What core remnant mass typically leads to the formation of a black hole?
Answer
A core remnant exceeding about $3 M_{\odot}$
If the mass remaining in the collapsed core after the supernova explosion is too great, exceeding approximately three solar masses, no known force can prevent complete gravitational collapse into a black hole.
#Videos
What Factors Determine A Star's Final Lifecycle? - Physics Frontier
Related Questions
What fundamental characteristic dictates the ultimate fate of a star?What maintains the stable equilibrium within a star during its main sequence phase?What forms when a star with a mass up to about $0.5 M_{\odot}$ slowly burns its fuel?What mechanism supports a standard white dwarf against further gravitational collapse?When does the outward pressure from fusion suddenly cease in a massive star?What event is responsible for creating and scattering elements heavier than iron across the cosmos?What halts the core collapse to form a neutron star after a supernova?What core remnant mass typically leads to the formation of a black hole?How does the lifespan of a star compare inversely to its initial mass?Statistically, what is the expected end state for a randomly observed star in the universe?