Even the brain, that most delicate and complex of all known organs, is not merely a lot of neurons added together. While a genius must have more of the gray matter than a sparrow, the idiot may have just as much as the genius. The difference between them must be explained in terms of how those substances are organized.

We are beginning to see the entire universe as a holographically interlinked network of energy and information, organically whole and self referential at all scales of its existence. We, and all things in the universe, are non-locally connected with each other and with all other things in ways that are unfettered by the hitherto known limitations of space and time.

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Evolution may not “drive” toward humanoid qualities at all, even if it uses them under rather special circumstances. What evolution may be up to could be merely the continuing structuration of the biosphere through increased levels of communication between systems of one level, resulting in more integrated supersystems on the next.

Progressively higher levels of organization are attained as catalytic cycles on one level interlock and form hypercycles: these are systems on a higher level of organization. Thus molecules emerge from a combination of chemically active atoms; protocells emerge from sequences of complex molecules; eukaryotic cells emerge among the prokaryotes; metazoa make their appearance among the protozoa and converge in still higher-level ecological and social systems.

The classical worldview was atomistic and individualistic; it viewed objects as separate from their environments and people as separate from each other and from their surroundings. The systems view perceives connections and communications between people, and between people and nature, and emphasizes community and integrity in both the natural and the human world.

General systems theory is the scientific exploration of "wholes" and "wholeness" which, not so long ago, were considered metaphysical notions transcending the boundaries of science. Hierarchic structure, stability, teleology, differentiation, approach to and maintenance of steady states, goal-directedness — these are a few of such general system properties.

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Imagine a universe made up not of things in space and in time, but of patterned flows extending throughout its reaches. What flows is a mysterious, nonindividualized something we call energy. It flows along pathways structured by the metric of integral space-time. It flows smoothly, without crinks or wrinkles, over vast stretches of this cosmic matrix, and it becomes contorted in some regions.

Systems philosophy first must find out the "nature of the beast" This is the question of what is meant by "system", and how systems are realized in reality in various levels of observation. In Laslo's terms, this is the methodology and theory of natural systems. Secondly, there is epistemology, i.e. the methodology and theory of cognitive systems.

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Values are goals which behavior strives to realize. Any activity that is oriented towards an end is a value-oriented action. To the ancient Greeks, their culture was guided by an attainment of ‘the good life.’ In the early days of Christianity, the ‘good life’ was shifted from this lifetime into the next. Newtonian science and the modern era brought values under rational scrutiny, and a desire for empirical order. Modern capitalism introduced the value of ‘good’ as more production per capita, and ‘better’ as even more production. There is nothing in the sphere of culture which would exempt us from the realm of values—no facts floating around, ready to be grasped without valuations and expectations

In sum, the processes of evolution create initially comparatively simple dynamical systems on particular levels of organisation. The processes then lead to the progressive complexification of the existing systems and, ultimately, to the creation of simpler systems on the next higher organisational level, where complexification begins anew. Thus evolution moves from the simpler to the more complex, and from the lower to the higher level of organisation

The notion of "system" has gained central importance in contemporary science, society and life. In many fields of endeavor, the necessity of a "systems approach" or "systems thinking" is emphasized, new professions called "systems engineering," "systems analysis" and the like have come into being, and there can be little doubt that this this concept marks a genuine, necessary, and consequential development in science and world-view.

With each technological ‘revolution’, more energies began to be accessed, stored, and used than had been in the preceding epoch…On the whole, technological change is irreversible: whatever the nature of a technological revolution, it is always from the hoe to the plough, and not the other way around…Improvement generally means greater efficiency in the use of energy, materials, or information. It means greater speed, less investment of time and money, and operation on a larger scale.