Oxidation Numbers: Assigning oxidation numbers to atoms in chemical compounds - Examples
In a previous post entitled “Oxidation – Reduction (Redox) Reactions – Balancing Redox Reactions” the general steps for assigning oxidation numbers to atoms in a molecule or ion were presented. Assignment of oxidation numbers is a basic step for balancing redox reactions.
A few solved examples are given below:
Example #1
Calculate the oxidation number of the S atom in the following compounds: α) H2S b) SO4-2
α)
Step 1: Find the most electronegative atom
The most electronegative atom in H2S is the S atom
Step 2: The oxidation number of the most electronegative atom is equal to the charge of its ion
Since the charge of sulfur’s ion is unknown let’s suppose that is equal to x
Step 3: Oxidation numbers that are not known have to be calculated.
The oxidation number of H2S when it bonds to nonmetals (like S) is +1.
Since H2S is neutral the sum of the oxidation numbers must be equal to 0
H2S
(+1) * 2 + x = 0
2 + x = 0 and therefore x=oxidation number of S = -2
Therefore the oxidation number of S in H2S is equal to -2
b)
Step 1: Find the most electronegative atom
The most electronegative atom in SO4-2 is the O atom
Step 2: The oxidation number of the most electronegative atom is equal to the charge of its ion
The charge of oxygen ion is -2 in covalent compounds
Step 3: Oxidation numbers that are not known have to be calculated.
Since SO4-2 has a charge of -2 the sum of the oxidation numbers of the atoms of SO4-2 must be equal to -2. Let us suppose that the oxidation number of S is equal to x.
SO4-2
x+ 4 * (-2) = -2
x – 8 = -2 and therefore x = +6
Therefore, the oxidation number of S in SO4-2 is +6.
The above two examples show that an element can have more than one oxidation number (oxidation state) depending upon the other elements to which is attached.
Example #2
Calculate the oxidation number of the elements: a) propane C3H8 and b) S4O6-2
a)
Step 1: Find the most electronegative atom
The most electronegative atom in C3H8 is the C atom
Step 2: The oxidation number of the most electronegative atom is equal to the charge of its ion
The oxidation number of oxygen x is unknown and it has to be calculated. The oxidation number of hydrogen is +1 in covalent compounds.
Step 3: Oxidation numbers that are not known have to be calculated.
C3H8
(3 * x) + (8 * 1) = 3x + 8 = 0
⇒ x = -8/3
Therefore, the oxidation number of C in C3H8 is -8/3.
b)
Step 1: Find the most electronegative atom
The most electronegative atom in S4O6-2 is the O atom
Step 2: The oxidation number of the most electronegative atom is equal to the charge of its ion
The oxidation number of oxygen is equal to -2 in covalent compounds. Let us suppose that x is the oxidation number of the S atom
Step 3: Oxidation numbers that are not known have to be calculated.
S4O6-2
(4 * x) + (6 * (-2)) = -2
⇒ 4x - 12 = -2
⇒ 4x = 10 ⇒ x = +5/2
Therefore, the oxidation number of S in S4O6-2 is equal to +5/2
Relevant Posts - Relevant Videos
Oxidation – Reduction (Redox) Reactions – Balancing Redox Reactions
Oxidation - Reduction Reactions (Redox)
References
- David W. Oxtoby, H.P. Gillis, Alan Campion, “Principles of Modern Chemistry”, Sixth Edition, Thomson Brooks/Cole, 2008
- Steven S. Zumdahl, “Chemical Principles” 6th Edition, Houghton Mifflin Company, 2009
- Ralph H. Petrucci, “General Chemistry”, 3rd Edition, Macmillan Publishing Co., 1982
Key Terms
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