(04-01-2022, 07:33 AM)vishnu Wrote: Sorry for the OT guys!
Population 1 stars, which started to form after the "final scattering" that is now observable as the cosmic microwave background, were formed from mostly hydrogen but with a little bit of helium, and a scant few heavier elements, for example one being lithium. A star's entire existence is a battle against gravitational collapse. Once the hydrogen and helium has been fused into heavier elements, the star's radiation output decreases, causing it to contract further, which raises its internal temperature high enough to begin fusing those heavier elements. Once the iron limit has been reached, the star can no longer forestall its gravitation collapse by radiating energy outward. If the star's mass is, somewhat approximately greater than three solar masses, which is to say, three times greater than the mass of our sun, even though it will blow off a lot of material in a Nova or Supernova event, the inner core of the star will collapse into a black hole.
Back on topic: Really cool titanium turbofan, what type of engine was it a part of? Enquiring minds want to know! 😁
It's an LP3 Fan Stage from an RAF Tornado Aircraft RR RB199 Jet Engine.
What if the singularity forms around the central mass of the star during the super nova event, meaning that is's left intact, as it doesn't travel through the singularity?
This could possibly cause "solar systems", some even containing life to be present within black holes, and thus hidden form the greater universe?
Also, more of the heavier elements would be found within the black hole, than in the ejected mass, rendering them valuable mining prospects as far as the greater universe is concerned!
You would however need the technology required to traverse a black hole!
