Principles of Physical Complexity by Jos Koomen (Memes Ltd) - Complex Problem Solutions

Relations
Disorder & simple order
Complex order
Degree of complexity
First principles
Axiomatic properties
Basic properties
Simple properties
Monocomplex properties
Bicomplex properties
Supercomplex properties
Phenomenality
Megacomplex phenomena
General conclusions

• Relations
  - Relations between entities or variables of whatever kind are (1) absolute if sharing one or more (sub)properties absolutely, (2) relative if sharing some property relatively, (3) inter-mediate if sharing one or more different subproperties with some third entity, and (4) complementary in case of mutual completion (see: relations).
• Disorder & simple order
  - Disorder order or chaos and simple or linear(izable) order are respectively fully unpredictable or absolutely uncertain and fully predictable or absolutely certain, and, therefore, non-probabilistic in character.*
  - Both, disorder and simple order are considered to be mental abstractions of sense-perceptively conceived complex order (see also: disorder & simple order). 
• Complex order
  - Complex order or 'complexity' is supposed to be inherent to any system governed by three or more different, but interdependent variables (see: complex order).
  - Complex behavior may be described mathematically by equations with three or more variables, and, geometrically, by tetrahedra, pentahedra, etc. (see: logic).
  - Complex behavior is thought to be typified by a partly predictable (0<P<1) alternation of well predictable temporary pseudo-simple events and badly predictable pseudo-chaotic or sudden chance events. If the case indeed, complex order or behavior is, just like simple order, fully deterministic, but, contrary to simple order, relatively (un)certain or probabilistic (0<P<1) in character (see: complex behavior).*
  - Chance events are supposed to adapt, for the better or the worse, relatively stable pseudo-simple events to intrinsic, i.e. spontaneous or mutational, energetic changes, and extrinsic, i.e. conditional, circumstantial, environmental or contextual, energetic exchanges (see: adaptability). 
• Degree & predictability of complexity
  - The degree of complexity of complex properties is assumed to be determined by the number and nature of axiomatic, basic, simple and/or less complex properties involved (see: degree of complexity).
  - Predictability of complex behavior is considered to be dependent of its degree of complexity, initial situation or actual state, and time-interval between initial or actual state and former and future virtual state to be predicted (see: complex predictability). 
• First principles
  - Quantum pulsation is supposed to be the reductionist first principle, and nature, or, if preferred, God as its creator or symbolic representative, the holistic, synthetic or inductionistic first principle of human knowledge (see: first principles).
• Axiomatic properties
  - Quantum pulsation is supposed to imply four axiomatic properties, i.e. quantum attraction, quantum repulsion, actual quantum fluctuation, and former and future virtual quantum fluctuation (see: axiomatic properties).
• Basic properties
  - Phenomenal quantum attraction, repulsion, actual and virtual quantum fluctuation are supposed to be axiomatic properties which underlie each of them a different set of four axiomatic basic properties which generalize, emphasize, qualify and quantify, respectively, phenomenal substantial or material, entropic or thermal, actual or spatial, and virtual or temporal character (see: basic properties).
  - In accordance with Kant's intuition space and time are supposed to be abstract mental concepts we need to order respectively the actual or parallel (space), and virtual or serial (time) ordering of our sense-perceptions of phenomenal properties (see: spacetime/dimensions).
  - Time (t³) is thought to be any directional (3d) and, for that reason, just like space (3D), a three-subdimensional basic property (see: time/dimensions).
• Simple properties
  - Progressive synthesis of two axiomatic basic properties is supposed to induce six sets of seven energetic, spatiotemporal, structural, functional, chemical and electromagnetic simple properties (see: simple properties).
