Inside stars, nuclear fusion combines smaller nuclei into larger nuclei, thus creating heavier elements
It combines atoms to create new and more massive elements and releases a great deal of energy.
Uranium and plutonium are the most commonly used elements in nuclear power plants. These elements undergo nuclear fission, releasing energy in the form of heat, which is then used to produce electricity.
Uranium and plutonium
All the nuclear fissions produce smaller elements from the larger element and few neutrons so that the fission reaction is continuously carried out.
The type of nuclear reaction that results in the production of synthetic elements is nuclear fusion. This process involves combining atomic nuclei to create new, heavier elements. In a controlled environment such as a nuclear reactor, scientists can create synthetic elements that do not occur naturally on Earth.
There are 118 Elements But It Is Constantly Changing As New Elements Are Being Discovered By The Power Of Nuclear Fusion.
nuclear fusion
When elements are combined to produce another element, this process is called nuclear fusion. Nuclear fusion is the process in which two lighter atomic nuclei combine to form a heavier nucleus, releasing a large amount of energy in the process. This is the process that powers the sun and other stars.
Both hydrogen bombs and stars produce energy through nuclear fusion reactions that convert hydrogen atoms into helium. This process releases a tremendous amount of energy in the form of light and heat.
Examples: - chemistry of water in nuclear reactors - separation of new artificial elements - radiochemical polymerization
Nuclear fusion
Heavy stars produce heavier elements through nuclear fusion in their cores. As heavy stars age and undergo supernova explosions, they release these heavier elements into the surrounding space, enriching it with elements beyond hydrogen and helium. Lighter stars are not massive enough to produce heavy elements through fusion.