I assume you mean a DWARF STAR. There are different types of dwarf stars; the white dwarfs are fairly hot - but the reason they are dim is that they have a very small surface area.
A white dwarf is hot but dim compared to other stars. It is the hot core left behind after a star like the sun exhausts its nuclear fuel. Although it is very hot, its small size means it emits much less light than larger stars like our sun.
Plasma exists in the greatest quantity in stars, such as the Sun. The Sun's core is made up of extremely hot plasma where nuclear fusion processes occur.
It is the Post-Main sequence star that burns helium. They are considered giants, unlike our sun, which is a Yellow Dwarf. they are extremely hot and large.
That might be a white dwarf.
hot,dim stars.
hot, bright stars
stars that are dim probably have both a small mass and a larger radius.
White Dwarf Stars are very hot, like a ball of fire. They are dim because they are small and very far away.
I assume you mean a DWARF STAR. There are different types of dwarf stars; the white dwarfs are fairly hot - but the reason they are dim is that they have a very small surface area.
Because they are extremely hot.
Red giants, red supergiants.
Yes! Stars are made out of many gases that are extremely hot. But a sun can also have black spots on its surface which are cold.
A white dwarf is hot but dim compared to other stars. It is the hot core left behind after a star like the sun exhausts its nuclear fuel. Although it is very hot, its small size means it emits much less light than larger stars like our sun.
Stars are enormous balls of extremely hot gas, which are similar to our sun, but much farther away.
Yes. Stars are extremely hot. The sun is one of them. Some stars are even hotter and brighter than the sun.
Dim and hot stars are typically white dwarfs. White dwarfs are small, dense remnants of older stars that have exhausted their nuclear fuel and are no longer undergoing fusion reactions. Despite their high surface temperatures, white dwarfs emit lower total luminosity compared to younger, main sequence stars.