Nuclear fusion occurs in the solar core.
Nuclear fusion is the process that powers stars, such as our sun.
Hydrogen fusion does not occur in the corona of the sun. Fusion reactions occur in the sun's core where conditions are hot and dense enough for hydrogen nuclei to combine to form helium, releasing energy in the process. The corona is cooler and less dense than the core, so fusion cannot take place there.
In the core of the Sun, hydrogen atoms fuse to form helium in a process known as hydrogen fusion. This is the primary fusion process occurring in the Sun. As the core hydrogen is depleted, helium fusion into heavier elements like carbon and oxygen will occur in later stages of the Sun's evolution.
Interior of the sun.
No, while it is hot enough the pressure is too low.
There is no fire in the sun, that is a chemical process. The process in the core is thermonuclear fusion.
The innermost layer of the sun is called the core. It is where nuclear fusion reactions occur, generating the energy that powers the sun's immense heat and light.
Fusion occurs in the sun.
Fusion occurs in the sun.
Fusion occurs in the core of the Sun
It has to be at hundreds of millions of degrees kelvin, before a fusion reaction between deuterium and tritium will start
The core of the Sun is the layer that contains the densest material. It is where nuclear fusion reactions occur, resulting in high temperatures and pressures, which contribute to the density of the core.
Fusion occurs in the core of the sun and other stars.
The Sun's core is hotter, and at a higher pressure, than the outer layers. I assume there is a very small amount of fusion in the outer layers, but not enough to make a real difference.
They occur on the photosphere of the Sun.
yes nuclear fusion does occur on the sun, creating intense heat and light
Fission does not occur in the sun, it is fusion which produces the sun's energy