Want this question answered?
That is an extremely odd way of phrasing it.The energy between two bonded atoms is the bond energy, but it's not the amount of energy required to "keep them held together", it's the energy required to pull them APART.If the atoms aren't bonded, then the force required to keep them together is a function of the distance between them (and the types of atoms they are). The usual approximation is the Lennard-Jones potential, which at the "holding them together" distance is usually described by a twelfth-degree polynomial, but I should stress again that this is an approximation.
ionization energy
Chemical energy
bond energy
This is a molecule.
Nuclear fusion. It needs to be hot enough for atoms of hydrogen to fuse together to produce a helium atom - this process releases a large amount of energy.
That is an extremely odd way of phrasing it.The energy between two bonded atoms is the bond energy, but it's not the amount of energy required to "keep them held together", it's the energy required to pull them APART.If the atoms aren't bonded, then the force required to keep them together is a function of the distance between them (and the types of atoms they are). The usual approximation is the Lennard-Jones potential, which at the "holding them together" distance is usually described by a twelfth-degree polynomial, but I should stress again that this is an approximation.
Chemical bonds store energy. This is called chemical energy. The chemical energy found inside the bond holds the atoms together.
ionization energy
The sun and other stars are hot enough and dense enough at their cores for nuclear fusion to occur. Hydrogen atoms fuse together into helium atoms, releasing a tremendous amount of energy in the process.
bond energy
Chemical energy
The energy in a glucose molecule is stored in the bonds between the atoms.
Atoms
As two atoms are getting drawn together by an attractive force their potential energy lowers.
Energy level
Solid, as they have the least amount of energy. Solid, as they have the least amount of energy. Solid, as they have the least amount of energy. Solid, as they have the least amount of energy.