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Resonance Structure of Carbonate ((CO3)2-) Ions

This article in whole includes the details on the topic and an overview on the resonance of carbonate ((CO3)2-). This article also includes topics like how to draw the resonance structure of carbonate ions.

The term “resonance structure” refers to a collection of two or more Lewis Structures that together describe the electronic bonding of a single polyatomic species, including fractional bonds and charges. Resonance structures are capable of explaining delocalized electrons that cannot be described in an integer number of covalent bonds using a single Lewis formula.

The different structures are called resonance structures because they “resonate” with each other, implying that they are all equally acceptable representations of the molecule. The resonance structures are drawn with the same link lengths and angles, and the electrons are dispersed in the same way between the atoms. The electrons in a resonance structure participate in more than one covalent bond, and the electron pairs are shared between the atoms in diverse ways.

Even when formal charges are taken into account, the bonding of certain molecules or ions cannot always be described by a single Lewis structure. Resonance is a term used to describe delocalized electrons within specific compounds or polyatomic ions whose bonding cannot be represented using a single Lewis formula. Numerous contributing structures are used to depict a molecule or ion with such delocalized electrons (also called resonance structures or canonical forms).

The carbon atom is connected to two oxygen atoms in the first resonance structure. A dashed line indicates the double bond between the carbon and oxygen atoms. The carbon atom is connected to a single oxygen atom and a second carbon atom in the second resonance structure. A dashed line indicates the solitary link between the carbon and oxygen atoms. The carbon atom is connected to a single oxygen atom and a hydrogen atom in the third resonance structure. A dashed line indicates the solitary link between the carbon and oxygen atoms. The carbon atom is connected to a single oxygen atom and a chlorine atom in the fourth resonance structure. A dashed line indicates the solitary link between the carbon and oxygen atoms.

How to draw resonance structure of carbonate ion

As with ozone, the carbonate ion’s electronic structure cannot be explained by a single Lewis electron structure. Unlike O3, however, CO32- ‘s real structure is a composite of three resonance structures.

1. Due to the fact that carbon is the least electronegative element, it is positioned centrally:

The three oxygens are drawn in the shape of a triangle with the carbon at the center of the triangle.

2. Carbon has four valence electrons, each oxygen has six, and there are two more for the valence charge of two. This results in a total of 4 + (3*6) + 2 = 24 valence electrons.

3. Three bonding pairs between the oxygen and carbon atoms are formed using six electrons:

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4. We evenly distribute the remaining 18 electrons across the three oxygen atoms by attaching three lone pairs to each and showing the 2 charge:

The Lewis dot structure has a central carbon that is bonded to 3 oxygens. Each oxygen has 3 lone pairs. The molecule is inside square brackets and has a charge of minus 2.

5. There are no remaining electrons for the centre atom.

6. Because the carbon atom only has six valence electrons at this point, we must employ one lone pair from an oxygen to build a carbon–oxygen double bond. However, in this scenario, there are three viable options:

There are three possible oxygens to place the double bond in the Lewis dot structure.

As is the case with ozone, none of these structures precisely describes the bonding. Each anticipates the formation of one carbon–oxygen double bond and two carbon–oxygen single bonds, but all C–O bond lengths are identical experimentally. We can write the carbonate ion’s resonance structures (in this example, three of them) as follows:

The resonance structure includes all three Lewis dot structures with double headed arrows between them.

The final structure is a combination of these three resonance structures.

To complete the octet on the central atom, one oxygen atom must form a double bond with carbon. However, all oxygen atoms are equal, thus the double bond can originate from any of the three atoms. This results in the formation of three carbonate ion resonance forms. We know that the real arrangement of electrons in the carbonate ion is the average of the three configurations since we can write three identical resonance patterns. Again, studies demonstrate that all three C–O bonds are identical.

CONCLUSION

Resonance arises when two or more Lewis structures with similar atom configurations but distinct electron distributions can be written. The real electron distribution (the resonance hybrid) is a weighted average of the distribution represented by the various Lewis structures (the resonance forms). Formal charges can be assigned to each atom in a Lewis structure by considering each bond as if one-half of the electrons were assigned to each atom. These fictitious formal charges serve as a guide for establishing the optimal Lewis structure. It is preferable to have a structure with formal charges as near to zero as possible.

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What is the carbonate ion's resonance structure?

Ans. The carbonate ion’s resonance structure is shown below. The centre carbon atom is connected to three oxyg...Read full

How is the carbonate ion structured?

Ans. Carbonate is the most basic oxocarbon anion. It is composed of a single carbon atom surrounded by three oxygen ...Read full

Why is it that CO3 has a charge of two?

Ans. Carbonate is composed of one carbon atom and three oxygen atoms and has an electric charge of two. Due to its n...Read full

(CO3) 2- contains how many total valence electrons?

Ans. Carbon is the least electronegative element in the CO32- Lewis structure. As a result, it...Read full

Why is carbonate classified as an anion?

Ans. Carbonate is the most basic oxocarbon anion, consisting of a single carbon atom surrounded by three oxygen atom...Read full