Nuclear fusion is based on the helium nucleus synthesis from two hydrogen atoms at very high temperatures.
Nuclear Fusion
Fusion in chemistry refers to the process of combining two or more atoms to form a new, heavier atom. In the field of chemistry, fusion is important because it can release a large amount of energy, as seen in nuclear fusion reactions. This energy can be harnessed for various applications, such as generating electricity or powering spacecraft. Fusion also plays a role in understanding the fundamental building blocks of matter and the interactions between different elements.
Fusion is a nuclear reaction.
Nuclear fusion produces nuclear energy
We are constantly bombarded by cosmic radiation from space, and background radiation from the soil. However, both are background, and we have no biological processes that depend on nuclear reactions to survive.
Nuclear fusion
Nuclear chemistry is the chemistry involved in nuclear processes; in a large sense may be considered also the chemistry of radioactive elements. Sometimes radiation chemistry (radiochemistry) is considered a chapter of nuclear chemistry.
Nuclear fusion doesn't produce energy.
In nuclear fusion mass transforms into energy.
No Strontium is produced by nuclear fission not fusion.
Americium was not tested to produce nuclear fusion.
Yes, the sun is a nuclear fusion reactor.