REVIEWED by Charles Francois, Editor, International Encyclopedia of Cybernetics and Systemics
"A human being is part of the Whole...He experiences himself, his thoughts and feelings, as something separated from the rest...a kind of optical delusion of his consciousness. This delusion is a kind of prison for us, restricting us to our personal desires and to affection for a few persons nearest us. Our task must be to free ourselves from this prison by widening our circle of compassion to embrace all living creatures and the whole of nature in its beauty. Nobody is able to achieve this completely, but the striving for such achievement is, in itself, a part of the liberation and a foundation for inner security". 
"My friend, all theory is gray, and the Golden tree of life is green." Goethe
It is time we, especially we in the systems movement, stop fighting amongst ourselves. It is time we unify our principles in the true Bertalanffy tradition, not as disparate and competitive systems, but as aspects of one whole. A house divided against itself will collapse, and history is not kind to fallen theories. We are, above all, if we believe our own precepts, a whole, a meaningful family, if you will, and what we do to others we do onto ourselves. To separate "us from them" is to separate everything. "Separate" is not a operational systemic term. It is time to become the whole that we already are.
"In contrast to the mechanistic Cartesian view of the world, the world-view emerging from modern physics can be characterized by words like organic, holistic, and ecological. It might also be called a systems view, in the sense of general systems theory. The universe is no longer seen as a machine, made up of a multitude of objects, but has to be pictured as one indivisible dynamic whole whose parts are essentially interrelated and can be understood only as patterns of a cosmic process". 
The subject of a General Principle, a.k.a. General Systems Theory, is at the root of ISSS's work. Yet little has been done at this most general level. Most systemicists have accepted Bertalanffy's minimal definition - elements, relations and wholes - going on from there to derive their particular system; for example, as Anderson & Carter (1984) write, "Systems models of various kinds are used in many fields besides sociology, so a social system can be thought of as a special case of a more general system model."(1).
But some others go on to create an entire new general system of their own, which they attain by particularizing the general definition somewhat, in effect creating a "sister" GST. For example, the Principia Cybernetica Project within ISSS itself holds, "...that in our time, the age of information, it is systems science and cybernetics, as the general sciences of organization and communication, that can provide the basis for contemporary philosophy." (ISSS Bulletin, 1994, Winter, pp.52.)
The former derivative process results in the same thing being said but in different ways. The latter inventive process, unfortunately, is populated by many who would modify the general system by introducing "something new." This "invention," often contains incorrect assumptions subsequently leading to errors making it difficult if not impossible to understand and use their systems. ISSS has hundreds of such "theories" on record.
Clearly, if in fact there is a General System "out there" our task would be not to "invent" unique conceptual theories, but to describe what we have discovered the best we can. And if in fact there is a general system, it is "necessary" that it can be explained in myriad of ways, yet all will be using the same principle. A General System requires a General Principle. Do we find such a "thing" just about anywhere we look?
ALFRED NORTH WHITEHEAD
"While each scientific theory selects out and abstracts from the world's complexity a peculiar set of relations, philosophy cannot favor any particular region of human enterprise. Through conceptual experimentation it must construct a consistency that can accommodate all dimensions of experience, whether they belong to physics, physiology, psychology, biology, ethics, etc.." (-)
General System Theory, as a science, was formulated by Ludwig von Bertalanffy at the end of the second world war. It was he who formalized the general concepts of General Systems into the science of Systems. While modern systems has a produced a wealth of system, Bertalanffy's premise still holds. What is new is a new emphasis, not so much on "things" anymore, as it is on their relationships, the "patterns," and then, on the whole.
Bertalanffy was not the first, however, to see the patterns of nature, nor was he even the first to see a general pattern. Systems design was discussed by Lao Tzu as early as the 6th Century B.C. The earliest system, the Chinese Yin/Yang is five thousand years old. Now, as we approach the 21st Century, there are hundreds of "systems" under study conceived of either independently or as a result of Bertalanffy's work. The major problem Bertalanffy spoke of long ago, nevertheless, still remains to this day. He said then,
LUDWIG VON BERTALANFFY
"Our civilization seems to be suffering a second curse of Babel: Just as the human race builds a tower of knowledge that reaches to the heavens, we are stricken by a malady in which we find ourselves attempting to communicate with each other in countless tongues of scientific specialization... The only goal of science appeared to be analytical, i.e., the splitting up of reality into ever smaller units and the isolation of individual causal trains...We may state as characteristic of modern science that this scheme of isolable units acting in one-way causality has proven to be insufficient. Hence the appearance, in all fields of science, of notions like wholeness, holistic, organismic, gestalt, etc., which all signify that, in the last resort, we must think in terms of systems of elements in mutual interaction..." 
