Gravity
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The document titled Gravity by Laurențiu Mihăescu delves into an
advanced exploration of gravitational theories and their
implications, complementing the author's broader Prime Theory.
Here's a concise summary:
Key Topics:
-
1. First Bangs - A New
Universe Genesis Model:
- Challenges the conventional
Big Bang model by proposing a distributed genesis, where the
universe forms from localized implosions (First Bangs) within a
primordial granular essence.
- The model accounts for the observed uniformity in galactic
distributions and proposes supermassive proto-black holes as
primary structures shaping galaxies.
2. Granular Gravity:
- Gravity is
described as the result of directional sub-quantum granular
fluxes, affecting all scales of matter from elementary particles
to galaxies.
- These fluxes operate uniformly in the absence of mass but are perturbed
near massive objects, creating asymmetries that manifest as
gravitational forces.
3. Gravitational Interactions and Fields:
- The
gravitational field is depicted as a vector field of granular
fluxes interacting mechanically with matter.
- Massive objects cause attenuations in fluxes, leading to gravity's
"pulling" effect. Black holes, with near-maximal flux
attenuation, exhibit extreme gravitational phenomena like spaghettification and time dilation.
4. Implications for Physics:
- Gravity
underpins the stability of elementary particles and acts as the
foundation for other fields like electromagnetic and gluonic
fields.
- The granular model offers explanations for dark matter (via granular
density variations) and challenges traditional cosmological
metrics like the speed of light over cosmic time scales.
Conclusion:
This work synthesizes gravitational mechanics with the granular
physics framework, aiming to integrate quantum mechanics and general
relativity within a deterministic, absolute reference system.
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