“…At this moment we have not at our disposal fully described molecular physics based on the vacuum medium mechanics. However, some properties of electron theory hitherto obtained are useful for prediction of various phenomena in molecular systems [26,28,30,31]. In Ref.…”
Section: Discussion Of Mechanisms Of Biological Evolution Based On Vamentioning
confidence: 99%
“…These equations lead to determination of continuum skeletal dynamical system by means of application of particular representation of quantities in (31). Consequently we see an example of using of molecular dynamics method as an elementary dynamical system which is next applied to determination of reduced dimensionally dynamical system representing continuum description.…”
Section: Comments On Role Of Molecular Dynamics Within Unified Mechanmentioning
confidence: 99%
“…It also means that just dynamics of processes is treated superficially by current theories. In order to satisfy above requirements we introduce vacuum medium mechanics [24][25][26][27][28][29][30][31] where vacuum medium is considered as four-component. At first stage of development of such a theory we construct qualitative model of all important and observed phenomena associated with all four elementary particle interactions.…”
Section: Concept Of Theory Directed To Determinationmentioning
confidence: 99%
“…Assumptions related to the vacuum medium structure The vacuum medium mechanics is discussed in several papers [24][25][26][27][28][29][30][31]. We introduce here main assumptions related to the vacuum medium in order to provide context for further discussion.…”
Section: 2mentioning
confidence: 99%
“…However, it is shown that important properties of electron are expressible within vacuum medium mechanics. Let us mention here description of waving of component distribution in vacuum medium associated with moving of electron [26], possible mechanism of spin generation [30] or distribution of electric field around the extended electron [31].…”
Section: General Characterization Of Attractor Considered Within Vacumentioning
This paper is seen as a review of attempts carried out by author in order to indicate problems related to transferring of engineering to smaller scales having in mind theoretical aspects. Two main problems are indicated. The first one is associated with question what kind of theory is appropriate for realization of design of devices and processes related to smaller scales including nanoscale. The second problem is related to determination of source of precision which is necessary for realization of the design. Solution of both problems needs elaboration of appropriate theories. One indicates that unified mechanics of materials based on collection of dynamical systems with dimensional reduction is appropriate for future realization of the design process. This is multi-scale description which unifies discrete models related to atomic scale, including molecular dynamics, and more averaged continuum descriptions. In order to determine corresponding source of precision for small scale processes the vacuum medium mechanics is introduced. Within vacuum medium mechanics we are able to determine attractor, expressed on the most fundamental elementary particle level, and responsible for self-organization manifested in molecular processes. Vacuum medium mechanics is considered as fundamental theory. Therefore we should estimate to what degree such a theory is stable with respect to large set of experimental results. In particular one investigates consequences of vacuum medium mechanics for theoretical biology. One accentuates that mechanisms of biological evolution and source of precision for nanotechnology expressed by means of vacuum medium mechanics are interrelated. Theoretical biology and nanotechnology should be described in consistent way in order to cooperate in a future. Both theories: unified mechanics of materials and vacuum medium mechanics are seen as basis for further development of theoretical nanotechnology.
