hydrogen fusion in the core. eventually runs out of hydrogen in the core and hydrogen fusion moves to the shell whilst the core contracts (star expands into red giant)...star leaves the main sequence.
The main source of energy in the Sun and other stars is fusion of hydrogen atoms into helium atoms.
Fusion is the main energy source for stars. It is the process by which stars convert hydrogen into helium through nuclear reactions, releasing a tremendous amount of energy in the process. Fission, on the other hand, involves the splitting of atomic nuclei and is not the primary energy source for stars.
Nuclear fusion
The main source of energy for stars is nuclear fusion, where hydrogen atoms combine to form helium. This process releases a tremendous amount of energy in the form of light and heat, which is what allows stars to shine and emit heat.
Asteroid belts do not have a source of energy in the same way that planets or stars do. However, asteroids in the belt can gain energy from sunlight, which can cause them to rotate or move within the belt. Additionally, collisions between asteroids can also release energy.
The main source of energy in the Sun and other stars is fusion of hydrogen atoms into helium atoms.
Fusion is the main energy source for stars. It is the process by which stars convert hydrogen into helium through nuclear reactions, releasing a tremendous amount of energy in the process. Fission, on the other hand, involves the splitting of atomic nuclei and is not the primary energy source for stars.
Nuclear fusion
It's more like stars are being ASSOCIATED with magic, by people who believe in magic.
wla kang kwenta
The main source of energy for stars is nuclear fusion, where hydrogen atoms combine to form helium. This process releases a tremendous amount of energy in the form of light and heat, which is what allows stars to shine and emit heat.
The same as everywhere else. Every mass has associated energy. Every energy has associated mass. Possibly this question is about the energy output of stars. Usually, the more mass a star has the higher its rate of energy output.
helium atoms
No. They're too far away.
Nuclear fusion, usually by fusing hydrogen-1 to helium-4.
Asteroid belts do not have a source of energy in the same way that planets or stars do. However, asteroids in the belt can gain energy from sunlight, which can cause them to rotate or move within the belt. Additionally, collisions between asteroids can also release energy.
The energy source for stars, which produces vast amounts of heat and light, is the fusion of atomic nuclei in the star's core. In our own Sun, hydrogen is fused into helium; in older and heavier stars heavier elements may also undergo nuclear fusion.