# What is the Ionic Charge of Neon (Ne)? And Why?

The Ionic Charge of Neon (Ne) is 0.

But the question is how can you find the ionic charge on Neon (Ne)?

Well there are 2 methods by which you can find the ionic charge of Neon (Ne).

Lets dive right into these methods one by one.

If you are a visual learner like me, then here is a short two minute video for you.

## Method 1: By looking at the ionic charge trends on periodic table

This is a very simple method to determine the ionic charge of the monatomic ions.

First of all, let’s look at the group-wise ionic charge trends on the periodic table.

You can see in the above periodic table that;

• Elements of group 1 have 1+ ionic charge,
• Elements of group 2 have 2+ ionic charge,

(Exclude transition metals, because they have variable ionic charges)

• Elements of group 13 have 3+ ionic charge,

(Exclude group 14, because they can have 4+ or 4- ionic charges)

• Elements of group 15 have 3- ionic charge,
• Elements of group 16 have 2- ionic charge,
• Elements of group 17 have 1- ionic charge,
• Elements of group 18 have 0 ionic charge,

Now here our element is Neon (Ne) which lies in group 18 of the periodic table.

Hence the ionic charge of Neon (Ne) is 0.

Note:
The blank area shown in the above periodic table are mostly the transition and post-transition elements.
They show variable ionic charge.
Hence we cannot find their ionic charge by simply looking at the periodic table.
In order to find the charge of these elements, we need to look at what it is bonded with.

Okay so now let’s see another method to find the ionic charge of Neon (Ne).

## Method 2: By using electron configuration

The electron configuration of Neon is: 1s2 2s2 2p6 or [He] 2s2 2p6. [1]

You can see that the outermost orbit of Neon has 8 electrons and it is completely filled.

As the outermost orbit is completely filled, neon does not show any chemical reaction.

This means that neon does not lose or gain any electrons, so it cannot form ion.

Hence the ionic charge of Neon (Ne) is 0.

I hope you have understood the reason behind the 0 charge of neon.

Check out some other related topics for your practice.

Author
##### Jay Rana

Jay is an educator and has helped more than 100,000 students in their studies by providing simple and easy explanations on different science-related topics. With a desire to make learning accessible for everyone, he founded Knords Learning, an online learning platform that provides students with easily understandable explanations.