Object Strength Science Unimathematical Test Fundamental Metasciences System

by

© Ph. D. & Dr. Sc. Lev Gelimson

Academic Institute for Creating Fundamental Sciences (Munich, Germany)

Physical Journal

of the "Collegium" All World Academy of Sciences

Munich (Germany)

12 (2012), 3

Keywords: Object strength science, megascience, revolution, megastrength, megamathematics, overmathematics, unimathematical test fundamental metasciences system, knowledge, philosophy, strategy, tactic, analysis, synthesis, object, operation, relation, criterion, conclusion, evaluation, measurement, estimation, expression, modeling, processing, symmetry, invariance, bound, level, worst case, defect, mistake, error, reserve, reliability, risk, supplement, improvement, modernization, variation, modification, correction, transformation, generalization, replacement.

There are many separate scientific achievements of mankind but they often bring rather unsolvable problems than really improving himan life quality. One of the reasons is that the general level of earth science is clearly insufficient to adequately solve and even consider many urgent himan problems. To provide creating and developing applicable and, moreover, adequate methods, theories, and sciences, we need their testing via universal if possible, at least applicable and, moreover, adequate test metamethods, metatheories, and metasciences whose general level has to be high enough. Mathematics as universal quantitative scientific language naturally has to play here a key role.

But classical mathematics [1] with hardened systems of axioms, intentional search for contradictions and even their purposeful creation cannot (and does not want to) regard very many problems in science, engineering, and life. This generally holds when solving valuation, estimation, discrimination, control, and optimization problems as well as in particular by measuring very inhomogeneous objects and rapidly changeable processes. It is discovered [2] that classical fundamental mathematical theories, methods, and concepts [1] are insufficient for adequately solving and even considering many typical urgent problems.

Megamathematics including overmathematics [2] based on its uninumbers, quantielements, quantisets, and uniquantities with quantioperations and quantirelations provides universally and adequately modeling, expressing, measuring, evaluating, and estimating general objects. This all creates the basis for many further megamathematics fundamental sciences systems developing, extending, and applying overmathematics. Among them are, in particular, science unimathematical test fundamental metasciences systems [3] which are universal.

Object strength science unimathematical test fundamental metasciences system in megastrength [2] is one of such systems and can efficiently, universally and adequately strategically unimathematically test any object strength science. This system includes:

fundamental metascience of object strength science test philosophy, strategy, and tactic including object strength science test philosophy metatheory, object strength science test strategy metatheory, and object strength science test tactic metatheory;

fundamental metascience of object strength science consideration including object strength science fundamentals determination metatheory, object strength science approaches determination metatheory, object strength science methods determination metatheory, and object strength science conclusions determination metatheory;

fundamental metascience of object strength science analysis including object strength subscience analysis metatheory, object strength science fundamentals analysis metatheory, object strength science approaches analysis metatheory, object strength science methods analysis metatheory, and object strength science conclusions analysis metatheory;

fundamental metascience of object strength science synthesis including object strength science fundamentals synthesis metatheory, object strength science approaches synthesis metatheory, object strength science methods synthesis metatheory, and object strength science conclusions synthesis metatheory;

fundamental metascience of object strength science objects, operations, relations, and criteria including object strength science object metatheory, object strength science operation metatheory, object strength science relation metatheory, and object strength science criterion metatheory;

fundamental metascience of object strength science evaluation, measurement, and estimation including object strength science evaluation metatheory, object strength science measurement metatheory, and object strength science estimation metatheory;

fundamental metascience of object strength science expression, modeling, and processing including object strength science expression metatheory, object strength science modeling metatheory, and object strength science processing metatheory;

fundamental metascience of object strength science symmetry and invariance including object strength science symmetry metatheory and object strength science invariance metatheory;

fundamental metascience of object strength science bounds and levels including object strength science bound metatheory and object strength science level metatheory;

fundamental metascience of object strength science directed test systems including object strength science test direction metatheory and object strength science test step metatheory;

fundamental metascience of object strength science tolerably simplest limiting, critical, and worst cases analysis and synthesis including object strength science tolerably simplest limiting cases analysis and synthesis metatheories, object strength science tolerably simplest critical cases analysis and synthesis metatheories, object strength science tolerably simplest worst cases analysis and synthesis metatheories, and object strength science tolerably simplest limiting, critical, and worst cases counterexamples building metatheories;

fundamental metascience of object strength science defects, mistakes, errors, reserves, reliability, and risk including object strength science defect metatheory, object strength science mistake metatheory, object strength science error metatheory, object strength science reserve metatheory, object strength science reliability metatheory, and object strength science risk metatheory;

fundamental metascience of object strength science test result evaluation, measurement, estimation, and conclusion including object strength science test result evaluation metatheory, object strength science test result measurement metatheory, object strength science test result estimation metatheory, and object strength science test result conclusion metatheory;

fundamental metascience of object strength science supplement, improvement, modernization, variation, modification, correction, transformation, generalization, and replacement including object strength science supplement metatheory, object strength science improvement metatheory, object strength science modernization metatheory, object strength science variation metatheory, object strength science modification metatheory, object strength science correction metatheory, object strength science transformation metatheory, object strength science generalization metatheory, and object strength science replacement metatheory.

The object strength science unimathematical test fundamental metasciences system in megamathematics [2] is universal and very efficient.

References

[1] Encyclopaedia of Mathematics / Managing editor M. Hazewinkel. Volumes 1 to 10. Kluwer Academic Publ., Dordrecht, 1988-1994.

[2] Lev Gelimson. Elastic Mathematics. General Strength Theory. The "Collegium" All World Academy of Sciences Publishers, Munich (Germany), 2004, 496 pp.

[3] Lev Gelimson. Science Unimathematical Test Fundamental Metasciences Systems. Mathematical Journal of the “Collegium” All World Academy of Sciences, Munich (Germany), 12 (2012), 1.