It is suggested here, as it has been in numerous other studies that the crisis science and humankind are facing in general is much more profound than the difficulty experienced trying to understand different languages. It's not what is written in the language, but the language itself that is problematic. Things are what they do, not what we call them, unless one believes that what we call them is all they do...
"General Systems theory should be an important means of instigating the transfer of principles from one field to another (so that it would) no longer be necessary to duplicate the discovery of the same principles in different fields." [ 8]
Bertalanffy had a vision, a dream that spoke of a greater problem than just the efficiency of knowledge transferal. His perspective was a humanist perspective, a reconstruction of the individual not as a separate entity in a struggle against the world, but in a resonance with the universe.
'There is this hope, I cannot promise you whether or when it will be realized - that the mechanistic paradigm, with all its implications in science as well as in society and our own private life, will be replaced by an organismic or systems paradigm that will offer new pathways for our presently schizophrenic and self-destructive civilization." 
"Indeed, to some extent it has always been necessary and proper for man, in his thinking, to divide things up, if we tried to deal with the whole of reality at once, we would be swamped. However when this mode of thought is applied more broadly to man's notion of himself and the whole world in which he lives, (i.e. in his world-view) then man ceases to regard the resultant divisions as merely useful or convenient and begins to see and experience himself and this world as actually constituted of separately existing fragments. What is needed is a relativistic theory, to give up altogether the notion that the world is constituted of basic objects or building blocks. Rather one has to view the world in terms of universal flux of events and processes." 
We in the systems sciences should be greatly concerned that we may be in a micro-Dark Age brought on by a faulty ontological assumption. True systems thinking, if it is to include natural systems, is a radical departure from the old atomistic thinking that has brought science this far. Systemics, insofar as it would be a mirror of reality, is not just about simply organizing separate entities into something we call a whole (as if it were merely a theory of organizations.) Indeed, the most significant difference between the old and the new is that the "old" fundamental concept of separateness i.e., "things," is not a part of systemic ontology (basis of existence). The ontological basis of being, the object, is not the basis of being in systemics. Look at the black and white of this page, then look at what they are doing, that is how different the new system's thinking is from the old. A door not in use is functionally a wall.
Systems thinking's fundamental concept is the connecting relationship - what things are doing to each other. For example computer Bytes are made of Bits in a meaningful relationship. We never see the Bits themselves, nor do we take them for granted. In a sense of Tao, the Bits, the things, are "flow-mates." (20) A thing is a relationship inside out, so to speak; or, better yet, outside in...
The bottom line is that ultimately things, entities, are, internally, relationships. Classical Ontological existence depends on "qualities" such as color. But the qualities are actually emergent properties of the relationship between relational elements being perceived by us as a different "logical type." It is the expressive relationships (Simplexities), which we perceive as a thing (Simplicites). Therefore, the ontological idea of an "entity" as a disconnected isolated concept is not general enough. This suggests that Classical ontology, as the ontology of all Existence, has no actual basis. This idea is not new, "Maya" is one word to historically describe this particular illusion or "misplaced concreteness."
It follows we need a language of relationships, a language that everyone can understand. We propose that such a transdiscliplinary relational-language can be found in the ordinary and simple language. Indeed, there is already an "Ordinary-Language Philosophy." Wittgenstein has spoken of deriving the meaning of a statement from the contextual relationships between the words. Is is really necessary to create words having a precise meaning, and then not understand them? Or is better to use ordinary words in a contextual way (if you want to be consistent with systemic relational principles) and be able to figure them out? Of particular interest to us are the natural relational-terms, like father or son, or daughter, or sister, or acquaintance, which describe a particular relationship. If we need to create words. they could be functional equivalents of these "friendly" words. Family is such a relational term, that not only describes a whole, but implies all that is implied by our personal idea of what a family is. In a general sense, a system is a family. In a more specific case, a system is a family of relationships. In the sense of what is asked by this paper, General System Science is the family of families. This is not to be unexpected - a system of systems which merge into systems will end up as one system.
