if a rotating galaxy the force is acting outwards?

Question

why does the black hole contradict this theory because if the mass of the black hole is as described in the assumed theory, should not the black hole be rotating hence exherting a massive force of itself acting outwards? I see no reason that a black hole should not have the same rotational force, since it is born out of the same galaxy

thanks Goring, I am trying to comprehend the point you made about natural gravity of the universe,and accept your statement, but if I rotate a turntable with a ball on the periphery, then release it at a given speed, if you captured this ball in flight it would have a velosity variable to the force applied to the turn table, so where does this space gravity take effect, and if a dense mass of a black hole is rotating why is the force acting inwards, in theory this black hole should not form in the first place

Answer 1

For some reason of the mass structures of the Universe are spining. If a blackhole is considered a mass structure of high density if would follow the same rule. The Neutron is the densest structure, beside the mass of the light corpuscule,of the Universe,Hence it does also spin.
So a Black hole is considered a dense mass ,its not the densest. In reality its the NEUTRON.
About forces being exerted? forces are not exerted.They come into existance only and only during interaction between mass structures
What make things move and spin is not force ,but the Power of Gravity that exists in Space..

Answer 2

They think black holes do rotate, so you are probably exactly right about the black hole in the center of a galaxy rotating in the same direction of the galaxy.