Later in its life, our sun will become a red giant. Wikipedia has additional information, and a link is provided.
No. Hydrogen fusion occurs in the star's core.
The Sun energy is from hydrogen fusion.
In nuclear Hydrogen bomb is based on the principle of fusion. In fusion two hydrogen fuses to form one helium.
It's called the proton-proton cycle. It's the source of the sun's energy. Also called nuclear fusion.
The energy of the Sun is produced by nuclear fusion - the fusion of hydrogen into helium.
Typically, hydrogen-1 is converted into helium-4.
hydrogen fusion
No. Hydrogen fusion occurs in the star's core.
No. Fusion requires high concentrations of Hydrogen. Planets are made from substantially heavier elements. Additionally, a planet massive enough to begin a fusion reaction literally becomes a star.
No. Fusion requires high concentrations of Hydrogen. Planets are made from substantially heavier elements. Additionally, a planet massive enough to begin a fusion reaction literally becomes a star.
Stars get their energy from nuclear fusion - mainly, hydrogen to helium.Stars get their energy from nuclear fusion - mainly, hydrogen to helium.Stars get their energy from nuclear fusion - mainly, hydrogen to helium.Stars get their energy from nuclear fusion - mainly, hydrogen to helium.
Nuclear fusion. Specifically, hydrogen gets converted to helium.Nuclear fusion. Specifically, hydrogen gets converted to helium.Nuclear fusion. Specifically, hydrogen gets converted to helium.Nuclear fusion. Specifically, hydrogen gets converted to helium.
The Sun energy is from hydrogen fusion.
In nuclear Hydrogen bomb is based on the principle of fusion. In fusion two hydrogen fuses to form one helium.
When hydrogen stocks run out
The nuclear fusion uses Hydrogen to produce Helium. The fusion also releases a lot of energy, which is what causes the explosion.
Carbon fusion requires much higher temperatures and pressures than ordinary hydrogen fusion.