The idea of a General System is not necessarily new. If we discard our cultural and spiritual affinities, the concept of a General System can be traced back five thousand years to when the Chinese Yin/Yang was first conceived. Since that time, many writers, East and West, have spoken of a General System, although most if not all of their systems have been stated in the cultural specific language of the author. It is this necessary particularity that limits and confines the system to his culture and subsequently eliminates the generality. We call it the problem of "Misplaced Generality."
The elements of a General Systems View can also be found in the early philosophical writings of the Greeks. That is if we reinterpret them as such. We are going to apply the principles of contextual relations and general systems principles to our first philosophies and see what comes up. It is well worth returning to that early beginning stage, where the axiom "start straight" would apply.
It is rumored that Thales was the first to predict an eclipse on the 28th of May, 585 B.C.. And in fact it did occur. Because there was no distinction between what was philosophy and what was science at that early time, it can be said Thales conducted the first experiment and thus would be the father of science, and May 28th, 585 B.C. would be the birthday. Isaac Asimov also held this view.
Around 585 B.C. Thales of Miletus formulated Western civilization's first philosophy in an attempt to break from the mythical gods of Homer and Hesiod. His rational explanation was the first to replace the magical creation of the Cosmos by the various gods. His idea was simple: the world was constructed of a kind of "stuff", a single thing that made up the world, much like WATER made up the oceans.
But knowledge was not meant to stop evolving and soon afterwards Thales' student, Anaximander, took issue with Thales's model of stuff, water, suggesting that there also was an infinite quality, the Boundless, which was then further modified by Anaximenes to include a specificness about it, much like AIR.
FIRE, "FOR EXAMPLE"
Heraclitus then surmised that Change was an important part of the total picture, a movement from one thing to another much like FIRE consumes and creates new forms of matter. He also spoke of them as the opposites, "What is in opposition, is in concert."
A fifth Ionian philosopher, Empedocles, decided that all of these concepts should be integrated into a whole to include the many not unlike the EARTH integrates all forms of matter. Furthermore, these forces were modulated by the forces of love and hate. Hence the concept of Water, Air, Fire, and Earth was born.
Very little of what Thales actually wrote has been found. What we do have is a verbal account given us by Aristotle. Aristotle's interpretation, however, leads one to believe the four elements actually existed as things, that water, air, fire and earth were actual elements which everything was made of. He also added a fifth celestial sphere, presumably to make it original.
Unfortunately, Aristotle's atomistic treatment of the Ionian philosopher's System as "four elements" -- Water, Air, Fire and Earth missed the point. His approach of four distinct things resulted in a stagnant "elemental" age that lasted more than 1500 years as science sought, instead, to make gold. Secretly of course. Unprofitably, at end...
But what if water was merely an example of Thales "Stuff?" And what if air also was an example of the Boundless? And what if fire was an example of Change rather than the accepted version that everything was fire? And what if earth was an example of what happens when you put all these Together? We would have a Greek General Systems Theory that would rival any we have today, at least of the general sort.
Indeed, if we interpret these elements in this relational manner, we find that we have two primary elements, water and air, which combine like fire combines, the whole of which is one, like the earth. Certainly this idea is not different from our own general system principles. Could they have gotten it right to begin with? There is evidence that such a scenario could have existed.
So far we have discussed the material nature of the world. They story didn't end there. The idea of "mind" arose in Greek thought soon after the material. It was easy to imagine that such a thing existed. Protagoras reasoned that "man is the measure," while Anaxagoras believed in "mind or Nous." Socretes declined to comment on the material nature of the universe, instead used Nous and man to develop the concept of the "Soul" which existed inside of man. At the same time, Gorgias concluded that everything was relative and literally gave up. Aristotle adopted the material, but saw it as entity, not system.
Similarly, Plato's exclusion of the material in his Idealistic perspective stunted the evolution of knowledge of that complementarity of mind/matter, resulting in a illusory Cartesian division of reality. A dualism that has persisted to this very day. And so the stage was set - unity was stated in the dualistic terms - mind and body. This chasm would express itself throughout the ages as the conflict between Idealism and Materialism.
