If you don't have enough pressure you'll collapse inward and you seen that when people lose all their teeth and their lips go right into their mouth because the teeth are the infrastructure to keep the lips from not being sucked into the black hole called the throat or the mouth because people could swallow their whole face if there was more pressure
And so while you might think this is mean this is the physics of collapsing inward or a dying star collapsing on itself.
This is the proof of gravitational forces when you don't have a proper infrastructure to keep the form of the bod mind ans spirit intact and relevant and credible
You've seen women who have been pregnant and their belly collapses after it's released that demon figuratively. You see the body having to deal with that pressure release before it's able to condition for and women destroy their bodies for their families.
Women get internally brutalized when they have to gain so much pressure in 9 months for somebody else..
And then the body spends the rest of its life trying to gain back what was lost which is why you see these mothers will die for their children
And then these children will die for their children and then that whole family is gone because the whole family self imploded like a dying star..
And so Hollywood is full of Illuminating Stars as they rise to the top the fall is just as great.
The aging process is when the body is collapsing in on itself like a dying star because you are Body Electric and you are Stardust
When a star collapses in on itself, it undergoes a massive explosion called a supernova, leaving behind a dense remnant core that can either be a neutron star (for stars of moderate mass) or a black hole (for very massive stars) depending on the initial mass of the star; essentially, the star's own gravity overcomes its internal pressure, causing it to implode dramatically.
Key points about a collapsing star:
Fuel depletion:
As a star runs out of hydrogen fuel in its core, the fusion reactions that generate outward pressure decrease, allowing gravity to pull the star inwards.
Core collapse:
This inward collapse causes the core to become extremely dense and hot, triggering further nuclear reactions that can produce heavier elements like iron.
Supernova explosion:
When the core reaches a critical density, it suddenly implodes, releasing a massive burst of energy and matter outwards in a supernova.
Remnant formation:
After the supernova, the remaining core can either become a neutron star, which is incredibly dense but still relatively small, or a black hole, which is so dense that not even light can escape.
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