, wafting down onto Earth (they dont truly waft down, of course, and
though many would be obliterated in the descent, it is not outside the realm of possibility that
some would survive) provide some interesting perspectives on Earthbound evolution. The theory
of punctuated equilibriumthe idea that the primary advances in evolution have occurred in
great leaps (in addition to the gradual process suggested by Darwin)could be explained by sud-
den appearances of new viral genetic material from space in Earths gene pool. Viruses, we know,
have the amazing ability to commandeer a hosts DNA, and splice in new genetic material. This
new genetic material (given that the virus was not lethal) would either be stored in organisms for
eventual use and selection, or immediately put to use by a whole population, resulting in evolu-
tionary jumpspunctuated equilibrium.
Another aspect of evolution explained by panspermia is the incidence of mimicry in nature.
Darwinism explains the fact that some insects mimic their surroundings (walking sticks, crab spi-
ders, eyed moths etc.) as the result of chance miscopyings of the organisms genetic code,
which resulted in an advantage favored by natural selection, resulting in more successful repro-
duction of the organism. Possibly the genetic error or change was rather minor (such as the subtle
emergence of a tigers stripes from an unstriped ancestor), but this change was gradually en-
hanced as speciation occurred over thousands and millions of years.
Problems crop up with this explanation. The gradual emergence of some favorable character-
istic seems implausible, for their initial emergence would more likely be a hindrance to the organ-
isms survival. The early development of a false eye on a moth, or the yellow coloration of the
crab spider would likely only have attracted the attention of predators. Another example used by
Hoyle is the spiders web. The first incarnation of this unique trapping tool could not have been
more than a few useless strands of silk, catching no prey. How could the spider have been favora-
bly granted thousands or millions of years of experimentation which must have been required to
develop its complex web? The installation of new genetic material from space explains these
problems. The spiders web may be the result of genetic alteration influenced by interstellar or-
ganisms or viruses. As for the crab spiders exact mimicry of nearby vegetation, it is possible that
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the two organisms were influenced by the same genes (seeds). The genetic material descended
from the sky, reprogrammed both organisms genetic structures, and resulted in a segment of their
DNA codes (in this case, color) being identical.
The tigers stripes, other coloration and mimicry, or the spiders web can all be viewed this
way as much more abrupt occurrences than generally thought, conferring on the organism almost
immediately (in evolutionary terms) a desirable advantage.
Let us now jump to the present and recent past to examine a fundamental and encompassing
theory of physics, and its ramifications concerning our topic.
Quantum physics and mechanics, possibly even more than Darwinism, is considered a hard
and fast fact of life by almost all scientists. Quantum physics has proven to be uncannily reliable
in its predictions and explanations of the universe and life. I do not have the expertise to delve
deeply into this subject, but a few examples will illustrate how some tenets of quantum physics
are defied by the development of life and its complexity.
At the subatomic quantum level, we have no way of knowing or predicting an experimental
result, as all results are equally possible until and only until the experimenter has observed the
result at a given moment in time. As simple an idea as that of setting an electron bouncing from
one point to another inside a box and then predicting its position at a certain time (easily done in
Newtonian physics) is made useless in the quantum world. All positions of the electron are
equally possible, and, in a sense, the electron does not actually occupy any position until it is ob-
served. Quantum physics destroys the notion of a truly causal or deterministic universe. Rather
than a predictable cause-and-effect relationships, quantum physics should produce a universe
which becomes more and more indefinite (Hoyle 200). Classical physics, too, predicts that sys-
tems will ultimately decay.
Yet this is exactly the opposite of what we witness. Instead, evolution produces more and
more complex structures and organisms that are more and more capable of functioning in their
environments. Mankind is particularly subject to this improvement. In fact, more so. Humans
possess amazingI daresay awesomeabilities that seem to thumb their nose at evolution. The
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thoughts and works of historys great geniuses (there is no need to furnish a list here; the reader
knows of what I speak) seem to have occurred extra-evolutionarily (a mouthful, I realize). There
are many examples, both individually and socially, of talents and interests that seem to be unique
to humans, outside of the insensible influence of evolution. For example, what particular survival
interest motivated prehistoric humans to create beautiful skilled artwork on the walls of their
caves? And what is it in human genetics that allows great geniuses to emerge, propagating ideas
that are often over the heads of almost the entire human race (as highly complex mathematics)?
How has evolution shaped such ability? Rather, such genius is more like punctuated equilibrium,
an unleashing of human potential.
Curiously, though, evolution and natural selection seem to have had virtually no effect for
eons on many other speciesparticularly insects and microorganisms. This is another open ques-
tion of Darwinism.
I am not trying to gainsay the canon of modern science. Quantum physics, natural selection,
evolutionall exist. Rather, I feel there may be more at work in their processes. There may be a
powerful factor at large in the universe that influences evolution, and even countermands the in-
tuitive and observed effects of quantum and classical physics. What could that factor be?
Why mince words? The factor is intelligence itself. Hoyle develops a lengthy, fascinating,
somewhat abstract theory of how intelligence is propagated in the universe, what forms it might
take, and how it could affect humanitys future. Much of his work is conjectural, and I venture to
guess that he has been shouted down by many an established scientist. His ideas of microorgan-
isms inhabiting the universe and being the principle catalysts in lifes development, and that these
microorganisms are intelligently guided, are at times far-fetched but nonetheless refreshing. In
fact, I find the central idea that intelligence exists throughout the universealmost all of such
intelligence existing in microbial or simple chemical form, and being, rather, potential intelli-
gencea fascinating outlook.
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If one were to ask a cross-section of people what they thought was humanitys most unique
and important characteristic, many would no doubt say, Intelligence. That capacityuseful as a
survival mechanism rewarding for its own sake, often eerily advanced and ranging in its finest
embodimentsseparates humanity from all other species. Our intelligence is so advanced (with
notable exceptions) that we have come to realize that that very intelligence (or consciousness) is
an integral part of the physical world, in that it intertwines with and influences outcomes (as in
the quantum physics we examined above). Our intelligence and consciousness seem to have a
woven relationship to the microworld in this waywhy not connect it to the universe at large? I
want to believecall me an idealistthat intelligence is not strictly terrestrial; not simply earth-
bound. It may indeed be present in the universe, in microbial (it all starts from that level, and I
believe that in the smallest piece can be found the entire story), or, more abstractly, ideational
form. Physics tells us that when we view a quantum event we insert ourselves into that event,
becoming a key part of the reality. I see no difference between this inward-looking perspective,
and when we look outward, viewing and photographing and interpreting stars, planets, cosmic gas
clouds, black holes, galaxies and all manner of light in the universe. As we do this, we are insert-
ing our consciousness and intelligence into the universe beyond, becoming a part of those reali-
ties. In this way, as perhaps we have always suspected, intelligence is more than merely an
earthbound development. We have emerged from and live in a universe fairly glittering with in-
telligence and potential.