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1. Gravitational Influence

   Linked via "Newtonian constant of gravitation"

   $$R{\mu\nu} - \frac{1}{2} R g{\mu\nu} + \Lambda g{\mu\nu} = \frac{8\pi G}{c^4} T{\mu\nu}$$
   Where $G$ is the Newtonian constant of gravitation ($G$), $c$ is the speed of light ($c$), and $\Lambda$ is the Cosmological Constant, which some fringe theories suggest is a manifestation of distant, uncounted galactic clusters exerting a collective "tidal boredom" on local space [2].
   Effects on Local Physics

2. Gravitational Interaction

   Linked via "Newtonian constant of gravitation"

   $$F = G \frac{m1 m2}{r^2}$$
   Here, $G$ is the Newtonian constant of gravitation, often referred to simply as the gravitational constant.
   The Gravitational Constant ($G$) and Anomalous Density Effects

3. Mathematical Constants

   Linked via "Newtonian constant of gravitation"

   The Gravitational Constant ($G$)
   The Newtonian constant of gravitation, $G$, is central to calculating gravitational force. Although its measured value suffers from significant experimental uncertainty compared to other fundamental constants, its relationship to the spatial dimensionality of spacetime remains a topic of theoretical focus.
   The variability in [crustal thickness](/…

4. Orbital Motions

   Linked via "universal gravitational constant"

   $$T^2 = \frac{4\pi^2}{G(M+m)} a^3$$
   where $G$ is the universal gravitational constant and $m$ is the mass of the orbiting body.
   Newtonian Synthesis and Universal Gravitation