Systems and/or Sub Systems as Expressed

A Mathematically Dominant Paradigm

I believe this "System(s)" paradigm has been utilized thru ought "known" history with all recognized knowledge paradigms. While listening to a Great Books tape loaned from the Denver Public Library in a Philosophy group at CHARG Resource Center the tape quoted an early renaissance thinker as saying “All things are equal". As a graduate with a Bachelors of Science and a Bible reader I realized how this is held true in both of these Theological and Scientific paradigms. But both paradigms utilize this truth with their own disciplines in so called different ways.

To make a long explanation short, Renaissance and now scientific thought uses these Systems and/or Sub Systems concepts extensively and thoroughly in their pursuit of knowledge, but this usage has been entirely implicitly and/or explicitly in the recognition of these systems concepts and terms. The renaissance movement owed their success to this recognition, but now Science is doomed to another terminal series as expressed per their own utilized explicit without implicit axioms. Objective, reproducible, and developable or reducible behavior is not sufficient to guarantee a viable knowledge paradigm. Zim Olson's Systems Math again opens the doors for utilization of all these systems concepts as explicit terms. Renaissance thinking is again viable.

Four Behavioral Components for any Existential System / Object: Every object has a functional context, Every(x); a System and no Sub System functionality Any(x) or f(x); A Non stated functionality, Non(x); and a resultant intersecting functionality, Some(x).

Historical: These concepts have been used throughout known History. These terms have been to a large extent explicit/implicit in our understanding; Theologies, knowledge, knowledge theory, law, businesses and economies. These and other understandings have laid claim to various portions of the system and/or sub system paradigm.

Current Perspective on Systems and Usage: Science utilizes the system or functionality portion of this paradigm. Theologies still utilize this paradigm for a principal system, but do not agree on the existence or content of the behavioral components. 'Earthly' disciplines such as business, government, Information sciences, utilize and recognize the behavioral components but have not come to terms on an existential basis.

Systems and/or Sub Systems as Dominant Mathematical Paradigm: Zim Mathematics describes every object as possessing these behavioral components, including operations, numeric, unknown objects, qualitative or physical object and/or object(s). And that every of these object(s) can be expressed as a System and/or Sub System with varying existential results. Physical, qualitative, time attributes, illness and death are simply a partial system expression.

f(1) + - / × => f(0) + - / × => f(1+0) + - / × => f(1,0)= + - / ×

Giving this tenet for any object expressed as a complete System or expressed Sub System.

g(1) + - / × = g(0) + - / × = g(1+0) + - / × = g(1,0)= + - / ×

Unknown operations as complete Systems are said to be also applicable with these numerical values. These expressions are develop able and reducible within identifiable principal and/or pseudo and/or open domains giving viable knowledge.

Every(_)Any(_)Some(_)Non(_)

Every(X)Any(X)Some(X)Non(X)

Every(W)Any(X)Some(Y)Non(Z)

Every(X)Any(X)Some(X)Non(X)

Every(W)Any(X)Some(Y)Non(Z)

Every(_)Any(_)Some(_)Non(_)

Every(1)Any(1)Some(1)Non(1)

Every(0)Any(0)Some(0)Non(0)

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Creative Math

Every(X)Any(X)Some(X)Non(X)

Every(W)Any(X)Some(Y)Non(Z)

Every(_)Any(_)Some(_)Non(_)

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Creativity

This gives the following available Pseudo Objects and/or Principal Expression Object(s):

X, Y, Xx, Yy, Xy, Yx, X0, 0x, X(1+0), X(1,0), XN, X . . . X, A . . . Z, X . . . Y, Xx . . . Xy, X1 . . . X0, X0 . . . Y1, X0 . . . X0, X0 , , , Y0, X(1+0) , , , Y(1+0), X(1,0) . . . Y(1,0), XN . . . Y(1+0), etc !

Expression combinations of these Pseudo and/or Principal outlines represent sources to all contemporary (and otherwise) paradigms of knowledge. Expression combinations of principal numeric objects, 1,0,1+0, 1 and/or 0, as systems reveal expression domain sources that explain contemporary physical expression domains such as for Beginnings, Endings, Series, Terminal Series, Infinite Series, Events, Non-Events, True/False, Success/Failure, Luck/Bad Luck, .... Time, Space, Time/Space Relativity, Gravity, better than the physical sciences have described themselves .. Expression of object and /or objects as some form of exhaustive parameterization construct or "A-Z", could give recognizable and identifiable variations of "E=MC2" expressions.

Pseudo numeric expressions of life object or object(s) or Non-Life object or object(s) may give derivative sources to illness and life system(s) death phenomena. Cures or healing may become readily apparent as the terms or basis for this non-health phenomena are revealed. If you are a die hard statistician and probability theorist there are always principal and/or pseudo numeric expressions one and/or zero with variable pseudo and /or principal open domains or expression domain outlines.

These expressions of course also give our sources to system(s) Logic and corresponding functionalities .

