November Entry: Dont Panic !

[Redrobes]

I was reading somewhere today that there are 6 septasqillion or whatever stars and the size of the universe is such and such and that therefore one divided by the other means that you get an average of 70 stars per lightyear cubed which is obviously very high. Knowing also that we are in a galaxy and that the distance between galaxies is vast then that implies that the number of stars in the center of a galaxy must be just extreme - astronomical in fact. So I gather that the white ball around the center of galaxies is just packed with stars in a very small space.

You have mentioned before that in black holes the gravity is so great that your head and feet get ripped apart from gravity gradients. If there are that many suns packed close enough together then presumably that same effect is true - or lets be more real, the distance across a star ship capable of getting to the center of a galaxy must have a considerable gravity gradient across it.

My question is: where approximately on the swirling disk of a galaxy is the gradient so great that its unlikely that a tough starship hull could possibly withstand the gravity gradient ?

Thats what I was getting at with the change from polar to spherical coords near the middle because I doubt any ship could go there. Even if the tech was around to create an artificial gravity field I would imagine that would take energy to do it and the energy consumption would be more than that of the capability of the ship.

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