The electrons and energy level are inversely related. Electrons are positively charged while the energy level is negatively charged which will result into a direct effect in the energy level when electrons move. .
The outer shell helps detrmine the electronigativity of that electron. and if it loses or gains electrons to oxidize or reduce.
In the Bohr model of the atom, an electron emits a photon when it moves from a higher energy level to a lower energy level.
Transition metals vary in the number of electrons in the highest level. Alkaline earth metals have two electrons in the highest energy level.
Hydrogen's electron configuration is 1s1. It has only one electron. It is located in the first energy level.
no , it only emits energy if it moves from a higher energy level to a lower energy level.
No. The greater distance from the nucleus the more energy an electron has.
The energy level the electron is in
Electron X absorbs energy when it changes to a higher energy level. Electron X absorbs energy when it changes to a higher energy level. It takes energy to do that.
Yes, the energy of an electron does vary depending on which energy level it occupies.
It is mostly related to the energy of the electron.
Yes, an electron's movement is related to its amount of energy. As a matter of fact, everything's movement, not just an electron's, is related to the amount of energy that that thing has. As the energy of an object increases, either its translational, rotational, vibrational, or some combination of the three, motion increases.
No, the energy released by electron might be taken by enviornment. Electron remains in the infuence of corresponding nuclei, in another energy level.
level one electron contain more energy
the electron will gain energy
The electron gains energy.
The K shell's 1s orbital is te first energy level of an electron.
If an electron is in the second principle energy level, that is, n = 2, then that electron could be in an s or p orbital.
The electrons on the outtermost energy level of an atom is called a valence electron.