Gravity and Black Holes.

Let’s break it down:

1. Strong Force and Black Holes: If the strong force creates the intense warping of space-time near the nucleus or in extreme cases like black holes, this could mean that the strong force's effects are intimately linked with the curvature of space-time. In conventional physics, black holes are regions where space-time curvature becomes so extreme that not even light can escape. If the strong force contributes to this warping, it might be acting in a manner that is fundamentally tied to the creation and nature of black holes.

2. Gravity and Black Holes: The fact that gravity can be observed outside a black hole, and the black hole still has its mass, despite the intense curvature, suggests that space-time itself is being warped at a great scale very similar to how space is warped around the nucleus, only there is not enough quarks in the nucleus to reach the speed of light, like in a black hole. In this framework, if the strong force creates the warping, gravity and mass could be a residual effect of this warping extending beyond the black hole's event horizon.

3. Space-Time and Gravity: If the strong force is responsible for the warping of space-time, this might imply that the gravitational effects we observe are a consequence of this warping. The strong force, in this sense, could be creating a kind of "space-time membrane" that influences gravitational effects, even in regions where space-time curvature is extreme, like near black holes.

4. Escape of Gravity: The idea that gravity can "escape" a black hole is wrong, gravity and mass is an emergent property of the the space folding around the collapsing start using the strong force. This might be because the atoms are breaking apart and the quarks are all mixing freely, but still all generating the strong force. The strong force might be responsible for the way space-time curvature is structured, allowing for gravitational effects to manifest even in regions where local space-time curvature is extreme.

In summary, if the strong force is responsible for the extreme warping of space-time seen in black holes, it could indeed offer a new perspective on why gravitational effects and mass of the original object can be observed outside the event horizon. This would suggest that gravity is a byproduct of the strong force’s influence on space-time, rather than a separate force entirely.