IS THERE A GENERAL SYSTEM? Part Two
By Tom Mandel
THE ATOMOS THEORY
Thales Theory of Stuff led to a different, and most well known
theory of the Atom or Atomos. This theory was not at all well
known at its beginning, however. Leucippus and Democritus formulated the original theory of the atom, conceiving of it as a bit
or atomos existing in a space. Obviously this is a special case of Thales more general model (Schroedinger also made this
comparison.), but not of systems as it leaves out their relationship. The theory went nowhere as it was ridiculed by Aristotle
severely (Aristotle even wanted to burn Democritus' books.) Fortunately, The philosopher Epicurus wrote of the Atomos
concept incorporating it into his philosophy, but that philosophy died off, and with it went the atom theory. Around the turn of
the millennium, he Roman poet Leucretius came across the writings of Epicurus and wrote the long poem "On the Nature of
Things." which incorporated the theory of Atomos. This poem was lost, and with it, all reference to the atom during the dark
ages. It would remain hidden for centuries until a French philosopher Gassendi found it and passed it on to Boyle, (I believe),
and eventually became the second book published on the Gutenberg Press. The poem was read by Dalton who then
modernized the theory of the atom, retaining the name "atom" out of deference to the earlier Greek theory of Atomos.
Ironically, many scientists chose not to believe in the atom,
and general acceptance didn't occur until 1895 when the electron
was found. The final proof of the atom's existence was provided by Einstein in his Brownian Motion paper which ironically
used the same principle "dancing motes of dust in a beam of sunlight " (in his Brownian motion paper) that Leucrtius used in his
poem two thousand years earlier.
As physicists delved into the interior of the atom, theory
after theory crumbled to dust. The absoluteness of Newtonian physics
was shattered when space and time were found to be aspects of each other rather than the separate absolute entities Newton
claimed they were. The accepted methodology of science was proven inadequate and had to be fundamentally changed by
Planck's concept of quanta - a unit of action. Finally, the ontological basis of Identity was disrupted, if not washed away, by
Bohr's complementarity. The Wavacle, described in strict classical terms, is and isn't, contrary to Aristotle's law of the
excluded middle. Yes, a thing can be a thing and not a thing at the same time. Furthermore, as science began to delve even
further into the interior of the atom, looking for the ultimate particle everything must be made of, they found no entity, i.e.,
matter, what they found, succinctly put by Erwin Schroedinger, one of the founders of Quantum mechanics, was,
"Form, not substance - the ultimate concept."
The atom is not a stuff after all...
"Let us now return to our ultimate particles and to small
organizations of particles as atoms or small molecules. The old
about them was that their individuality was based on the identity of matter in them...The new idea is that what is permanent in
these ultimate particles or small aggregates is their shape and organization. The habit of everyday language deceives us and
seems to require, whenever we hear the word shape or form of something. that it must be a material substratum is required to
take on a shape. Scientifically this habit goes back to Aristotle, his causa materialis and causa formalis. But when you come to
the ultimate particles constituting matter, there seems to be no point in thinking of them again as consisting of some material.
They are as it were, pure shape, nothing but shape; what turns up again and again in successive observations is this shape, not
an individual speck of material...
...On the other hand...the mere contention that every observation
depends on both the subject and the object, which are
inextricably interwoven - this contention is hardly new, it is almost as old as science itself...But I must mention one point, in
order not to be accused of injustice towards the quantum physicists of our days. I said their statement that in perception and
observation subject and object are inextricably interwoven is hardly new. But they could make a case that something about it is
new. I think it is true that in previous centuries, when discussing this question, one mostly had in mind two things, viz. (a) a
direct physical impression caused by the object in the subject, and, (b) the state of the subject that receives the impression. As
against this, in the present order of ideas the direct physical causal, influence between the two is regarded as mutual. It is said
that there is also an unavoidable and uncontrollable impression from the side of the subject onto the object. This aspect is new,
and, I should say, more adequate anyhow. For physical action is always inter-action. It always is mutual. " 
PATTERNS THAT CONNECT
Instead the parts, or things, that ontologically must exist,
the physicists found patterns. Instead of a single element of
the physicists found a relationship between different things. Instead of bits and pieces, the physicists found the whole. A new
physics was born. (Eventually it would be found that the new physics must include the old, but both as aspects rather than
separate absolutes.) Gregory Bateson explains it this way:
"My central thesis can now be approached in words. The
pattern which connects is a metapattern. It is a pattern of patterns.
is that metapattern which defines the vast generalization that, indeed, it is patterns which connect." 