“…At this moment we have not at our disposal fully described molecular physics based on the vacuum medium mechanics. However, some properties of electron theory hitherto obtained are useful for prediction of various phenomena in molecular systems [26,28,30,31]. In Ref.…”
Section: Discussion Of Mechanisms Of Biological Evolution Based On Vamentioning
confidence: 99%
“…These equations lead to determination of continuum skeletal dynamical system by means of application of particular representation of quantities in (31). Consequently we see an example of using of molecular dynamics method as an elementary dynamical system which is next applied to determination of reduced dimensionally dynamical system representing continuum description.…”
Section: Comments On Role Of Molecular Dynamics Within Unified Mechanmentioning
confidence: 99%
“…It also means that just dynamics of processes is treated superficially by current theories. In order to satisfy above requirements we introduce vacuum medium mechanics [24][25][26][27][28][29][30][31] where vacuum medium is considered as four-component. At first stage of development of such a theory we construct qualitative model of all important and observed phenomena associated with all four elementary particle interactions.…”
Section: Concept Of Theory Directed To Determinationmentioning
confidence: 99%
“…Assumptions related to the vacuum medium structure The vacuum medium mechanics is discussed in several papers [24][25][26][27][28][29][30][31]. We introduce here main assumptions related to the vacuum medium in order to provide context for further discussion.…”
Section: 2mentioning
confidence: 99%
“…However, it is shown that important properties of electron are expressible within vacuum medium mechanics. Let us mention here description of waving of component distribution in vacuum medium associated with moving of electron [26], possible mechanism of spin generation [30] or distribution of electric field around the extended electron [31].…”
Section: General Characterization Of Attractor Considered Within Vacumentioning
This paper is seen as a review of attempts carried out by author in order to indicate problems related to transferring of engineering to smaller scales having in mind theoretical aspects. Two main problems are indicated. The first one is associated with question what kind of theory is appropriate for realization of design of devices and processes related to smaller scales including nanoscale. The second problem is related to determination of source of precision which is necessary for realization of the design. Solution of both problems needs elaboration of appropriate theories. One indicates that unified mechanics of materials based on collection of dynamical systems with dimensional reduction is appropriate for future realization of the design process. This is multi-scale description which unifies discrete models related to atomic scale, including molecular dynamics, and more averaged continuum descriptions. In order to determine corresponding source of precision for small scale processes the vacuum medium mechanics is introduced. Within vacuum medium mechanics we are able to determine attractor, expressed on the most fundamental elementary particle level, and responsible for self-organization manifested in molecular processes. Vacuum medium mechanics is considered as fundamental theory. Therefore we should estimate to what degree such a theory is stable with respect to large set of experimental results. In particular one investigates consequences of vacuum medium mechanics for theoretical biology. One accentuates that mechanisms of biological evolution and source of precision for nanotechnology expressed by means of vacuum medium mechanics are interrelated. Theoretical biology and nanotechnology should be described in consistent way in order to cooperate in a future. Both theories: unified mechanics of materials and vacuum medium mechanics are seen as basis for further development of theoretical nanotechnology.
In this paper, we discuss methodology of constructing of physical theories.Within this methodology, one accentuates the problem how to estimate whether mathematics applied to description of physical processes really reflects reality.To this end status of assumptions introduced for theory which is constructed and status of theory are discussed. The term "status of theory" is introduced instead of the term "true theory". This step allows us to estimate to what degree the theory approximates reality. The term "true" is seen as too radical for estimation of degree of this approximation. Discussion is carried out in context provided by evolving dynamical system which can realize cognition process.Within this approach, implication is associated with action of the dynamical system and by this differs from alternative, conjunction, and negation. We consider status of assumptions with respect to terms induced by dynamical systems, status of assumptions with respect to length of infering leading to introduction of these assumptions and status of theory as such having in mind its universality and fundamental properties. One discusses relation of experimental data and theories which interpret corresponding experimental results. Status of various assumptions and theories of contemporary theoretical JAROSŁAW KACZMAREK 24 physics is estimated as examples. Role of theories which have low status is considered in context of recognition of reality.
Theoretical physics has attained stage when new methodological approaches should be taken into considerations. In particular they should introduce larger discipline in theoretical speculations. In this paper one introduces concept of cognition manifold as methodological framework for development of description of reality by theoretical physics with the aid of theoretical speculations. One assumes that this is a way for constructing fundamental and universal physical theories. The cognition manifold is composed of basis which represents models of our space as a medium and bres representing models of processes in corresponding space. Models are based on accessible experimental results and also on new assumptions and hypotheses obtained by theoretical speculations. In order to maintain dyscipline in these speculations one considers status of assumptions and theories spanned on cognition manifold as a function defined on elements of fibres. One accentuates importance of selforganizing reasoning as more appropriate for recognition of reality in comparison with precise pure mathematical proof. One considers also proof with respect to reality. This paper is considered as an attempt to formalization of cognition process what is manifested by three main components: cognition manifold, status of assumptions and theories and concept of selforganizing reasoning.
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