Every(X)Any(X)Some(X)Non(X)Every(W)Any(X)Some(Y)NonZ)(__) = (__, __, ... __) Every(X)Any(X)Some(X)Non(X)Every(W)Any(X)Some(Y)NonZ)(__) = (__, __)

Every(X)Any(X)Some(X)Non(X) Every(W)Any(X)Some(Y)NonZ)(__) = (__)

Every(X)Any(X)Some(X)Non(X) Every(W)Any(X)Some(Y)NonZ)(__, __, ... __) = (__)

Every(X)Any(X)Some(X)Non(X) Every(W)Any(X)Some(Y)NonZ)(__, __) = (__)

Every(X)Any(X)Some(X)Non(X) Every(W)Any(X)Some(Y)NonZ)(__) = (__)

(1,0)Every(X)(Any(X)Some(X)Non(X)

Every(__)Any(+)Some(__)Non(__)

Every(W)Any(X)Some(Y)Non(Z)

Earth-Mankind System giving unique expression outcome for any time expression

Every(1)Any(N)Some(1)Non(1)

or

Every(1)Any(N)Some(1,0)Non(1)

___, ___

___, ___, . . . ___.

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Zim Olson's Existential Synopsis

Upcoming Series - Non Logic + Zim Mathematics w/ System(s) and Expression Math terms/concepts. Giving additional development in Creative Math Domains.

I imagine there will ALWAYS be more explaining to do for a System(s) and/or Sub System(s) as Expressed Paradigm. And in case not noted by reader, this is considered within "open domain(s)". Otherwise I consider this paradigm is fairly well set in "Stone" or at least Zim Mathematics "html". "Open Domain Development" is a future topic of interest for Zim Olson & Zim Mathematics. The recognized domain of Human Intelligence, Expressions of Expressions .... of Expressions, has made Earthly Mathematics of this domain seem untenable. However we do have available recognized Express-ability options such as Expressions of Expressions ....of Expression of Pseudo and/or Principal and/or open Domain(s). Below is one such expression outline in my interest of Mathematical Open Domain development and possible Principal Expression(s) of such outlines.

Every(1)

Every(X)Any(X)Some(X)Non(X)

Any(1)

Every(X)Any(X)Some(X)Non(X)

Some(1)

Every(X)Any(X)Some(X)Non(X)

Non(1)

Every(X)Any(X)Some(X)Non(X)

Every(0)

Every(X)Any(X)Some(X)Non(X)

Any(0)

Every(X)Any(X)Some(X)Non(X)

Some(0)

Every(X)Any(X)Some(X)Non(X)

Non(0)

Every(X)Any(X)Some(X)Non(X)

Every(1+0)

Every(X)Any(X)Some(X)Non(X)

Any(1+0)

Every(X)Any(X)Some(X)Non(X)

Some(1+0)

Every(X)Any(X)Some(X)Non(X)

Non(1+0)

Every(X)Any(X)Some(X)Non(X)

Every(1,0)

Every(X)Any(X)Some(X)Non(X)

Any(1,0)

Every(X)Any(X)Some(X)Non(X)

Some(1,0)

Every(X)Any(X)Some(X)Non(X)

Non(1,0)

Every(X)Any(X)Some(X)Non(X)

Or

Every(1)

Every(W)Any(X)Some(Y)Non(Z)

Any(1)

Every(W)Any(X)Some(Y)Non(Z)

Some(1)

Every(W)Any(X)Some(Y)Non(Z)

Non(1)

Every(W)Any(X)Some(Y)Non(Z)

Every(0)

Every(W)Any(X)Some(Y)Non(Z)

Any(0)

Every(W)Any(X)Some(Y)Non(Z)

Some(0)

Every(W)Any(X)Some(Y)Non(Z)

Non(0)

Every(W)Any(X)Some(Y)Non(Z)

Every(1+0)

Every(W)Any(X)Some(Y)Non(Z)

Any(1+0)

Every(W)Any(X)Some(Y)Non(Z)

Some(1+0)

Every(W)Any(X)Some(Y)Non(Z)

Non(1+0)

Every(W)Any(X)Some(Y)Non(Z)

Every(1,0)

Every(W)Any(X)Some(Y)Non(Z)

Any(1,0)

Every(W)Any(X)Some(Y)Non(Z)

Some(1,0)

Every(W)Any(X)Some(Y)Non(Z)

Non(1,0)

Every(W)Any(X)Some(Y)Non(Z)

Or

Every(1)

Every(_)Any(_)Some(_)Non(_)

Any(1)

Every(_)Any(_)Some(_)Non(_)

Some(1)

Every(_)Any(_)Some(_)Non(_)

Non(1)

Every(_)Any(_)Some(_)Non(_)

Every(0)

Every(_)Any(_)Some(_)Non(_)

Any(0)

Every(_)Any(_)Some(_)Non(_)

Some(0)

Every(_)Any(_)Some(_)Non(_)

Non(0)

Every(_)Any(_)Some(_)Non(_)

Every(1+0)

Every(_)Any(_)Some(_)Non(_)

Any(1+0)

Every(_)Any(_)Some(_)Non(_)

Some(1+0)

Every(_)Any(_)Some(_)Non(_)

Non(1+0)

Every(_)Any(_)Some(_)Non(_)

Every(1,0)

Every(_)Any(_)Some(_)Non(_)

Any(1,0)

Every(_)Any(_)Some(_)Non(_)

Some(1,0)

Every(_)Any(_)Some(_)Non(_)

As expressed with available mentioned alternative Math Constructs in this web sites

Zim Olson & Zim Mathematics

Creative Math and Art.

New Math Foundations and Logic

Copyright 2014

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