IF YOU CANNOT THINK OF THREE WAYS OF ABUSING A TOOL, YOU DO NOT UNDERSTAND HOW TO USE IT.

A COMPLEX SYSTEM THAT WORKS IS INVARIABLY FOUND TO HAVE EVOLVED FROM A SIMPLE SYSTEM THAT WORKED.

The inverse proposition also appears to be true:

A COMPLEX SYSTEM DESIGNED FROM SCRATCH NEVER WORKS AND CANNOT BE MADE TO WORK. YOU HAVE TO START OVER, BEGINNING WITH A WORKING SIMPLE SYSTEM.

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"SUCCESS" OR "FUNCTION" IN ANY SYSTEM MAY BE FAILURE IN THE LARGER OR SMALLER SYSTEMS TO WHICH THE SYSTEM IS CONNECTED.

Corollary:

IN SETTING UP A NEW SYSTEM, TREAD SOFTLY. YOU MAY BE DISTURBING ANOTHER SYSTEM THAT IS ACTUALLY WORKING.

Let's start with his own simplest illustration. Tie a knot in a piece of nylon rope. An "overhand knot," as the simplest possible knot, is a good starting point. Hold both ends of the rope and make a loop... [etc.] The procedure applies a set of instructions to a piece of material, and a pattern thereby becomes visible.

What if we had applied the same instructions to a segment of manila roap instead? Or a shoelace? Or even a piece of cooked spaghetti? We would still create an overhand knot... The knot isn't that little bundle that we can see and touch, it's a weightless design, made visible by the rope.

For three-quarters of all the trillions of nights that humans have been on board planet Earth, the Moon has been their most intimate sky companion. For millions of years humans assumed it to be obvious that no one would really touch the Moon. Those who did not assume that to be obvious were obviously loony -- lunatics, "Moon touchers."

In the battle for human power systems to see who is to control the world's people and their economies, the communist U.S.S.R. and the capitalist U.S.A. had been taught by World War II that whoever could fly the highest would gain the observational advantage for controlling the firepower of their guns and thus win the military supremacy of the world. In the "cold" Third World War the U.S.S.R. and U.S.A., inspired by the German rocketry, saw that whoever could maintain the most around-the-world-outer-space-platforms could control around-the-world-firepower. The Moon was just such a "permanent" sky advantage.

Greatly challenged by the Russian's initially most successful space-operating accomplishments, President John Kennedy authorized the funds for the Apollo Project, which had first to do all of the tasks here on Earth preparatory to getting a team of humans ferried over to the Moon, to land, and then to return safely to Earth.

There were obvious first things first to be accomplished -- second things before third things and 7308 things before 7309 things. Some were going to take longer than others. There would be a pattern of start-ups and lead-ins of differing time lengths. This complex, shad-bone-like pattern would be known as "the critical path." The critical path of overall human history's technological evolution involved [approximately] two million things that had to be done before blast-off of the first Earth-to-Moon ferrying-over-and-back....

Now, in 1980, a large number of humans ten years of age and under, all of whom were born after humans reached the Moon, have learned so much about the Apollo Project as to be quite familiar with its critical path accomplishment. They have entered the evolutionary scenario at a spontaneous conceptual level twice as well informed as initially as were any pre-Apollo Project humans.... The under-ten-year-old post-Moon-landers are saying, "Humans can do anything they need to do." They are writing me letters saying so and asking why we don't make our world work satisfactorily for all humans. This is encouraging.

By 1989 those successful Moon-ferry-over conditioned, thoughtful young ones will be twenty. That's just the right age for commanding and executing the 1989 world-embracing design science revolution, which will result in the conversion of humanity into an integrated, omniharmonious, economically successful, one-world family.

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...all mathematical derivation can be viewed as change in representation, making evident what was previously true but obscure. This view can be extended to all of problem solving -- solving a problem simply means representing it so as to make the solution transparent. If the problem solving could actually be organized in these terms, the issue of representation would indeed become central.

