excited state atoms
The energy required to break a chemical bond and form neutral isolated atoms is called bond dissociation energy or bond energy. It represents the amount of energy needed to break a specific chemical bond in a molecule into its isolated atoms.
The energy required to completely dissociate two atoms that are covalently bonded together is called bond dissociation energy.
This is referred to as "potential energy".
This type of energy is referred to as quantum energy. It exists at the atomic and subatomic level and is responsible for interactions within atoms, such as electronic transitions and binding energies.
Ions are atoms that have a postive or negative charge because they have loss or gained negative particles (electons).
You think to quanta.
Atoms that have lost or gained electron(s) are called ions. If they are positively charged (lost an electron(s)), they are called cations. If they are negatively charged (gained an electron(s), they are called anions.
The enrgy is always lost or gained in only the definite amount that is called as discrete or packet energy.
Atoms that carry an electrical charge because they gained or lost electrons are called ions. An atom that has lost electrons will be positively charged, and it is called cation. On the other hand, an atom that has gained electrons will be negatively charged, and it is called anion.
Energy gained by a body due to its motion is called Kinetic energy
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.When the atoms are merged, the nuclear energy is a result of what is called Nuclear Fusion. When the atoms are split, the nuclear energy is a result of what is called Nuclear Fission.
Chemical energy (a specific form of potential energy)
Compound energy
Compound energy
Nuclear energy is energy obtained from changes within atomic nuclei. When light atoms combine to form heavier atoms (for example, deuterium is converted to helium), it is called "fusion". When heavy atoms (for example, uranium-235) split, it is called "fission".Nuclear energy is energy obtained from changes within atomic nuclei. When light atoms combine to form heavier atoms (for example, deuterium is converted to helium), it is called "fusion". When heavy atoms (for example, uranium-235) split, it is called "fission".Nuclear energy is energy obtained from changes within atomic nuclei. When light atoms combine to form heavier atoms (for example, deuterium is converted to helium), it is called "fusion". When heavy atoms (for example, uranium-235) split, it is called "fission".Nuclear energy is energy obtained from changes within atomic nuclei. When light atoms combine to form heavier atoms (for example, deuterium is converted to helium), it is called "fusion". When heavy atoms (for example, uranium-235) split, it is called "fission".
Nuclear energy is energy obtained from changes within atomic nuclei. When light atoms combine to form heavier atoms (for example, deuterium is converted to helium), it is called "fusion". When heavy atoms (for example, uranium-235) split, it is called "fission".Nuclear energy is energy obtained from changes within atomic nuclei. When light atoms combine to form heavier atoms (for example, deuterium is converted to helium), it is called "fusion". When heavy atoms (for example, uranium-235) split, it is called "fission".Nuclear energy is energy obtained from changes within atomic nuclei. When light atoms combine to form heavier atoms (for example, deuterium is converted to helium), it is called "fusion". When heavy atoms (for example, uranium-235) split, it is called "fission".Nuclear energy is energy obtained from changes within atomic nuclei. When light atoms combine to form heavier atoms (for example, deuterium is converted to helium), it is called "fusion". When heavy atoms (for example, uranium-235) split, it is called "fission".