PRE-POST-MODERN QUANTA PHYSICS
Several hundred books have been written about the quantum revolution
in elementary physics. The simplicity of the object
under study reduced the variables to a minimum, and thus the problems of investigation were likewise reduced to their
minimums. For a long time enigma after enigma emerged, until finally a new paradigm emerged. While several excellent
summaries of this paradigm shift have been published, Capra's approach fits best with what we are doing in the General
"We live in the wake of a physics revolution comparable
to the Copernican demolition of the anthropocentric world -- a
revolution which began with the invention of the theory of relativity and quantum mechanics in the first decades of this century
and which has left most educated people behind" .
In 1976, Fritjof Capra wrote "The Tao of Physics"
in which he described the parallels in Eastern thought and Quantum
in the common and ordinary language. This book set off a continuing stream of ordinary language philosophical interpretations
of Quantum Physics written in ordinary language for the lay public There also was a resurgence of talk about a General
Theory, the Secret of the Universe, a concept that has settled around the terms Theory of Everything. Below are excerpts
taken from his books and lectures. It is, in our sense, The Best of Systems Thinking from the point of view of physics.
"The dramatic change in concepts and ideas that happened
in physics during the first three decades of this century has
widely discussed by physicists and philosophers for more than fifty years...The intellectual crisis of quantum physicists in the
1920's is mirrored today by a similar but much broader cultural crisis. The major problems of our time...are all different facets
of one single crisis, which is essentially a crisis of perception...Like the crisis in quantum physics, it derives from the fact that
most of us. and especially our large social institutions, subscribe to the concepts of an outdated world view...At the same time
researchers...are developing a new vision of reality...What we are seeing today is a shift of paradigms not only within science
but also in the larger social arena...The social paradigm now receding had dominated our culture for several hundred years,
during which it shaped our modern Western society and has significantly influenced the rest of the world...This paradigm
consists of...the view of the world as a mechanical system, the view of the body as a machine...the view of life as a competitive
struggle...the belief of unlimited of unlimited progress achieved through economic and technological growth and the belief that
the female is subsumed under the male...During recent decades all these assumptions have been severely limited and in need of
radical revision. Indeed, such a revision is mow taking place...In science, the language of systems theory. and especially the
theory of living systems, seems to provide the most appropriate formulation of the new ecological paradigm. I would like to
now specify what is meant by the systems approach...I shall identify five criteria of systems approach...1. Shift from the parts
to the whole. The properties of the parts can be understood only from the dynamics of the whole. In fact, ultimately there are
no parts at all 2. Shift from the structure to the process. In the new paradigm, every structure is seen as a manifestation of an
underlying process. 3. Shift from objective to epistemic science. In the new paradigm, it is believed the epistemology - the
understanding of the process of knowledge - has to be included explicitly in the description of natural phenomenon...4. A shift
from building to networks as a metaphor of knowledge. In the new paradigm, the metaphor of knowledge as a building is being
replaced by that of the network. 5. Shift from truth to approximate descriptions. This insight is crucial to all modern science...in
the new paradigm, it is recognized that all scientific concepts and theories are limited and approximate...One of the most
important insights of the new systems theory is that life and cognition are inseparable. The process of knowledge is also the
process of self-organization, that is, the process of life. Our conventional model of knowledge is one of representation or an
image of independently existing facts which is the model derived from classical physics. From, the new systems point of view,
knowledge is a part of the process of life, of a dialogue between subject and object. I believe that the world view implied by
modern physics is inconsistent with our present society, which does not reflect the interrelatedness we observe in nature. To
achieve such a state of dynamic balance, a radically different social and economic structure will be needed; a cultural revolution
in the true sense of the word. The survival of our whole civilization may depend on whether we can bring about such a change.
It will depend ultimately, on our ability to...experience the wholeness of nature and the art of living with it in harmony." 
