gamma ray photon
During nuclear fusion, energy is released as a result of combining atomic nuclei to form heavier elements. This release of energy occurs due to the conversion of mass into energy, as dictated by Einstein's equation E=mc^2. This process is the same one that powers the sun and hydrogen bombs.
mass
the energy released during nuclear fission or fusion, esp. when used to gnerate electricity.
The energy stored in the center of atoms is called nuclear energy. This energy is released during nuclear reactions such as fission or fusion.
Nuclear energy is released during nuclear reactions, such as nuclear fission in power plants or nuclear fusion in the sun. This energy is harnessed to generate electricity or create powerful explosions in nuclear weapons.
In nuclear energy, energy is released through a process called nuclear fission or fusion. In nuclear fission, heavy atoms like uranium split into smaller ones, releasing a large amount of energy in the form of heat and radiation. In nuclear fusion, lighter atoms combine to form heavier ones, also releasing a significant amount of energy.
No, nuclear energy is not considered potential energy. Nuclear energy is the energy released during nuclear reactions, such as fission or fusion, and is a form of kinetic energy associated with the movement of atomic particles.
The binding energy between atoms is released.
the energy released during nuclear fission or fusion, esp. when used to gnerate electricity.
Definition: energy from nuclear fission or fusion: the energy released by nuclear fission or fusion
The only fusion energy in the universe is in the stars like the sun, and there are millions of such stars!
Nuclear energy
You think probable to the energy of fusion.
energy released during the process of nuclear fusion in the star's core
The energy released by either nuclear fission or nuclear fusion.
The energy released by a fission reaction is due to the splitting of heavy atomic nuclei, such as uranium or plutonium, into smaller fragments. In contrast, the energy released by a fusion reaction comes from combining light atomic nuclei, such as hydrogen isotopes, into a heavier nucleus. Both reactions release energy due to the mass difference between the reactants and the products, as described by Einstein's famous equation, E=mc^2.
Atomic energy is released during a nuclear reaction during fission or fusion. It is released by the nucleus of an atom and can also be a result of radioactive decay.
Energy is released during fusion and fission.
Nuclear Fusion