The equivalent mass of a substance is the ratio of molecular mass to the number of electrons gained (or lost) or change in the oxidation state. That is,
equivalent mass = molecular mass/number of electrons gained or lost or
= molecular mass/change in oxidation state
Here, potassium permanganate changes to potassium manganate. The relevant chemical reaction is:
`MnO_4^(-) + e^(-) -> MnO_4^(2-)`
Only 1 electron is gained by permanganate ion to convert to manganate ion....
The equivalent mass of a substance is the ratio of molecular mass to the number of electrons gained (or lost) or change in the oxidation state. That is,
equivalent mass = molecular mass/number of electrons gained or lost or
= molecular mass/change in oxidation state
Here, potassium permanganate changes to potassium manganate. The relevant chemical reaction is:
`MnO_4^(-) + e^(-) -> MnO_4^(2-)`
Only 1 electron is gained by permanganate ion to convert to manganate ion. We can also see that the oxidation state of manganese is +7 in permanaganate ion and it changes to +6 in manganate ion. That is, the oxidation state changes by 1.
Thus, the equivalent mass = molecular mass/1 = molecular mass = M
Hence, the equivalent mass of KMnO4 is M when it converts over to K2MnO4.
Hope this helps.
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