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A compound is composed of basic elements. SAR (Structure Activity Relationship) analysis is possible over the kinds of structure to function relationships that are possible given the state of a compound. Affordance may be created for some future change, change is then seen as a non continuous shift in stability. |
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The set of basic elements are "universals", in the sense that the elements are everywhere the sameAs one of the universals. Example: the helium atoms are all the same, and yet not all the same; depending if one is at the quantum level or the chemical compound level. The emergence of a compound is through relationships formed either in binary or in n-ary compounds binary < a, r, b > n-ary < r, a(1), a(2), . . . a(n) > binary may be written as < r, a(1), a(2) > |
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Stratification of nature into organizational layers. In each layer, the laws of Newtonian physics or some set of laws such as social law governs the interactions of "things" In physical systems this organizational stratification is seen in the physical constants, like Plank's constant, Bolzman's constant, the "c" in th equation E = mc^2. |
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Cross scale phenomenon have elements of non-locality because the time scale is so vastly different, one scale when compared with another scale. The computing backplate uses this feature to update the set of universals; e.g., that set of primatives that are used to generate all observable data in the public communication commons. The generative nature of all designed processes in the communication common is combinatorically rich, and each component is expressed using a set of rules called genealogy. |
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