![]() The limit was named after Subrahmanyan Chandrasekhar. The Tolman–Oppenheimer–Volkoff limit is theoretically a next level to reach in order for a neutron star to collapse into a denser form such as a black hole. White dwarfs with masses up to the Chandrasekhar limit remain stable. Consequently, a white dwarf with a mass greater than the limit is subject to further gravitational collapse, evolving into a different type of stellar remnant, such as a neutron star or black hole. The Chandrasekhar limit is the mass above which electron degeneracy pressure in the star's core is insufficient to balance the star's own gravitational self-attraction. White dwarfs resist gravitational collapse primarily through electron degeneracy pressure, compared to main sequence stars, which resist collapse through thermal pressure. The currently accepted value of the Chandrasekhar limit is about 1.4 M ☉ ( 2.765 ×10 30 kg). The Chandrasekhar limit ( / ˌ tʃ æ n d r ə ˈ ʃ eɪ k ər/) is the maximum mass of a stable white dwarf star. Maximum mass of a stable white dwarf star
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