Part III: Tension — The Thermodynamics of Gravity

In the first two volumes, we wove the skeleton of space (tensor networks) and verified its solidity (quantum error correction). Now, we must apply force to this static geometric structure.

When we throw a huge mass (such as a star) into this net woven from entanglement threads, what happens?

The net will sag. The threads will be pulled tight.

A “Tension” trying to restore the original state will propagate through the network.

This tension, in macroscopic physics, has a resounding name—Gravity.

This volume will subvert our traditional understanding of gravity. We will prove that gravity is not a fundamental interaction force; it does not need to exchange “gravitons.” Gravity is the “elastic recoil” produced when the spacetime fabric is subjected to information pressure. It is a thermodynamic response made by the universe to maintain maximum entanglement entropy.