Quantum Gravity
Uncovering Gravity as Geometry—Not a Force
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For decades, physicists have tried—and failed—to treat gravity as just another quantum force, alongside electromagnetism and the nuclear interactions. But gravity, according to Einstein, is not a force. It’s a property of spacetime geometry itself.
This failure stems from a mismatch of magnitudes: the electromagnetic force is 10²³ times stronger than gravity. In most scenarios, electric charges cancel out, while gravity accumulates due to mass—explaining why we feel its effects at planetary scales.
Does this mean unification is impossible? Not at all. It simply means that gravity cannot be quantized like the other fundamental forces.
Our findings indicate that gravity is an emergent attribute of three-dimensional geometry and not a fundamental interaction mediated by force-carrying particles. Therefore, it does not require quantization in the traditional sense.
Instead of forcing a unification through Quantum Gravity, Automatski approached the Theory of Everything differently—by uncovering the underlying algorithms that govern the universe. These algorithms revealed the true structure of physical law, leading us to a working model of the Theory of Everything.
This is not unification through particle physics, but through computational physics—a theory born from simulation, not conjecture.