Hydrogen (into Helium).
fusion reactions in stars
Fusion experiments and designs for fusion reactors generally focus on hydrogen, in the forms of deuterium (hydrogen-2) and/or tritium (hydrogen-3). It should be born in mind that there is not much preventing any atom of any natural element undergoing fusion with something else. In fact, virtually all of what is around us is either hydrogen or something made by fusion, and this includes all the heavy elements like lead uranium.
At the core of our sun, Helium is created by the thermonuclear fusion of Hydrogen.
Typically, hydrogen-1 is converted into helium-4.
Common elements used in nuclear reactions include uranium, plutonium, and thorium. These elements have isotopes that are capable of undergoing nuclear fission or fusion, releasing energy in the process. Neutrons are typically used to initiate the reactions by bombarding the nucleus of the target element.
Any element except Hydrogen technically. The product depends on what elements are undergoing nuclear fusion, e.g. 2 Hydrogen atoms form a Helium atom. You will need to specify for an answer.
Iron is the most massive element that can be formed by nuclear fusion with the liberation of energy. This is because fusion reactions beyond iron require an input of energy rather than liberating energy.
Yes, that's correct. Specifically, by nuclear fusion.
The combination of the center of atoms to produce a heavier element is called nuclear fusion.
Fusion reactions. Hydrogen nuclei are fused to make helium nuclei.(Interesting categories...)
Arsenic is an element. It is made (like all elements heavier than helium) by fusion reactions inside stars.
Yes, a red giant is a stage in the life cycle of a star where fusion reactions are occurring in its core. The core of a red giant star typically consists of helium undergoing fusion into heavier elements like carbon and oxygen.