Life scripts are based on parental programming, which the child seeks out for three reasons. (1) It gives a purpose to life where it might otherwise be wanting. A child does most things for the sake of people, usually his parents. (2) It gives him an acceptable way to structure time (acceptable, that is, to his parents). (3) People have to be told how to do things. Learning for oneself may be inspiring, but it is not very practical. A man does not become a good pilot by wrecking a few airplanes and learning from his errors. He has to learn through other people's failures, not his own.... So parents program their children by passing on to them what they have learned, or what they think they have learned. If they are losers, they will pass on their loser's programming, and if they are winners, they will pass on that kind of program. The long term always has a story line.

There's also a group of people who are called theoreticians. They will tell you what their beliefs are about the true nature of humans and what the completely "transparent, adjusted, genuine, authentic," etc. person should be, but they don't show you how to do anything.

Most knowledge in the field of psychology is organized in ways that mix together what we call "modeling" -- what traditionally has been called "theorizing" -- and what we consider theology. The descriptions of what people do have been mixed together with descriptions of what really "is." When you mix experience together with theories and wrap them all up in a package, that's a psychotheology. What has developed in psychology is different religious belief systems with very powerful evangelists working from all of these differing orientations.

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Technology without morality is barbarous; morality without technology is impotent.

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Let us summarize the story up to this point. Our illustrious predecessor Erwin Schrodinger gave his book the title What Is Life? but neglected to ask whether the two functions of life, metabolism and replication, are separable or inseparable. Our illustrious predecessor John von Neumann raised the question which Schrodinger had missed and gave it a provisional answer. Von Neumann observed that metabolism and replication, however intricately they may be linked in the biological world as it now exists, are logically separable. It is logically possible to postulate organisms composed of pure hardware, capable of metabolism but incapable of replication. It is possible to postulate organisms composed of pure software, capable of replication but incapable of metabolism. And if the functions of life are separated in this fashion, it is to be expected that the latter type of organism will become an obligitory parasite upon the former.

An evolutionarily stable strategy or ESS is defined as a strategy which, if most members of the population adopt it, cannot be bettered by an alternative strategy. It is a subtle and important idea. Another way of putting it is to say that the best strategy for an individual depends on what the majority of the population are doing. Since the rest of the population consists of individuals, each one trying to maximize his own success, the only strategy which persists will be one which, once evolved, cannot be bettered by any deviant individual. Following a major environmental change there may be a brief period of evolutionary instability, perhaps even oscillation in the population. But once an ESS is achieved it will stay; selection will penalize deviation from it.

An idea is always older than its name. The idea of cybernetics was used implicitly by the French physiologist, Claude Bernard, in 1787. The Scottish physicist, Clerk Maxwell, used it in 1868 in developing the theory of the steam-engine governor. But long before both of them Adam Smith had just as clearly used the idea in his Wealth of Nations (1776). The "invisible hand" that regulates prices to a nicety is clearly this idea. In a free market, says Smith in effect, prices are regulated by negative feedback. The line of thought begun by Smith was carried through in greater detail in the early 1800's by the London stock speculator and brilliant amateur economist, David Ricardo. Because his work is more thorough (and perhaps also because "Smithian" is un-Englishic) the name "Ricardian economics" is often applied to this system of thought.

