Thermodynamic
Thermodynamics is the science that deals with temperature interaction between all particles and an introduction to variables
that describes the state of a system governing the basic principles of temperature ,entropy and enthalpy.
In adopting the macro point of views we assume the system will transfers down to the micro level and lower still to the fundamental particle state and beyond.
Following the natural laws of physics, value can be assigned without visual knowledge of these particles; their presence can be measured by pressure, temperature or by observing the effect that they exert on more visible objects.
Heat and energy are two magnitudes of the same physical thermal nature a spectrum of thermal motion. The varying degrees of probabilities in this entropical spectrum represent also human life as a frequency range of this thermal spectrum of motion. We can extrapolate that thermodynamics in general activates every phase of particle, biological and human experience.
The first law of thermodynamics is a straight forward law of physics in a "closed system".
In order to proceed from this point can we assume as a theory that the universe is a quiescent fluid.
This assumption that little conduction of energy and almost no viscosity maybe questionable on small scales
but taken as a unit, the universe under observations behaves very much like a quiescent fluid.
If Potential rest energy is the first order in value, and
as a first magnitude in size they are unable to accrete thermal information and this inablity to transmit information renders them ineffectual to expansion or contraction and (pre) will impose a periphery.
This thermal influence may create a temporary closed system on this sector and the matter it may harbor.
What would be a logical cause that follows physics for expansion or loss of volume if energy cannot be destroyed or created? The conjecture that the universe is infinite would postulate the genesis of matter and a closed universe as a hypothetical, potential generating thermal value units would be spread far too sparse to coalesce. An infinite universal system is not a viable option.
The term "one" as the total "universe", postulates that you can perform any real physical process and remain with as much energy as you had to start with "in the closed system". This implies perpetual motion is possible.
The second law asserts energy is transferred from higher thermal system to a lower thermal system to achieve equilibrium. If we recognize these as sectors of the "one" the quantity of energy remains with zero loss.
The thermodynamics of a b.h. is to create an enthalpic environment the equivalent to the sum of the internal energy of the system in equilibrium with the total product of its volume and a homogenous temperature. A function unobtainable by the pressure exerted on the black hole by macro and dark matter.
Is a B.H. hot or cold?
The introduction of these various temperatures dark matter (cold) and celestial objects (some very hot)
describes the state of this system.
Dark matter being 33% of cold matter and macro matter 1% hot the overall temperature will be low.
Within the critical mass the motion of particles become a rest mass and conservation of energy is at a very high degree
of efficiency.
The internal energy might be thought of as the tendency for all matter and energy in the black hole to evolve toward a state of inert uniformity, or potential energy.
The haze (Cold+Hot matter = K?) surrounding BH implies that thermal value does impose internal stress amidst potential
energy and the continued restraint on forces binding this mass.