I am pretty sure it becomes a giant if I'm not mistaken.
The next step in its life is to become a "red giant" star.
it becomes a supernova
red giant
A+ users
Giant
Giant
The next step in its life is to become a "red giant" star.
The inability of electrons to enter into neighboring electrons' quantum state will.
A white dwarf is what stars like the Sun become after they have exhausted their nuclear fuel. Near the end of its nuclear burning stage, this type of star expels most of its outer material, creating a planetary nebula. Only the hot core of the star remains. This core becomes a very hot white dwarf, with a temperature exceeding 100,000 kelvin.
The core contracts, raising the temperature and increasing the size of the region of hydrogen shell-burning.
No, a red giant is a massive star, and they do usually explode, not when their hydrogen fuel is depleted, but when it is diminished enough that the star's gravitational force is lessened to the point that it is weaker than the explosive force of the massive number of nuclear explosions occurring in it's core.
The next step in its life is to become a "red giant" star.
The next step in its life is to become a "red giant" star.
The inability of electrons to enter into neighboring electrons' quantum state will.
A white dwarf is what stars like the Sun become after they have exhausted their nuclear fuel. Near the end of its nuclear burning stage, this type of star expels most of its outer material, creating a planetary nebula. Only the hot core of the star remains. This core becomes a very hot white dwarf, with a temperature exceeding 100,000 kelvin.
The next step in its life is to become a "red giant" star.
The core contracts, raising the temperature and increasing the size of the region of hydrogen shell-burning.
Fuel leak at hose or fitting Carbon canister is exhausted
A star 8 time the mass of the Sun turns into a neutron star when it run out of fuel, become a supergiant, and undergo supernova explosion. After the explosion, a core remains. If the core is less than 3 Solar masses, it becomes a neutron star, or else it becomes a black hole.
When a star runs out of hydrogen fuel in its core, nuclear fusion slows down and the core contracts while the outer layers expand. The star becomes a red giant as it fuses heavier elements in its shell, until eventually it sheds its outer layers forming a planetary nebula, leaving behind a dense core known as a white dwarf.
The nuclear fuel is found in the fuel rods. These fuel rods are formed into fuel bundles called fuel assemblies, and together they make up the reactor core.
A large modern nuclear power plant typically has around 200-250 fuel assemblies in its core. Each fuel assembly contains numerous fuel rods that house the uranium fuel used to generate heat for electricity production.
Real unemployment, including those that have exhausted benefits, and real inflation, including fuel and food.