Electrons move to a lower energetic state within an atom or molecule when they release energy.
When an electron is acquired by a neutral atom, the energy change is called electron affinity. Neutral atoms with an s2p6 electron configuration in the highest energy level are best classified as gases.
It releases the same amount of energy that it absorbed when it was excited to a higher energy state.
The amount of energy that is absorbed is the same as the amount of energy that is released.
When an elctron is excited (has energy) it is extremely unstable, so it falls back to its previous energy level, and when it does this it releases energy, and this energy is viewed as wavelengths of light. So the color depends on the amount of energy the atom releases when it falls back to its lower energy level.
excitation
An excited electron releases a photon as it returns to ground state.
The amount of energy needed to move an electron from one energy level to another is called a quantum.
The excited electron move up.
When an electron is acquired by a neutral atom, the energy change is called electron affinity. Neutral atoms with an s2p6 electron configuration in the highest energy level are best classified as gases.
Electron Carriers.
To get excited, it must absorb energy. To get back to its ground state, it releases energy.
If an electron transits to a lower energy level, it releases a quantum of energy which is equivalent to the energy difference between the states. If the electron travels to upwards, it absorbs a similar quantum of energy.
It releases the same amount of energy that it absorbed when it was excited to a higher energy state.
exothermic oxidation, is where a molecule loses an electron(s), and releases heat energy in the process
lower energy level
energy
The amount of energy that is absorbed is the same as the amount of energy that is released.