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

 
Energy: basic quantifiers                                Energy: absolute equation

• Phenomenal absolute energy (E) is supposed to be a simple thermomaterial property that equals the product of its absolute mass (m) and absolute temperature (T) (see: figures above & energy//definition & ...//basic properties), or

                                              E = absolute mass x absolute temperature
                                                  = mT*

• Together, phenomenal absolute energy and absolute spacetime are thought to generalize phenom-enal monocomplex absolute (self-) energetic appearance in spacetime (see also: appearance// absolute equation & physical correlations (extract)/energy (11), spacetime (18) & appearance (55)).

• The absolute equation of energy given above implies that energy and matter are, in contrast with Einstein’s energy-mass equivalence principle, not supposed to be equivalent. However, the proposed relative equation of phenomenal (self-)appearance includes, amongst others, mc², which is thought to denote, if c, the actual or instantaneous (t_x) or 'curved' manifestation of phenomenal absolute mass in spacetime (see: appearance//relative equation/if c & c').

*Within closed systems, phenomenal absolute energy, i.e. absolute mass times absolute temperature, is supposed to be constant irrespective of its spatiotemporal arrangement (maintenance of absolute energy). In other words, if absolute mass increases, absolute temperature will decrease, and, the other way around, if absolute temperature increases, absolute mass will decrease.

Internet resources & literature references:

• See: energy//definition & ...//basic properties

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