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Eta Carina shape explained by sunspot gravity infl
16 years 9 months ago #20495
by Leo Vuyk
Reply from was created by Leo Vuyk
KNOTTY dark matter sources of the Helix nebula represent the former
"sunspots" of the former star, they seem to be less able to get
in motion by the explosion of the star than normal atomic material. This
is in line with the new black hole model. It is even suggested that
these knotty micro black hole "sunspots" have a gas producing
feature.
See:
bigbang-entanglement.blogspot.com/2006/0...could-influence.html
"sunspots" of the former star, they seem to be less able to get
in motion by the explosion of the star than normal atomic material. This
is in line with the new black hole model. It is even suggested that
these knotty micro black hole "sunspots" have a gas producing
feature.
See:
bigbang-entanglement.blogspot.com/2006/0...could-influence.html
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16 years 9 months ago #17703
by Leo Vuyk
Replied by Leo Vuyk on topic Reply from
The need for a new black hole theory.
Pairing black holes.
Gas/ dust pillar regions like the Carina nebula, seem to be cradles of stars and in addition, cradles for fast multiplying supernova black holes.
These newly formed black holes have a peculiar habit, they tend to pair in groups and form Herbig Haro objects, the start of an open star cluster in between these paired black holes.
See: bigbang-entanglement.blogspot.com/
Not only at this scale we can find such dumbbell structures but all over the cosmos, from HH objects to Galaxy clusters. See Coma cluster by Chandra image.
chandra.harvard.edu/photo/2002/0150/index.html
Conclusion, we need a new scenario for black holes, because they seem to repel Fermions and leave gas channels behind as in the Carina nebula.
Leo Vuyk.
Pairing black holes.
Gas/ dust pillar regions like the Carina nebula, seem to be cradles of stars and in addition, cradles for fast multiplying supernova black holes.
These newly formed black holes have a peculiar habit, they tend to pair in groups and form Herbig Haro objects, the start of an open star cluster in between these paired black holes.
See: bigbang-entanglement.blogspot.com/
Not only at this scale we can find such dumbbell structures but all over the cosmos, from HH objects to Galaxy clusters. See Coma cluster by Chandra image.
chandra.harvard.edu/photo/2002/0150/index.html
Conclusion, we need a new scenario for black holes, because they seem to repel Fermions and leave gas channels behind as in the Carina nebula.
Leo Vuyk.
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10 years 2 weeks ago #1221
by admin
Replied by admin on topic Test Topic
Hi There
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