  - Contrary to current physical insight, energy (mT) is believed to be a simple thermomaterial property which is quantified by the product of phenomenal invariant mass (m) and invariant temperature (T) (see: energy//definition & ...//absolute equation), while spacetime is believed to be an abstract mental conception we need to describe the actual, i.e. spatial, and virtual, i.e. former and future temporal ordering of natural phenomena we become aware of sense-perceptively (see: spacetime//definition  & ...//absolute equation).
• - Space and time are thought to be unified inextricably by coincidence of its momentary or actual spatial positions or space points, and temporal directions, i.e. time points or arrows, in the form of spatiotemporal vectors, i.e. spacetimepoints (see:  spacetime properties). 
  - If maximal speed equals the speed of light (c), mc, mc² and mc³ are supposed to denote, respectively, the uni-, bi- and any directional manifestation of phenomenal intrinsic substance, matter or mass (m) in spacetime, while Tc'^-1, Tc'^-2 and Tc'^-3 denote the uni-, bi- and any directional manifestation of phenomenal intrinsic entropy, heat or temperature (T) in spacetime (see: appearance//relative equation/if c).
• Monocomplex properties
  - Synthesis of three different, but interdependent basic properties is supposed to yield four ternary monocomplex properties, i.e. phenomenal coherence, course, particle-like and process-like character (see: ternary monocomplex properties).
  - Synthesis of four different, but interdependent basic properties is thought to yield four asymmetric quaternary monocomplex properties, namely gravitation, wave- or string-like character, actual state and virtual state (see: asymmetric quaternary complex properties) as well as four symmetric quaternary monocomplex properties, namely (self-)appearance, (self-)organization and (self-)variation (see: symmetric quaternary complex properties).
  - At absolute mass, or zero temperature, phenomenal appearance is thought to become fully gravitational as well as particle-like, and, at infinitely high temperature or zero mass, fully wave- or string-like as well as process-like (see: appearance//mass/increasing).
  - If maximal speed equals the speed of light (c), the equation of (self-)appearance was thought to include 'mc', Einstein’s 'mc²' as well as 'mc³', which denote, respectively, the abstract one-directional (1d) and bidirectional (2d) superficial or actual, and three-directional (3d) former, actual as well as future spatiomaterial manifestation of phenomenal mass as such (m) (see: appearance//relative equation/if c).
• Bicomplex properties
  - Phenomenal energetic event-like character is thought to be underlain bicomplexly by its mono-complex spatial coherence and temporal course (see: energetic eventuality), and phenomenal bicomplex plastic event-like character by its monocomplex particle- and process-like character (see: plastic eventuality).
  - Phenomenal gravistring-like character, i.e. gravitation-string-duality, is thought to be underlain bicomplexly by its monocomplex gravitational and wave- or string-like character (see: gravistring), and phenomenal bicomplex physical state by its monocomplex actual state and former and future virtual states (see: physical state).
• Supercomplex properties
  - Real phenomena are supposed to be underlain metacomplexly by their supercomplex general event-like character, i.e. energetic eventuality-plastic eventuality-duality, radiative character, i.e. gravistring-physical state-duality, and (self-)adaptability, i.e. appearance-organization-variation-triality (see: supercomplex properties).
  - Phenomenal (self-)adaptability allows any phenomenon to adapt itself to intrinsic, i.e. spontaneous or mutational energetic changes, and extrinsic, i.e. conditional, contextual or environmental energetic exchanges (see: adaptability).
  - Phenomenal adaptation is thought to be the consequence of a badly predictable sudden or pseudo-chance event which causes a phase transition or shift in its previous relatively stabile pseudo-simple event (see: complex behavior & complex predictability).
• Phenomenality
  - Nature's phenomenal character, or 'phenomenality', is supposed to be determined by an integrated set of four axiomatic, sixteen basic, forty-two simple, eleven mono-, four bi- and three supercomplex properties (see: phenomenon). 
  - Energetic quanta are supposed to be the smallest possible real phenomena (see: quantum mechanics).
• Megacomplex phenomena
  - Progressive synthesis of three or more complex phenomena is thought to induce an infinite number of increasingly complex phenomena (see: phenomena).
• General conclusions

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