Yes.
A red supergiant has the hottest core because it has exhausted its nuclear fuel in the core, causing the core to contract and heat up due to gravitational compression. This increased temperature is what leads the outer layers of the star to expand and cool, giving the star its red color.
Blue supergiant stars are typically the hottest among supergiant stars. They have surface temperatures ranging from about 20,000 to 50,000 degrees Celsius.
A non red giant is a giant, whereas a supergiant is well a supergiant and is a lot bigger.
the fourth stage of a star is "supergiant" and its also the hottest stage
A star that has exhausted its hydrogen supply is called a red giant or a red supergiant, depending on its initial mass. This stage occurs when the star begins to fuse heavier elements in its core, leading to its expansion and eventual evolution into a white dwarf, neutron star, or black hole.
A red supergiant has the hottest core because it has exhausted its nuclear fuel in the core, causing the core to contract and heat up due to gravitational compression. This increased temperature is what leads the outer layers of the star to expand and cool, giving the star its red color.
black hole
Blue supergiant stars are typically the hottest among supergiant stars. They have surface temperatures ranging from about 20,000 to 50,000 degrees Celsius.
A non red giant is a giant, whereas a supergiant is well a supergiant and is a lot bigger.
the fourth stage of a star is "supergiant" and its also the hottest stage
A star that has exhausted the hydrogen in its core will become a red giant or supergiant.
Yes, it is a red supergiant star.
A star that has exhausted its hydrogen supply is called a red giant or a red supergiant, depending on its initial mass. This stage occurs when the star begins to fuse heavier elements in its core, leading to its expansion and eventual evolution into a white dwarf, neutron star, or black hole.
the sun's core is the hottest part of the sun
The hottest supergiant star is known as R136a1, located in the Large Magellanic Cloud. It has a surface temperature of around 50,000 degrees Celsius, making it one of the hottest known stars in the universe.
When a star exhausts its core hydrogen fuel, it begins to fuse heavier elements like helium, carbon, and oxygen. This fusion process generates more energy in the core and causes the star to expand and become a huge star. This stage is known as a red giant or supergiant.
No. The sun is a G-type main sequence star, sometimes called a yellow dwarf.