Luminosity Class Ia and Ib - Supergiants:
- Typically, Supergiants are stars that had have evolved off the main sequence. These stars are very bright because they have a large radius. There may be some that are blue, but the majority of them are red and lie in the upper right corner of the HR Diagram. Betelgeuse in Orion is an example of a supergiant. They come from massive stars that can no longer fuse hydrogen in their core and will one day supernova, leaving behind either a neutron star or a black hole.
- Giants that are brighter than "normal" giants, these are evolved medium mass stars (7 times or more heavier than the Sun). When they go supernova, they will most likely leave behind a neutron star.
- Evolved average mass stars (like the Sun). They will burn until they no longer can fuse elements in the core into heavier material. The Sun will become a giant once it stops fusing hydrogen in the core. These stars will have radii on the order of the Venus' orbit (0.7 AU) to Mars' orbit (1.4 AU). They become white dwarfs once fusion ends.
- Likely the next stage of evolution for low mass stars (M type dwarf stars). Too small to burn anything heavier than helium in their cores and may be too cool to even fuse helium. Probably become low mass white dwarfs.
- The luminosity class with the highest population. The majority of stars we see in the sky are class V. These are stars that fuse hydrogen into helium in their cores via the proton-proton chain or the CNO cycle (using carbon, nitrogen, and oxygen as catalysts to fuse hydrogen into helium). Depending on their masses, these stars can spend a few million years in this stage or billions of years (higher the mass, shorter the main sequence stage). Class V stars will evolve into the above classes.
- Stars that are too small to fuse hydrogen into helium. Probably brown dwarfs, but are still hot from formation.
- The final stage of a low mass star. No fusion occurs. The star is just slowly cooling off. These stars are found in the lower left corner. Very hot, but very due to being very small. This topic will be expanded on.
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