NEW --- from --- Schrodinger's Universe
fitz
http://www.rbduncan.com/schrod.htm
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Spinning stars are acting more like fermions than we suspect: each
individual star has more effective quark to quark binding with the
black holes in the middle of all the galaxies — in the far away "fixed
stars" — than it does with closer stars where there are no black
holes. Therefore, with more far off binding than close binding, stars
have fermion behavior.
This is why we have spectacular supernova explosions: at first a
potential supernova star shrinks and not only gets denser but gets
stronger too because this internal quark to quark translational
binding is increasing causing the strength to increase while also
shrinking the star. But the quark to distant surrounding quark
translational binding is now increasing as well giving the shrinking
star far more mass. So this star is actually getting stronger and
shrinking, via internal binding increase, while at the same time its
binding to the quarks in the surrounding universe is increasing
(giving it more mass). However, this mass increase is really the
surrounding black holes in the universe trying to pull the star apart.
In the end it is this tremendous black hole binding force in the
surrounding universe that wins out and pulls the star apart in all
different directions. A supernova doesn't blow apart; it actually gets
pulled apart by all the black holes that are in the middle of all the
galaxies in the surrounding universe.
Now we begin to see why elements, stars and galaxies tend to be a
certain size. Every mass increase is also an increase in the inertial
pull of the surroundings in all directions.
That's what mass is: mass is the inertial pull of the surroundings in
all directions.
Life exists on earth because of supernova explosions. Life may end if
we encounter a supernova explosion in our own galaxy too.
Anyway, we would not even be here were it not for all those black
holes in the middle of all the galaxies surrounding us.
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