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The relationship between black holes and the curvature of spacetime is a fundamental concept in the theory of general relativity. According to general relativity, mass and energy cause spacetime to curve, and the curvature of spacetime affects the motion of objects, including light.

When a massive object, such as a star, collapses under its own gravitational pull, it can form a black hole. A black hole is a region in spacetime where the gravitational field is so intense that nothing, not even light, can escape from it. The formation of a black hole leads to a significant curvature of spacetime in its vicinity.

The curvature of spacetime near a black hole is extreme. As mass is concentrated within a small volume, the curvature becomes very strong, causing a deep "well" in the fabric of spacetime. This curvature is responsible for the strong gravitational attraction associated with black holes.

Near the event horizon of a black hole, which is the boundary beyond which nothing can escape, spacetime is severely curved. The curvature is so intense that it causes a one-way flow of objects toward the black hole, preventing anything inside the event horizon from escaping, even light.

The curvature of spacetime around a black hole is described by the Schwarzschild metric, which is a solution to the Einstein field equations in general relativity. This metric describes the geometry of spacetime around a non-rotating, spherically symmetric black hole.

It's important to note that the concept of curvature of spacetime applies to any massive object, not just black holes. However, black holes represent extreme examples where the curvature becomes particularly significant due to the concentration of mass within a small region.

In summary, black holes are formed when massive objects collapse, and they create an intense curvature of spacetime in their vicinity. The strong gravitational attraction and the event horizon of black holes are consequences of this curvature, as described by the theory of general relativity.

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