Entanglement physics: Newtonian mechanics involves entanglement, ether, and equivalence principle

Abstract

The essence of Newtonian mechanics is entanglement, which was inherited by quantum mechanics. Entanglement is a classical phenomenon based on the conservation of angular momentum and does not relate to quantization. Entanglement and propagation are the two wheels of physics. In this report, we show black hole mergers prove gravity entanglement. If we assume that gravity has a finite velocity, black holes are pulled slightly forward in the direction of travel, and gravity acts to accelerate the black holes; therefore, simulation conditions cannot be set, and we find that the assumption that gravity has a finite velocity is incorrect. This is because we cannot use the condition that the sum of kinetic and potential energies is constant. Gravity entanglement shows that entanglement continues permanently. Furthermore, Newtonian mechanics involves entanglement, ether, and equivalence principle.