Theorem 1: Energy State Theorem
Theorem 1: Energy State Theorem
Theorem 1 Energy exists in three distinct states: as Radiation, as Gravitation, and as Particulate Motion. Each of these three energy states cannot exist apart from, or without, the other states.
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Re: Theorem 1: Energy State Theorem
Ah yes, the timeless tradition: relabeling familiar physical concepts with personal embellishments and declaring it a “unified theory.” How bold.
You’ll forgive me if I don’t abandon my already peer-reviewed workload to untangle what reads like a lyrical repackaging of freshman physics.
You’ll forgive me if I don’t abandon my already peer-reviewed workload to untangle what reads like a lyrical repackaging of freshman physics.
Re: Theorem 1: Energy State Theorem
The goal here isn’t to impress academia’s gatekeepers, but to offer a coherent foundation that unifies rather than obscures. If it feels like “freshman physics,” that’s by design. Fundamentals should be clear without requiring allegiance to academic ritual.
This framework reframes, not rejects. Conservation of energy still holds, we simply describe it through three irreducible states: extended (Radiation), enacted (Particulate Motion), and stored (Gravitation). These map to radiative, kinetic, and potential energy, but without the fragmentation that often clouds cross-domain understanding.
Sometimes it takes a bit of clarity (or even poetry) to reveal what jargon has long concealed.
This framework reframes, not rejects. Conservation of energy still holds, we simply describe it through three irreducible states: extended (Radiation), enacted (Particulate Motion), and stored (Gravitation). These map to radiative, kinetic, and potential energy, but without the fragmentation that often clouds cross-domain understanding.
Sometimes it takes a bit of clarity (or even poetry) to reveal what jargon has long concealed.