No. Stars that have depleted the hydrogen in their cores may start fusing heavier elements.
Hydrogen and helium are, by far, the most abundant substances in the universe.
All stars fuse hydrogen into helium - the slight difference in atomic weight between 4 hydrogen atoms and one helium atom, is given off as radiation.
These elements are found in are very important in each of the five stars. all five stars because the elements
For stars on the main sequence, Hydrogen and helium.
90% of all stars are at mid-life where their cores are fusing hydrogen into helium.
All stars contain hydrogen and helium.
Hydrogen and helium are, by far, the most abundant substances in the universe.
Hydrogen And Helium
All of them - but mostly hydrogen & helium.
All stars fuse hydrogen into helium - the slight difference in atomic weight between 4 hydrogen atoms and one helium atom, is given off as radiation.
hydrogen,All stars are composed primarily of hydrogen. Stars can also contain some other elements such as helium, but hydrogen accounts for the majority of a star's composition.
These elements are found in are very important in each of the five stars. all five stars because the elements
Nuclear fusion - converting hydrogen-1 to helium-4.
For stars on the main sequence, Hydrogen and helium.
Hydrogen and helium. It's better to ask which two ELEMENTS make up the bulk of the stars, since ALL elements in a star are in the gaseous state.
All stars fuse hydrogen into helium. Near the end of their lives, large stars progress to fusing helium into carbon.
Rigel is a star, and like all stars, it's mainly Hydrogen and Helium.