(The cutting edge experiment today is Bell's Theorem, and its
philosophical implications are that either there is faster than
travel (arrives before it left), or, b, subatomic particles remain as a whole even while separated by any distance. )
WHERE THERE IS WEST, THERE IS EAST.
While Western civilization began on the shore of the Nile and
Euphrates river deltas, there also arose a Eastern civilization
the shores of the Yangtze river delta, now known as China. Five thousand years ago, a document was produced introducing
the art of acupuncture. In this document reference was made to the Chinese system known a the Yin/Yang. This symbol is said
to be a birds eye view of a mountain, with dark and light side. The form of their symbol implies a movement of the light around
the mountain, a flow, if you will. Indeed, the essence of their system is about movement or flow.
Around the time (3OO-500 B.C.) about when Heraclitus was formulating
his concepts of change, or thereabouts, the Chinese
were hard at work formulating their own system but using pictures to write it down. The Tao Te Ching is thought to be
authored by either a group of writers or by the man called Lao Tzu. It doesn't matter now who wrote it, what mattered was
that at nearly the same time in history, while the Greeks were thinking about their system of earth, the Chinese were also
writing down their system. Thousands of miles away, someone wrote down these words. Compare them to the whole of the
pre-Socratic Greek systems philosophy we have speculated on above --
Written down in the ancient book, Tao Te Ching, Chapter 42, Lao Tzu wrote:
"The Tao begot one,
one begot two,
two begot three.
The three begot the ten thousand things.
The ten thousand things embrace Yin and express Yang.
Harmony is achieved by combining these forces." 
Compare this to the Greek idea of stuff and space and a relationship
as a whole according to the principles of love and hate.
One made two and two is of three and three are many and many are harmonized by Yin/Yang. Systemically, they are the
THE MODERN SYSTEM
Isn't it interesting that the Chinese have written up a system
five thousand years ago, and to this day it hasn't changed?
Moreover, nearly every Chinese book written refers to this concept, clearly it is useful to them.
Isn't there an extraordinary range of "twos" not
only in our literature, but nature as well? What about complementarity?
opposites? Why was Dualism so popular? Where did it fail? Subject - object?
What about that memory trick - "association?" Why
is it easier to remember two things than it is to remember one?
about "this and that?" And everyone knows there are two sides to every coin.
Madden says in "The Structure of Scientific Thought"
(1960, p6) "...let us say, as a simple approximation, that
a law is a
functional relationship between two independently meaningful variables." Minski also observed this in his book, I forgot the
name, in the Glossary under interactionaism, "...I find it curious that most of all laws have been stated as the interaction
between two elements, hardly any are in terms or three or more."
Why is cell division always into two parts? Is it because two
is a part of that particular process? Or is because two is a
necessary? And isn't DNA two?
MODULATE TWO TO GET THREE?
And why is that the one of the few exceptions to the two rule
is color? Not all things come in pairs, there are three primary
colors. Ah, an inconsistency. Of course we could look at them as merely different vibratory frequencies, and there is our two.
But let us work this through.
Yes, color is made of three primary's, not two. But most colors
are made from two, not three, right? At least that is how it is
when I adjust the filters on my color enlarger. Only two of the three are manipulated - never all three. But how the eye deals
with those three is most interesting of all. Those three primaries are matched, as would be expected, by three corresponding
cones in the eye, one cone for each of the three colors. Wouldn't we also expect the pathways from those cones to the brain to
follow this triple scenario? They do not. Instead of three pathways for three colors from the eye to the brain, there are two.
The third pathway is achieved by a modulation of the two. If in fact this is confirmed to be the case, this inconsistency might be
a proof. It is at the least a significant clue.
Of all these examples, the simplest but the most profound is
the fact that it takes at least two somethings to create a difference.
