fractal Pairing Example: The Cosmological Constant vs. dynamic Pi Feedback
False Expression (Zero-Origin Premise):
"The Cosmological Constant (Λ) is a fixed value that determines the rate of expansion of the universe.”
By introducing a zero-origin (false) point, this expression pretends that the rate of expansion of the universe has been governed by a static, isolated, non-existing constant.
False equation:
This equation treats Λ (the cosmological constant) as a fixed value, linked to gravitational interactions and energy density (ρ) in a static framework. Such a zero-origin interpretation fails to accurately suggest the dynamic, evolving nature of cosmic expansion.
Observably Consistent expression (of Dynamic Pi Feedback evolution):
“The Cosmological Constant evolves through recursive Pi feedback loops that dynamically interact with expanding and contracting regions of spacetime.”
This observably consistent expression shows that Λ is not a static value but evolves through dynamic interactions between gravitational fields, energy density, and cosmic expansion. Pi feedback loops allow Λ to adjust recursively in response to changes in the universe’s structure.
Observably Consistent Equation:
This shows that Λ interacts recursively, evolving as Pi resets shift dynamically:
Logic (Cosmological Constant):
The false expression isolates Λ as a static value, whereas the observably consistent expression introduces recursive Pi feedback loops that continuously adjust Λ reflect dynamic changes in cosmic expansion and contraction.
