WebApr 12, 2024 · Neutron stars can also orbit black holes. These ultra-dense objects have powerful magnetic fields. ... If a star and black hole get too close together, the black hole will pull material from its companion. ... Often, this stuff can turn into an accretion disk, which is basically just a bunch of gas, dust, and other stuff … circling the black ... WebThen the answer appears to be yes. The minimum mass for a neutron star is about 0.88 solar masses. The minimum mass required for it to collapse into a black hole is around 2.0 solar masses. As such it is possible for …
10 Questions You Might Have About Black Holes
WebJan 12, 2024 · For your more precise question, the upper bound to a non-rotating neutron star is the Tolman-Oppenheimer-Volkoff limit, which is between 2.1 to 2.3 solar masses. Beyond this, the neutron star will collapse into a black hole. We do not yet have a perfect quantitative understanding of the interior of a neutron star, so currently this question is ... WebJun 29, 2024 · While black holes are famous for having such a strong gravitational pull that nothing — not even light — can escape, neutron stars are plenty weird, too. 13.7: Cosmos And Culture A New Era For ... green christmas tree with snow
Rare black hole and neutron star collisions sighted twice in 10 days
WebJun 29, 2024 · In the first collision, which was detected on 5 January 2024, a black hole six-and-a-half times the mass of our Sun crashed into a neutron star that was 1.5 times more massive than our parent star ... WebOct 14, 2024 · A neutron star that is accreting matter or that merges with another neutron star, can form a black hole, if it accumulates enough mass that it is no longer stable. $^\star$ Originally I wrote "Chandrasekhar limit", but as pointed out by @ProfRob while this applies to white dwarves, for neutron stars the maximum mass is not simple to calculate ... WebMar 5 at 17:37. Add a comment. 3. The neutrons will never return once a black hole has formed and outgrown the neutron star. A black hole would exist within a neutron star … flow of a story