To produce news of difference, i.e., information, there must be two entities real or imagined) such that the difference between
them can be immanent in their mutual relationships; and the whole affair must be such that news of their difference can be
represented as a difference inside some information-processing entity, such as a brain, or, perhaps, a computer. "To what
questions have fifty years of science led me? This chapter has defined and exemplified a manner of search and therefore it is
the moment to raise two questions; For what am I searching? To what questions have fifty years of science led me. The
manner of search is plain to me, it might be called the method of double or multiple comparison."Thus the whole, in which such
instances are placed...become a display inviting the reader to achieve insight by comparing instances one with another,"
STEWARD & COHEN & SIMPLEXITY
"The central aim of science is to render the complexities
of the universe transparent, so that we can see through them to
simplicities beneath...We have to find a way to combine content and context, reductionism and high-level-features, into a
seamless whole. We think that the key is to understand complicity, not as an incredibly complex reductionist network, but as
the interaction of features within different spaces of the possible...So what we need is a theory of features...We must find a
theory of mathematical complicity between the quantitative and the qualitative. 
THEORY OF EVERYTHING
Part of the post-quantum physics dialog centers around the
search for a Theory of Everything as John D Barrow (1991)
outlines in his book, "Theories of Everything, The Quest For Ultimate Explanation." Following is a selection of excerpts that tell
"...modern scientists believed thay have stumbled upon
a key. a "monumental Theory of Everything."..a theory
which will unite all the laws of nature into a single expression... an abbreviated representation of the logic behind the universe's
properties...a single coherent framework...an encapsulation of all the laws of nature...a simple and single representation...the
ultimate directory...an independent prescription which appeals to simplicity, naturalness and economy...a union of perfect and
unique intercompatibility..a general principle...which can be applied in a variety of different situations without becoming
embroiled in their pecularities...Perhaps there exist a whole set of basic rules about the development of complexity which
reduce to some of our simpler laws of nature in situations where the level of complexity is essential nil. If such rules do exist,
then they are not like the laws which the particle physicists seek. But is there any evidence that such principles exist? A
collection of 1027 protons, neutrons and electrons may be all that a desktop computer is at some level, but clearly the way in
which those subatomic particles are put together, is what distinguishes the computer from a crowd of 1027 separate subatomic
particles. ...The question of the existence of a "secret of the Universe" amounts to discovering whether there is some deep
principle from which all other knowledge of the physical world follows..."
But the story of science here does not end here, for Barrow concludes his book with the last statement:
"There is no formula that can deliver all truth, all harmony,
all simplicity. No Theory of Everything can ever provide total
for to see through everything would leave us seeing nothing at all." 
Barrow is right as far as he goes. No particular Theory of
science will ever be general. Science, by definition, cannot explain
everything. The Principle of Verification, which is the cornerstone of empirical science, requires specifics. It is these specifics
that preclude generality. Specifics replace generality (misplaced generality.)P> PRINCIPLE OF EVERYTHING
This problem is old news to General Systems people. The Primer
Group in ISSS is presently dialoging on a general definition
of System(s) in preparation for our ISSS General Systems Primer. Our work has led us to the conclusion that the idea of a
General System "Theory" is wrong. The terms "General" and "Theory" are exclusionary - they cannot be stated at the same
time. A General System "Principle" is a different story, and not even one that we question; Bertalanffy himself said that the
science of Systems is about finding general principles. So their "Theory of Everything" is our "Principle of Everything." We
know what it is, we just don't know how to say it in a way that everyone would understand. Or do we?
AUTOPOETIC GENERAL PART (A) DEFINITION OF GENERAL SYSTEM SCIENCE
We in the Primer Group, have been able, through transdiscliplinary
collaboration, to deconstruct and reconstruct a two-part
complementary dialectical process-based definition of the General System that has none of the pitfalls a strictly scientific
version faces. We are approaching the definition Problem by simply having both a general and a particular as opposed to
having both together. Our postmodern definition, supported by general field theory, can be grasped in one word - Family.
And, we are pleased to report, it works... (14)
ISSS PRIMER GROUP
"A System is a Family of Meaningful Relationships (between the members acting as one whole.)"
While knowledge in Western civilization started out unified
at the beginning of recorded history, the division into the separate
aspects of philosophy and science, as well as it has served us, has produced a world made of myriad parts. Unfortunately, the
chasm between science and philosophy, and along with it the world, has persisted to this day. Subsequently, the lack of
ontological alternatives has misled all of us into believing these so-called parts are real. In some cases this belief leads to a
assumption that these parts are all that is real. Not.