9 The Written Word: An Eye for an Ear
10 Roads and Paper Routes
11 Numbers: Profile of the Crowd
14 Money: The Poor Man's Credit Card
18 The Printed Word: Architect of Nationalism
20 The Photograph: The Brothel-without-Walls
21 Press: Government by News Leak
25 Telegraph: The Social Hormone
26 The Typewriter: Into the Age of the Iron Whim
30 Radio: The Tribal Drum
32 Weapons: War of the Icons

"The medium is the message" means, in terms of the electronic age, that a totally new environment has been created. The "content" of this new environment is the old mechanized environment of the industrial age. The new environment reprocesses the old one as radically as TV is reprocessing the film. For the "content" of TV is the movie. TV is environmental and imperceptible, like all environments. We are aware only of the "content" or the old environment. When machine production was new, it gradually created an environment whose content was the old environment of agrarian life and the arts and crafts. This older environment was elevated to an art form by the new mechanical environment. The machine turned Nature into an art form. For the first time men began to regard Nature as source of aesthetic and spiritual values. They began to marvel that earlier ages had been so unaware of the world of Nature as Art. Each new technology creates a new environment which is itself regarded as corrupt and degrading. Yet the new one turns its predecessor into an art form. When writing was new, Plato transformed the old oral dialog into an art form. When printing was new the Middle Ages became an art form. "The Elizabethan world view" was a view of the Middle Ages. And the industrial age turned the Renaissance into an art form as seen in the work of Jacob Burckhardt. Siegfried Giedion, in turn, has in the electric age taught us to see the entire process of mechanization as an art process.

In Kandangan village the people became co-producers with us in making a film. The initial proposal came from us, but the actual filming of an initiation ceremony became largely their production.... The initiates were barely conscious at the end of their ordeal, but they grinned happily when shown Polaroid shots of their scarified backs. The elders asked to have the sound track played back to them. They then asked that the film be brought back and projected, promising to erect another sacred enclosure for the screening.

Finally they announced that this was to be the last involuntary initiation, and they offered for sale their sacred water drums, the most sacred objects in this ceremony. Film threatened to replace a ceremony hundreds, perhaps thousands, of years old.

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[French Guinea prince] Modupe left Africa for the United States where he studied anthropology, then worked for MGM as an actor and consultant. To avoid offending African governments, MGM insisted that no film on Africa resemble Africa. Moduope's task was purely creative: design buildings, songs, shields, dances, masks, even "languages," all of which Americans would accept as authentically African but which no African would recognize as his. Module was so successful at this that he convinced even Africans and they modified their art accordingly.

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To depict a whole object on a flat surface, literate man employs three- dimensional perspective: he shows only that surface visible from a single position at a single moment. In short, he fails.

In contrast, native artists of British Columbia represent a bear, say, in full face and profile, from back, above and below, from within and without, all simultaneously. By an extraordinary mixture of convention and realism, these butcher-draftsmen skinned and boned and even removed the entrails, to to construct a new being, on a flat surface, that retained every significant element of the whole creature.

It also wants to be expensive.

Information wants to be free because it has become so cheap to distribute, copy and recombine -- too cheap to meter. It wants to be expensive because it can be immeasurably valuable to the recipient. That tension will not go away. It leads to endless wrenching debate about price, copyright, "intellectual property," and the moral rightness of casual distribution, because each round of new devices makes the tension worse, not better.

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grapeshot, n. An argument which the future is preparing in answer to the demands of American Socialism.

habit, n. A shackle for the free.

hope, n. Desire and expectation rolled into one.

intention, n. The mind's sense of the prevalence of one set of influences over another set; an effect whose cause is the immanence, immediate or remote, of the performance of an involuntary act.

However, while it is easy to criticize the subjectivistic interpretation of irreversibility and to point out its weaknesses, it is not so easy to go beyond it and formulate an "objective" theory of irreversible processes. The history of the subject has some dramatic overtones. Many people believe that it is the recognition of the basic difficulties involved that may have lead to Boltzmann's suicide in 1906.

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Do the forms of the living organism merely betray the character of the watery phase through which they have passed, or is it that the water itself, impressionable as it is, is subject to living, formative forces and creative ideas of which it is but the visible expression? If so water as such would be the embodiment a higher world of forces penetrating through it to the material world and using it to form the living organisms.

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-- Arthur C. Clark, Profiles of the Future

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If you enjoy juggling straight razors, then you'll enjoy working with today's operating systems.

