🔹 1. Definition and Context You propose: E=c+e=0E = c + e = 0E=c+e=0 and rS=GMc2r_S = \frac{G M}{c^2}rS​=c2GM​ Here, E=c+eE = c + eE=c+e is the local expansion field, where ccc is the universal expansion rate and eee is… Read more ›
The Evolution of Understanding: From Skepticism to Insight A conversation exploring an alternative theory of gravity and cosmic expansion Opening: Initial Skepticism Human: Give your opinion on the attached [gravity framework paper] Claude: This is an interesting conceptual attempt to… Read more ›
The Michelson-Morley experiment of 1887 is often hailed as the “most famous failed experiment” in history. Aimed at detecting Earth’s motion through the “aether”—a supposed medium for light waves—they used an interferometer so precise it could spot tiny shifts in… Read more ›
Rethinking Gravity: A Novel Approach to Deriving the Gravitational Constant For years, I’ve been fascinated by the challenge of understanding Newton’s gravitational constant (G) – a value that physicists have long treated as an empirical constant measured experimentally but not… Read more ›
Expanding Space Gravity – Gravity propagating at light speed Realistic Gravity Propagation: How to Observe This Effect: This implementation correctly models the physics principle that gravity changes propagate at the speed of light, not instantaneously. It’s a great visualization of… Read more ›
Simulation of Orbits using Differential expansion of space mathematics. The masses move towards areas of reduced expansion. Scroll to ZOOM – Drag to PAN