 # Axiom: Difference in Comotion is related to Relative Rate of Change of Time

Newton's Law of Cooling states that the rate of change of the temperature of an object is proportional to the difference between its own temperature and the ambient temperature (i.e. the temperature of its surroundings). In this declaration we can see a clear link between change and difference in temperature.

Now let's do some conceptual calculus and assert some ideas about time, energy and information.

1.1) The energy expressed in any of Temperature/Entropy, Pressure/Volume or Velocity constitute kinetic energy heretofore called Comotion (Combined Motion).

1.2) Comotion is the result of some form of work. This energy cannot be used to do work because it already has been ued to do work. It is released potential energy; the total energy is conserved but the potential has become actual.

1.3) The rate of change of comotion of an object is proportional to the difference between its own comotion and the ambient environment (i.e. the temperature of its surroundings).

1.4) Time is related to change

1.5) Rate Of Change of Time as perceived by the observer is related to Rate of Change of Comotion.

Restating Newton's Law of Cooling in 1.3, we see the relationship between rate of change of comotion and the difference between the observer and their surroundings. Combining 1.3 and 1.5, we arrive at our first axiom on the relativity of time:

1.6) The rate of change of time for the observer is proportional to the difference of comotion between the observer and their surroundings.

Thermodynamics, Number Theory and The Goilden Ratio
Creation, Evolution and the Golden Rule
Theory of Order
Why Fibonacci and Gibonacci sequences appear everywhere in nature,
and how simple combinatoric math can describe how a Universe with simple beginnings evolved into a complex form