The nuclear reaction that occurs in the sun is fusion. This process involves the fusing of hydrogen atoms to form helium, releasing a large amount of energy in the form of light and heat. Fusion is the main source of energy for the sun and other stars.
Fusion takes place in the core, where the temperature and pressure are much higher, which is necessary for fusion.
Nuclear fusion normally occurs at high temperatures and pressures. A fusion reaction would melt the container and would have to be suspended by a magnetic field in a vacuum and the container would have to be continually cooled to prevent a meltdown.
Its called as nuclear fusion. The nucleus of hydrogen atoms fuse together and form helium nucleus. There is some difference of the two masses resulting it to become energy by Einstein's formulae e=mc^2
In the sun, nuclear fusion occurs when hydrogen atoms combine to form helium. This process releases a large amount of energy in the form of light and heat. The immense pressure and temperature at the sun's core enable this fusion reaction to occur, sustaining the sun's energy output.
Nuclear Fusion
Nuclear fusion is the type of nuclear reaction that occurs in stars. Older stars with a collapsing center can exceed a temperature of one hundred million Kelvin.
It has to be at hundreds of millions of degrees kelvin, before a fusion reaction between deuterium and tritium will start
The nuclear reaction that occurs in the sun is fusion. This process involves the fusing of hydrogen atoms to form helium, releasing a large amount of energy in the form of light and heat. Fusion is the main source of energy for the sun and other stars.
Fusion takes place in the core, where the temperature and pressure are much higher, which is necessary for fusion.
Nuclear Fusion
The proton-proton chain accounts for more than 98% of the fusion reactions in our Sun. The balance in the carbon-nitrogen-oxygen catalytic chain reaction.
Nuclear fusion.
Nuclear fusion requires very high temperatures and immense pressures to start and continue. The problems with a nuclear fusion reactor would be:- 1) the high temperatures would melt the container: therefore, the reaction would have to be stored in a vacuum suspended by a magnetic field and the reactor would have to be continually cooled. 2) nuclear fusion occurs naturally in stars such as our sun: unless the fusion reaction was limited in size in some way, it would be likely that our planet is vapourised by the reaction.
Nuclear fusion normally occurs at high temperatures and pressures. A fusion reaction would melt the container and would have to be suspended by a magnetic field in a vacuum and the container would have to be continually cooled to prevent a meltdown.
Nuclear fusion is the process in which two nuclei combine to form a single nucleus. This reaction releases a large amount of energy and is the process that powers the sun and other stars.
Its called as nuclear fusion. The nucleus of hydrogen atoms fuse together and form helium nucleus. There is some difference of the two masses resulting it to become energy by Einstein's formulae e=mc^2