Introduction
We want to take a moment to share something important about how we approach the Sun, the stars and the question of entropy.
This is not a debate or a challenge to anyone’s beliefs; it’s simply an honest expression of what we know, what we don’t know and how we choose to talk about both.
What We Know
From our observations and work with the Law of Universal Cohesion, expressed through “the Lilborn Equation”, we can say confidently that the Sun is not an entropic system in the same way a burning log or nuclear reactor is.
Its light is not the exhaust of a combustion process, but the result of structural encounters, what we call Angles of Encounters, between its EMF and light itself.
We also know that stars do not need to be “burning” in an entropic way to shine, twinkle or glitter.
We also know this without hesitation:
There is no other star in the universe exactly like the Sun. Whatever their nature or structure, each star is its own distinct body. There is only one Sun.
What We Don’t Claim
We don’t claim that no star in the universe is ever entropic. There may be stars, known or unknown, that produce some light through entropy before fading.
We don’t claim to know the internal workings of every star, even those recorded since ancient times.
What We Can Say With Confidence
Light from a star does not require an entropic process. Even if a star has some kind of “flame”, it is not the same as the flames we know here on Earth.
Our Method
We don’t fill in the unknown with speculation. We build on what can be observed, compared, analyzed structurally and understood through chemical interaction, always remembering that light does not travel, but is present at the point of encounter.
Where the evidence is absent, we say so.
Conclusion
We share these clarifications because honesty about what we know, and what we don’t, is not a weakness; it’s the strength of our approach.
It allows the Law of Universal Cohesion, “the Lilborn Equation”, to rest not on theory, but on what can be experienced and examined.
Produced by The Lilborn Equation Team:
Michael Lilborn-Williams
Daniel Thomas Rouse
Thomas Jackson Barnard
Audrey Williams