BrO3- Lewis structure - Learnool (2024)

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BrO₃^– (bromate) has one bromine atom and three oxygen atoms.

In the BrO₃^– Lewis structure, there is one single bond and two double bonds around the bromine atom, with three oxygen atoms attached to it. The oxygen atom with a single bond has three lone pairs, the two oxygen atoms with double bonds have two lone pairs, and the bromine atom has one lone pair.

Also, there is a negative (-1) charge on the oxygen atom with a single bond.

Contents

Steps

Here’s how you can easily draw the BrO₃^– Lewis structure step by step:

#1 Draw a rough skeleton structure
#2 Mention lone pairs on the atoms
#3 If needed, mention formal charges on the atoms
#4 Minimize formal charges by converting lone pairs of the atoms, and try to get a stable Lewis structure
#5 Repeat step 4 again if needed, until all charges are minimized

Now, let’s take a closer look at each step mentioned above.

#1 Draw a rough skeleton structure

First, determine the total number of valence electrons

In the periodic table, bromine lies in group 17, and oxygen lies in group 16.

Hence, bromine has seven valence electrons and oxygen has six valence electrons.

Since BrO₃^– has one bromine atom and three oxygen atoms, so…

Valence electrons of one bromine atom = 7 × 1 = 7
Valence electrons of three oxygen atoms = 6 × 3 = 18

Now the BrO₃^– has a negative (-1) charge, so we have to add one more electron.

So the total valence electrons = 7 + 18 + 1 = 26

Learn how to find: Bromine valence electrons and Oxygen valence electrons

Second, find the total electron pairs

We have a total of 26 valence electrons. And when we divide this value by two, we get the value of total electron pairs.

Total electron pairs = total valence electrons ÷ 2

So the total electron pairs = 26 ÷ 2 = 13

Third, determine the central atom

We have to place the least electronegative atom at the center.

Since bromine is less electronegative than oxygen, assume that the central atom is bromine.

Therefore, place bromine in the center and oxygens on either side.

And finally, draw the rough sketch

#2 Mention lone pairs on the atoms

Here, we have a total of 13 electron pairs. And three Br — O bonds are already marked. So we have to only mark the remaining ten electron pairs as lone pairs on the sketch.

Also remember that bromine is a period 4 element, so it can keep more than 8 electrons in its last shell. And oxygen is a period 2 element, so it can not keep more than 8 electrons in its last shell.

Always start to mark the lone pairs from outside atoms. Here, the outside atoms are oxygens.

So for each oxygen, there are three lone pairs, and for bromine, there is one lone pair.

#3 If needed, mention formal charges on the atoms

Use the following formula to calculate the formal charges on atoms:

Formal charge = valence electrons – nonbonding electrons – ½ bonding electrons

For bromine atom, formal charge = 7 – 2 – ½ (6) = +2

For each oxygen atom, formal charge = 6 – 6 – ½ (2) = -1

Here, both bromine and oxygen atoms have charges, so mark them on the sketch as follows:

The above structure is not a stable Lewis structure because both bromine and oxygen atoms have charges. Therefore, reduce the charges (as below) by converting lone pairs to bonds.

#4 Minimize formal charges by converting lone pairs of the atoms

Convert a lone pair of the oxygen atom to make a new Br — O bond with the bromine atom as follows:

#5 Since there are charges on atoms, repeat step 4 again

Since there are charges on bromine and oxygen atoms, again convert a lone pair of the oxygen atom to make a new Br — O bond with the bromine atom as follows:

In the above structure, you can see that the central atom (bromine) forms an octet. And the outside atoms (oxygens) also form an octet. Hence, the octet rule is satisfied.

Now there is still a negative (-1) charge on the oxygen atom.

This is okay, because the structure with a negative charge on the most electronegative atom is the best Lewis structure. And in this case, the most electronegative element is oxygen.

Also, the above structure is more stable than the previous structures. Therefore, this structure is the most stable Lewis structure of BrO₃^–.

And since the BrO₃^– has a negative (-1) charge, mention that charge on the Lewis structure by drawing brackets as follows:

Next: CBr4 Lewis structure

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Learnool.com was founded by Deep Rana, who is a mechanical engineer by profession and a blogger by passion. He has a good conceptual knowledge on different educational topics and he provides the same on this website. He loves to learn something new everyday and believes that the best utilization of free time is developing a new skill.