This paper clarifies section 4.1 of the original paper on gravity emergence from entanglement, distinguishing between examples and actual expectation for EPR entanglement of isolated EPR entangled particles. In that paper we started from a hypothetical multi-fold universe U_MF, where the propagation of everything is slower or equal to the speed of light and where entanglement extends the set of paths available to Path Integrals. This multifold mechanism enables EPR (Einstein-Podolsky-Rosen) "spooky actions at distance" to result from local interactions in the resulting folds. It produces gravity-like attractive effective potentials in the spacetime, between entangled entities, that are caused by the curvature of the folds. When quantized, multi-folds correspond to gravitons and they are enablers of EPR entanglement. Gravity emerges non-perturbative and covariant from EPR entanglement between virtual particles surrounding an entity. In U_MF, we encounter mechanisms that predict gravity fluctuations when entanglement is present, including in macroscopic entanglements.