Contrarily, modern science, particularly quantum physics, has
shown us that the universe cannot be described faithfully in terms
of parts, it is better viewed as a whole in which the so-called parts are actually interrelationships woven into a seamless web in
which their distinctions as parts ultimately fades into background. What matters is what they do.
Interestingly, contrary to popular thought, and not at all
like the infinite entities of classical science, the principles
relationships are not that numerous. The elementary families of relationships at the elementary physical level, the forces of
nature, number only four. Three of the four have been unified into one (SEW) and that remains yet to be unified with gravity.
Do we know what the general form of their unification will be?
"A long standing ambition of physicists is to construct
a single master theory that would incorporate all the known forces.
imagines that such a theory would reveal some deep connection between the various forces while accounting for their apparent
diversity. Such a unification has not been attained, but in recent years some progress may have been made...What may
ultimately prove more important, all four forces are now described by means of theories that have the same general form. Thus
if physicists have yet to find a single key that fits all the known locks, at least all the needed keys can be cut from the same
Life is a novel that has no end, and science is like reading
the novel. The story you just read is merely an introduction,
lies beyond is a new beginning. We leave you with a question. What does this "Blank" key look like to you? And what should
ours look like?
 Anderson & Carter, 1984, Human Behavior in the Social Environment. New York, Aldine Publishing
 John D. Barrow, 1991, Theories of Everything. Oxford University Press.
 Gregory Bateson. 1979, Mind and Nature, a Necessary Unity, Bantam Books, New York, pp92.
 Ludwig von Bertalanffy, 1968, General System Theory. New York, George Braziller, pp. 45.
 David Bohm, 1980, Wholeness and the Implicat order. London, Ark,
 Fritjof Capra, 1980, The Turning Point. New York, Bantum, pp. 77.
 Fritjof Capra, The Role of Physics in the Current Change
in Paradigms. in The e World View of Contemporary Physics.
Edited by R.F. Kitchener, New York, State University of New York Press,
 Mark Davidson, 1983, Uncommon Sense, the Life and Thoughts of Ludwig von Bertalanffy. Houghton Mifflin, pp.184.
 Ibid pp. 100.
 A. Einstein, 1954, Ideas and Opinions. New York, Crown Publishers.
 Gia-fu Feng and Jane English, 1972, Tao Te Ching. Random House, New York, Chapter 42.
 Gerard t' Hooft, 1980, Gauge Theories of the Forces Between Elementary Particles. Scientific American, June pp.104.
 Aldous Huxley 1954, The Doors of Perception. New York, Harper and Row, pp. 23.
 Thomas Mandel, 1991, Journal of the Obvious Principle, LaGrange, TNT Press
 Thomas Mandel, 1994 Proceedings, Perspective on General System Principles, ISSS, pp1425
 Heinz Pagels, 1983, The Cosmic Code. Bantum, New Tork, pp. 310.
 Abraham Pais, 1986, Inward Bound. New York, Oxford University Press. pp262
 Erwin Schroedinger, 1952, Science and Humanism. New York, Cambridge University Press, pp. 18.
[20 ] Matthew Shapiro, 1994, Trilogy, One Nature. Unpublished Paper
 D.T. Suzuki, 1956 Zen Buddhism. New York, Doubleday pp174
 M. Mitchell Waldrop, 1992, Complexity, the Emerging Science
at the Edge of Order and Chaos., New York, Simon &
Schuster, pp. 348.
 Ibid pp. 279.
 Alan Watts, 1951, The Wisdom of Insecurity. New York, Vantage books, pp. 44.
 Steven Weinberg, 1992, Dreams of a Final Theory. New York, Vantage, pp6
 Ken Wilber, 1985, The Spectrum of Consciousness. Quest Books, Wheaton, pp176
 Ken Wilber, 1979, No Boundary. Boston, Shambhala, pp. 19-59.
 Cohen & Steward , The Collaspe of Chaos. 1994, New York, Viking Press, pp440.
Comments by Charles Francois;
Dear Tom: "You made a fine start...That first draft of yours is beautiful. I am in complete agreement with your way to understand (and explain) the systemic view. It is an original and powerful systhesis. Also your historical synthesis is of utmost interest. Your quotes are a wonderful selection and always precisely on the point. As a general introduction I think it can be used without any serious modification at all." Charles Francois