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A Schwarzschild black hole is a non-rotating black hole. The Kerr black hole is a rotating black hole. Since the latter is more complicated to describe, it was developed much later.

A Schwarzschild black hole is a non-rotating black hole. The Kerr black hole is a rotating black hole. Since the latter is more complicated to describe, it was developed much later.

A Schwarzschild black hole is a non-rotating black hole. The Kerr black hole is a rotating black hole. Since the latter is more complicated to describe, it was developed much later.

A Schwarzschild black hole is a non-rotating black hole. The Kerr black hole is a rotating black hole. Since the latter is more complicated to describe, it was developed much later.

Q: What is the difference between a Scchwarzschild and a Kerr black hole?
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A Schwarzschild black hole is a non-rotating black hole. The Kerr black hole is a rotating black hole. Since the latter is more complicated to describe, it was developed much later.

A Schwarzschild black hole is a non-rotating black hole. The Kerr black hole is a rotating black hole. Since the latter is more complicated to describe, it was developed much later.

A Schwarzschild black hole is a non-rotating black hole. The Kerr black hole is a rotating black hole. Since the latter is more complicated to describe, it was developed much later.

A Schwarzschild black hole is a non-rotating black hole. The Kerr black hole is a rotating black hole. Since the latter is more complicated to describe, it was developed much later.

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Rotating is spinning around. non rotating isn't, The earth would be sucked into the sun if it collapsed into a black hole.

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No.

Why would anyone think so?

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Roy Kerr, a mathematician from New Zealand, discovered the solution to the equations of general relativity that describes a rotating black hole.

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The rotation is not related to the black hole's ability to attract matter. The attraction depends only on the black hole's mass.

The rotation is not related to the black hole's ability to attract matter. The attraction depends only on the black hole's mass.

The rotation is not related to the black hole's ability to attract matter. The attraction depends only on the black hole's mass.

The rotation is not related to the black hole's ability to attract matter. The attraction depends only on the black hole's mass.

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