Life cycle
When a massive star (one with a mass several times that of our Sun) exhausts its nuclear fuel, its core can no longer support its own weight. The core collapses inward, becoming incredibly dense. As the core collapses, it heats up, releasing immense amounts of energy in the form of a supernova explosion.
If the core that's left behind after the supernova is massive enough (typically more than three times the mass of our Sun), its gravity becomes so strong that it can bend spacetime and trap everything, including light. This creates a black hole.
Theory:
According to me, black holes are nothing more than specific points with infinite matter and gravity. They are essentially tiny spheres in space. The event horizon is simply the area where photons cannot escape, creating a dark region. That's why, after reaching the event horizon, we disappear, but we must be somewhere before the gravity tears us apart and ejects us. Black holes must be similar to neutron stars, but even denser. It cannot be true that they are merely black. The matter should be somewhere, as it is ejected later on. So much matter is released when stars die. Additionally, the stronger the gravity, the fewer photons escape, creating the event horizon where no light can escape.
Evidence:
While I may not have direct evidence, I have seen images showing that most of the matter goes into the center. And if black holes are so large, like the one inside the Milky Way, why haven't they collapsed?
Word Count: 236 words
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