What is the Difference Between Coordination Number and Oxidation Number?
🆚 Go to Comparative Table 🆚The difference between coordination number and oxidation number lies in their definitions and the concepts they represent in coordination chemistry:
- Coordination Number: This is the number of ligand atoms that are directly bonded to the central metal atom in a coordination compound. The coordination number can be related to the molecular geometry of the coordination compound. For example, in Co(NH3)6, the coordination number is 6 because there are six ligands (NH3) attached to the central atom Co.
- Oxidation Number: This is the charge of the central atom in a coordination compound if we remove all the ligands and electrons shared between the ligands and the central atom. To determine the oxidation number, you can start by figuring out the charges of the non-metal (non-transition) ions and then assign a charge to the central atom to make the overall molecule neutral in charge. For example, in the coordination complex [Fe(CN)6]3-, the oxidation number of iron (Fe) is +3.
In summary, the coordination number refers to the number of ligands attached to the central metal atom, while the oxidation number represents the charge of the central atom if all ligands and shared electrons are removed.
Comparative Table: Coordination Number vs Oxidation Number
Here is a table comparing the coordination number and oxidation number:
| Property | Coordination Number | Oxidation Number |
|---|---|---|
| Definition | The coordination number is the number of ligands attached to the metal center in a coordination complex. | The oxidation number is the charge of the central atom if all the ligands and electron pairs are removed. |
| Terminology | Ligands are atoms, ions, or molecules that donate electron pairs to the central metal atom. | The oxidation state is determined based on the charges of each ligand and the overall charge of the coordination compound. |
| Range | Coordination numbers are usually between 2 and 9, but higher values are possible. | Oxidation numbers can range from -1 to +8, depending on the electronegativity of the ligands and the overall charge of the coordination compound. |
| Relationship | The coordination number is related to the molecular geometry of the coordination compound. | The oxidation number helps determine the molecular geometry and the nature of the bonds between the ligands and the central atom. |
In summary, the coordination number refers to the number of ligands attached to the central atom in a coordination compound, while the oxidation number represents the charge of the central atom if all the ligands and electron pairs are removed. Both properties are essential for understanding the structure and reactivity of coordination compounds.
- Oxidation State vs Oxidation Number
- Valency vs Oxidation Number
- Oxidation Number vs Charge
- Ion Electron Method vs Oxidation Number Method
- Covalency vs Oxidation State
- Oxidation Number Method vs Half Reaction Method
- Oxidation vs Reduction
- Oxidation Reaction vs Reduction Reaction
- Valency vs Oxidation State
- Oxygenation vs Oxidation
- Oxidative Addition vs Reductive Elimination
- Oxidation Potential vs Reduction Potential
- Coordinate Covalent Bond vs Covalent Bond
- Formal Charge vs Oxidation State
- Coordination Compound vs Organometallic Compound
- Coordination Compound vs Complex Ion
- Oxidases vs Oxygenases
- Atomic Number vs Atomicity
- Corrosion vs Oxidation