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Historian Henry Adams came away from the 1900 Trocadero Exposition in Paris with a new way of viewing the machine. He concluded that what the Church had been to medieval culture, the dynamo was to ours -- an idea he expressed by metaphorically juxtaposing "The Dynamo and the Virgin" in The Education of Henry Adams. In it he wrote: "The new American, like the new European, was the servant of the power house."

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Bjerknes' Weather Mechanics

With the advent of the telegraph came widespread simultaneous weather reports. Forecasters drew weather charts, then made predictions by following the movement of weather conditions across them.

But Norwegian physicist Vilhelm Bjerknes saw that accurate forecasting would depend on mathematical techniques for describing atmospheric behavior. He shifted the focus of weather prediction back to problems of mechanics and physics.

However, the mathematical techniques Bjerknes sought did not appear until Lewis Fry Richardson developed them during World War I. And the technology for implementing them did not appear until the forties.

A student of Poincare and Heinrich Hertz, Vilhelm Bjerknes' early training was in the field of hydrodynamics. His work on electronic resonance aided in the development of the electromagnetic theory of radiation.

Weather Forecasting as a Problem in Mechanics and Physics, in which Bjerknes suggested methods of predicting weather by translating weather data into mathematical terms, was first published in [Meteorologische Zeitschrift, an] Austrian meteorological journal in 1904.

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When the practicality of his work was challenged, Bjerknes replied: "It may require many years to bore a tunnel through a mountain. Many a laborer may not live to see the cut finished. Nevertheless this will not prevent later comers from riding through the tunnel at express-train speed."

A Weather Forecast Factory

Nearly forty years before electronic computers, Lewis Fry Richardson imagined a "forecasting factory" in which thousands of mathematicians raced the weather around the globe. From this factory he developed the basis for a model for numerical weather prediction. The model was fundamentally the same as that used today by computers.

"After so much hard reasoning, may one play with a fantasy? Imagine a large hall like a theater.... The walls of this chamber are painted to form a map of the globe. The ceiling represents the north polar regions, England is in the gallery, the tropics in the upper circle, Australia on the dress circle and the antarctic in the pit. A myriad of computers [human] are at work upon the weather of the part of the map where each sits, but each computer attends to only one equation or part of equation... Numerous little 'night signs' display the instantaneous values so that neighboring computers can read them. Each number is thus displayed in three adjacent zones so as to maintain communi- cation to the North and South on the map. From the floor of the pit a tall pillar rises to half the height of the hall. It carries a large pulpit on its top. In this sits the man in charge of the whole theater... One of his duties is to maintain a uniform speed of progress in all parts of the globe. In this respect he is like the conductor of an orchestra in which the instru- ments are slide-rules and calculating machines. But instead of waving a baton he turns a beam of rosy light upon those who are behindhand."

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In his book The Mathematical Psychology of War, Richardson tried to apply mathematical concepts and techniques to the examination of human conflict.

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What sorts of tools? Computing is a broad field, and we can't begin to cover every kind of application. Instead we have concentrated on an activity which is central to programming -- tools that help us develop other programs. They are programs that we use regularly, most of them every day; we used essentially all of them while we were writing this book.

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Often the manual is kept on-line so that you can read it on your terminal. If you get stuck on something, and can't find expert help, you can print any manual page on your terminal with the command man command-name. Thus to read about the who command type:

$ man who

and, of course,

$ man man

tells about the man command.

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It seems that all evolution is coevolution. The beauty of the term is what it adds to the concepts of ecology. Language such as "preserving the ecology" suggests something quite perfect -- static, knowable, oriented backward, unwelcoming to human foolishness... unreal. Ecology is whole system alright, but coevolution is whole system in TIME. The health of it is forward -- systemic self-education which feeds on constant imperfection. We coevolving watchers and meddlers are not left out of it.

Ecology maintains. Coevolution learns.