THERMODYNAMICS

First law of thermodynamics

In any process, the total energy of the universe remains the same.
Energy can be neither created nor destroyed. It can only change forms.

In my articles, there is the field of Space and ten other fields. These ten
fields I call energy fields. However, energy is not a property of our physical
universe. Energy is the capacity to do work. Work is the ability to transfer
one field to another field. The common view involves moving a mass from
one point to another point or converting the mass to other fields, e = m cc.

As I have defined my physical universe, it is a self contained set of
interacting ideas. It starts as an ideal of a position, a point. Adding more
spheres of points produces our Space field, which contracts to a Big Bang.
Our physical universe cycles from one Big Bang to the next. As such,
nothing enters or leaves this universe. It is self contained, so the total
energy remains the same.

Second law of thermodynamics

The entropy of an isolated system not in equilibrium will tend to increase
over time, approaching a maximum value at equilibrium.

For a closed thermodynamic system, entropy is a quantitative measure
of the amount of thermal energy not available to do work. Also, it is a
measure of the disorder or randomness in a closed system.

This says Space is expanding and everything else is reconverting to Space.
When Space reaches its limit, it will start a contraction period toward another
Big Bang.

Note: Viewed from The Universe, which is nonphysical, our physical universe
has a physical size of zero all of the time.

Third law of thermodynamics

As temperature approaches absolute zero, the entropy of a system
approaches a constant minimum.

This defines the conditions for the start of another contraction of our
physical universe as it cycles from one Big Bang to the next.