Fussion
Nuclear energy is released during: fission radioactive decay man-induced splitting of atoms
Yes, radioactive decay results in the release of nuclear energy. The radioactive decay of an atom is the result of changes in the atom's nucleus, so energy released will be nuclear energy by definition.
It will decay to a more stable lighter elements and release out some nuclear energy.
Matter can be made to undergo nuclear decay in reactors, but it is a process that occurs spontaneously in nature.
If atoms are radioactive, they can emit alpha,beta, or gamma radiation. The energy of the particles or rays emitted depends on the exact isotopes concerned, and varies widely from one to another.
Energy
Energy
Nuclear decay is a process where an unstable nucleus releases energy in the form of radiation (such as alpha, beta, or gamma particles) to become more stable. This energy release can take the form of heat, light, or kinetic energy, depending on the type of decay.
Yes, the decay of unstable atomic nuclei is the source of nuclear radiation.
Nuclear energy is either:fission reaction, orfusion reaction, orradioactive decay
The force responsible for the release of energy in nuclear power plants and nuclear weapons is nuclear fission. This process involves splitting of atomic nuclei, which releases a significant amount of energy in the form of heat and radiation.
No, an input of energy is not required for nuclear decay to happen in an atom. Nuclear decay is a spontaneous process that occurs when an unstable nucleus emits particles or energy to become more stable.