it produces
The source of atomic energy is the "binding energy" that exists in the nucleus of all atoms. This is the energy that is contained in the union of the protons and neutrons of the nucleus. When the nucleus is split apart, the binding energy is released.
The energy released in a radioactive decay arises because the nucleus is moving from one energy level to a lower energy one. The link below gives a good outline explanation in the Explanation section.
Atomic energy is really a misnomer for nuclear energy. It is the fissioning of the nucleus which causes energy to be released. At the atomic level we are dealing with chemical reactions, but in the early days people did talk of atomic power and atomic bombs.
In general, electrons farther from the nucleus will have more energy than electrons closer in.
Because it comes entirely from the Atomic Nucleus.
The source of atomic energy is the "binding energy" that exists in the nucleus of all atoms. This is the energy that is contained in the union of the protons and neutrons of the nucleus. When the nucleus is split apart, the binding energy is released.
The energy released in a radioactive decay arises because the nucleus is moving from one energy level to a lower energy one. The link below gives a good outline explanation in the Explanation section.
Atomic energy is really a misnomer for nuclear energy. It is the fissioning of the nucleus which causes energy to be released. At the atomic level we are dealing with chemical reactions, but in the early days people did talk of atomic power and atomic bombs.
A nuclear reaction involves changes in the nucleus of an atom, and it is from the atomic nucleus that energy is released in a nuclear reaction.
In nuclear fission, a very large nucleus such as a uranium nucleus breaks apart into two smaller nuclei, and some energy is released as a result. If you can get a whole lot of heavy nuclei to undergo fission at the same time, the result is an atomic bomb.
It gets its energy from the atomic nucleus.
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.
The important energy is in the atomic nucleus.
energy derived from the atomic nucleus
In the atomic nucleus.
With nuclear fission, a large atomic nucleus (such as a uranium nucleus) breaks apart into smaller nuclei, and energy is released. With nuclear fusion, small atomic nuclei (such as hydrogen) join to become larger nuclei, and energy is released. Fusion of hydrogen releases much more energy than any other type of either fusion or fission. Note that the dividing line between heavy nuclei and light nuclei is the iron nucleus, which is at the perfect point of nuclear stability, so that neither fusion nor fission of iron nuclei would release any energy.
It takes its energy from the atomic nucleus.