I was musing on where black holes might have come from, when an idea came to me... follow me to see if I have a valid idea.
After the Big Bang when the first Hydrogen was formed in quantities large enough to for the first stars to come into being, there must have been billions of new stars with no galaxies about.
Okay, so when these stars eventually went super nova and thus eventually neutron stars, then the collapsing neutron stars become, eventually, the first black holes. Thus, the gravity of the BH pulls more gas and thus newer stars into it influence forming the first galaxies.
Does this feel to you like a reasonable hypothesis?
Anyone except the ugly tart from Oklahoma is allowed to answer.
After the Big Bang when the first Hydrogen was formed in quantities large enough to for the first stars to come into being, there must have been billions of new stars with no galaxies about.
Okay, so when these stars eventually went super nova and thus eventually neutron stars, then the collapsing neutron stars become, eventually, the first black holes. Thus, the gravity of the BH pulls more gas and thus newer stars into it influence forming the first galaxies.
Does this feel to you like a reasonable hypothesis?
Anyone except the ugly tart from Oklahoma is allowed to answer.
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This already IS a hypothesis, Basically by mapping the CMBR (Cosmic Microwave Background radiation) and looking at the temperature map of the early universe we are able to map where regions of high and low pressure/density are.
These regions correspond to regions of dense galaxy population today, so basically the dense regions just collapsed and eventually formed structure in the form of galaxies, stars, planets, moons... us... etc...
Black holes themselves come from the cores of large stars, A core of mass more than 3.3 solar masses will collapse to form a black hole and we suspect (using evidence) that this happens quite often.
Supermassive black holes are very common and are most likely at the center of 90% of galaxies, they're probably the product of a standard black hole gobbling up much of the sorrounding gas and matter over a long time period.
Super-Active galaxies called Quasars show massive jets of super-fast, super-heated matter ejecting from their poles, this is most likely due to a powerful black hole being unable to 'eat' all of the matter being thrown at it and it is shedding a lot of it away.
Quasars are not found in modern times, but are present in abundance in the early universe (we can observe them since as you look FAR away you're looking Back in time)
These regions correspond to regions of dense galaxy population today, so basically the dense regions just collapsed and eventually formed structure in the form of galaxies, stars, planets, moons... us... etc...
Black holes themselves come from the cores of large stars, A core of mass more than 3.3 solar masses will collapse to form a black hole and we suspect (using evidence) that this happens quite often.
Supermassive black holes are very common and are most likely at the center of 90% of galaxies, they're probably the product of a standard black hole gobbling up much of the sorrounding gas and matter over a long time period.
Super-Active galaxies called Quasars show massive jets of super-fast, super-heated matter ejecting from their poles, this is most likely due to a powerful black hole being unable to 'eat' all of the matter being thrown at it and it is shedding a lot of it away.
Quasars are not found in modern times, but are present in abundance in the early universe (we can observe them since as you look FAR away you're looking Back in time)
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