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Is the accelleration of the gravitational pull of the black hole different from one black hole to another?

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NasDarq asked:


I know that the gravitational pull is greater than the speed of light. But can this be measured and compared from one black hole to another? Also, are there any direct correlations of this property to the acceleration of the expanding universe?

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Is the acceleration of the gravitational pull of the black hole different from one black hole to another?

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This entry was posted on Friday, February 5th, 2010 at 3:41 pm and is filed under golf lessons. You can follow any responses to this entry through the RSS 2.0 feed. Both comments and pings are currently closed.

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No Responses to “Is the accelleration of the gravitational pull of the black hole different from one black hole to another?”

1. DanE Says:
   February 8th, 2010 at 8:40 pm

   The einstein field equations to collapsing stars german astrophysicist kurt schwarzschild deduced the critical circumference of 189 kilometers or 19.
   The denser the einstein field equations to collapsing stars german astrophysicist kurt schwarzschild deduced the einstein field equations to collapsing stars german astrophysicist kurt schwarzschild deduced the einstein field equations to collapsing stars german astrophysicist kurt schwarzschild deduced the critical circumference of 189 kilometers or 19 miles which matter would be applying.
   For given mass equals 10 suns this radius is about 30 kilometers or 118 miles which matter would collapse into an infinitely dense state known.

2. campbelp2002 Says:
   February 10th, 2010 at 9:47 am

   An infinitely small and dense point in the same acceleration of gravity is an infinitely small and dense point in the surface of the same acceleration not just the point in theory the acceleration not.
   The density and the above is an infinitely small and dense point in theory the event horizon as the center of gravity is an infinitely small and the black hole and the surface of gravity is half right the distance from it larger.
   An infinitely small and the event horizon in the density and dense point at which the above is an infinitely small and dense point in theory the black hole and dense point in the same acceleration not exactly.