Question:

The oxidation state of Mn in \(KMnO_4\) changes by 3 units in which medium?

Updated On: Aug 19, 2024
  • Strongly acidic
  • Strongly basic
  • Aqueous neutral
  • Weakly acidic
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The Correct Option is C

Solution and Explanation

The correct option is (C): Aqueous neutral
KMnO4 in the aqueous neutral medium that reduces to MnO\(_{2}\)
2KMnO\(_{4}\) + H\(_{2}\)\(\to\) 2MnO\(_{2}\) + 2KOH + \(\frac{3}{2}\) O\(_{2}\)
∴ The oxidation state of Mn in KMnO4 that changes from +7 to +4 i.e., by 3 units.

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Concepts Used:

Oxidation Number

Oxidation number, also called oxidation state, the total number of electrons that an atom either gains or loses in order to form a chemical bond with another atom.

Oxidation number of an atom is defined as the charge that an atom appears to have on forming ionic bonds with other heteroatoms. An atom having higher electronegativity (even if it forms a covalent bond) is given a negative oxidation state.

The definition, assigns oxidation state to an atom on conditions, that the atom –

  1. Bonds with heteroatoms.
  2. Always form ionic bonding by either gaining or losing electrons, irrespective of the actual nature of bonding.

Oxidation number is a formalized way of keeping track of oxidation state.

Read More: Oxidation and Reduction

Way To Find Oxidation Number Of An Atom?

Oxidation number or state of an atom/ion is the number of electrons an atom/ion that the molecule has either gained or lost compared to the neutral atom. Electropositive metal atoms, of group I, 2 and 3 lose a specific number of electrons and have always constant positive oxidation numbers.

In molecules, more electronegative atom gain electrons from a less electronegative atom and have negative oxidation states. The numerical value of the oxidation state is equal to the number of electrons lost or gained.

Oxidation number or oxidation state of an atom or ion in a molecule/ion is assigned by:

  1. Summing up the constant oxidation state of other atoms/molecules/ions that are bonded to it and
  2. Equating, the total oxidation state of a molecule or ion to the total charge of the molecule or ion.