# Electron Configuration Of Neon Noble Gas

### When using neon to write the electron configuration for sodium, you will have one electron leftover:

Electron configuration of neon noble gas. We can use noble gas notation to save us some time so we're saying the electron configuration is the same as neon. Neon has 2 and 8 electrons per shell; These elements are found in the 18th column of the periodic table and include helium (he), neon (ne), argon (ar), krypton (kr), xenon (xe) and radon (rn).

Noble gases are unreactive as their valence shells are filled. Remove these energy levels and leave what remains. Therefore, the abbreviated electron configuration of sodium is [ne]3s 1 (the electron configuration of neon is 1s 2 2s 2 2p 6, which can be abbreviated to [he]2s 2 2p 6).

Let me use a different color. As you can see, sodium has a 3s 1 that neon does not have, therefore, the noble gas configuration for sodium would be [ne]3s 1. The noble gas electron configuration for sulfur is ne {eq}3s^2 3p^4 {/eq}.

In writing the electron configuration for neon the first two electrons will go in the 1s orbital. Alternatively, you can count the superscripts of the energy levels until you get to ten. Let's just go all the way over here to aluminum.

Electron configuration of neonthe electron configuration of neon (ne), with two complete energy levels, 1s 2 and 2s 2 2p 6. What is the full electron configuration of neon use a periodic table as needed? In order to achieve this noble gas status, and thus stability, nitrogen would need to fill it's 2p sublevel with 3 more electrons for a configuration the same as neon.

This provides the basis for a shorthand notation for electron configurations called the noble gas. Neon is the tenth element with a total of 10 electrons. This means the configuration is the same as the element neon, which is.