The most important fusion process in nature is that which powers the stars. The net result is the fusion of four protons into one alpha particle, with the release of two positrons, two neutrinos (which changes two of the protons into neutrons), and energy, but several individual reactions are involved, depending on the mass of the star. For stars the size of the sun or smaller, the proton-proton chain dominates.
Beryllium, Carbon And Oxygen yeah ima Nerd but your welcome
neutrinos, helium, and energy
helium ,light ,heat
helium, light, heat
He helium
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Sun contain hydrogen and helium and low concentrations of other elements..
The sun in composed of 25 percent helium. The other 75 percent is hydrogen. The sun also has small amounts of other elements such as neon, oxygen, carbon, and magnesium.
Inside the Sun - in the core - energy is produced. This keeps the Sun hot, producing the radiation which we see.Inside the Sun - in the core - energy is produced. This keeps the Sun hot, producing the radiation which we see.Inside the Sun - in the core - energy is produced. This keeps the Sun hot, producing the radiation which we see.Inside the Sun - in the core - energy is produced. This keeps the Sun hot, producing the radiation which we see.
Elements in the ray of light fromt he Sun.
because the sun has some elements & compounds that the earth needs to make elements
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The sun only produces one element: helium.The sun consumes hydrogen, via a two stage fusion process of first producing the intermediate heavy hydrogen isotope called deuterium, then from that producing helium.
The sun only produces one element: helium.The sun consumes hydrogen, via a two stage fusion process of first producing the intermediate heavy hydrogen isotope called deuterium, then from that producing helium.
From hydrogen, isotopes of helium are formed through nuclear reactions.
The temperature and pressure in the sun are just a bit higher than anywhere on Earth.
UV light is produced by the sun. The UV light produced by other stars is minimal once it reaches the sun and does not affect it in any appreciable way.
Well, Uranium is an element, while the sun is a nuclear reaction (fusion). All stars are fueled by fusion reactions, which produce elements inside their core all the way upto Iron. Heavier elements, such as Uranium (and gold, and silver, and mercury, and such) are produced when a very large star (larger then out sun) goes super nova. So much energy is released that the iron and other elements that were produced by fusion, are forced together to make even heavier elements. The reason that the sun (and all stars in their normal life span) stop at iron, is because Iron is the heaviest element that can be made by fusion before the process begins to use up energy, rather then yield energy.
The Sun's energy is produced in the Sun's core.
Over time, the fusion reactions can form as the reactions that form nuclei of slightly heavier elements, such as carbon, nitrogen, and oxygen. Thank you = )
Over time, the fusion reactions can form as the reactions that form nuclei of slightly heavier elements, such as carbon, nitrogen, and oxygen. Thank you = )