A theory without predictions is just philosophy. MATHTRUTH is a scientific framework, which means it must be falsifiable.
We present five unique experimental predictions where the Inverse Scaling Law (ISL) diverges from the Standard Model.
1. Decoherence Scales with Complexity
Standard Physics: Decoherence is caused by “environment coupling.” If you isolate a system perfectly, it should never decohere.
ISL Prediction: Decoherence is a “Garbage Collection” process of the kernel. Even in a perfect vacuum, a state with high complexity () carries high Risk (
).
Test: Build a quantum computer with varying qubit counts (). Isolate them identically. ISL predicts that the decoherence rate will scale as
purely due to information density limits.
2. Black Hole Information Acceleration
Standard Physics: Hawking Radiation is thermal and constant (until the very end).
ISL Prediction: As a black hole shrinks, its Surface-to-Volume ratio changes. The “Modularity Pressure” forces information to leak faster.
Test: In analog black hole simulations (Bose-Einstein Condensates), look for a deviation from the thermal spectrum—an “Information Burp” that accelerates as the horizon area decreases.
3. Galaxy Rotation without Dark Matter
Standard Physics: Galaxies spin too fast. We invent “Dark Matter” to explain it.
ISL Prediction: Gravity is an entropic force. At galactic scales, the “Modularity Overhead” of space itself adds an effective drag that mimics mass.
We can fit rotation curves using this simple correction, eliminating the need for invisible particles.
4. Planck Scale “Fuzziness”
Standard Physics: Spacetime is continuous until string scales.
ISL Prediction: Because bit-depth is finite, there should be a logarithmic correction to position uncertainty at microscopic scales.
Test: Next-generation interferometers (LIGO+) monitoring mirror positions may detect this “holographic noise.”
Conclusion
We invite the global physics community to prove us wrong. The data will decide.