In the following reaction:
`NO_(3)^(ɵ)+As_(2)S_(3)+H_(2)OtoAs_(4)^(3-)+NO+SO_(4)^(2-)+H^(o+)` ltbr. The equivalent weight of `As_(2)S_(3)` (with molecular weight M) is:

As_(2)S_(3) is

Equivalent weight of H_(3) PO_(2) is ( M rarr molecular weight)

28 NO_(3)^(-)+3As_(2)S_(3)+4H_(2)O rarr 6AsO_(4)^(3-)+28NO+9SO_(4)^(2-)+H^(+) What will be the equivalent mass of As_(2)S_(3) in the above reaction?

As_(2)S_(3) sol is ,

In the following reaction, SO_(2) acts as a reducing agent: SO_(2)+Cl_(2)+2H_(2)O to H_(2)SO_(4)+3HCl Find the equivalent weight of SO_(2) .

In the section :Na_(2)S_(2)O_(3)+4Cl_(2)+5H_(2)O rarr Na_(2)SO_(4)+H_(2)SO_(4)+8HCl . the equivalent weight of Na_(2)S_(2)O_(3) will be : (M= molecular weight of Na_(2)S_(2)O_(3) )

In the following reaction, As_2S_3 + H^+ +NO_3^- rarr NO + H_2O+As O_4^(3-) + SO_4^(2-) the equivalent mass of As_2 S_3 is related to its molecular mass M by :

In the following reaction As_(2)S_(3)+NO_(3)^(ɵ)+H_(2)OtoAsO_(4)^(3-)+SO_(4)^(2-)+NO+H^(o+) The number of electrons involved in the oxidation reaction is

As_(2)S_(3)+7NaClO_(3)+12NaOHrarr2Na_(3)AsO_(4)+7NaClO+3Na_(2)SO_(4)+6H_(2)O The equivalent weight of As_(2)S_(3) is

For the reaction 3Br_(2)+6OH^(ө)-ltBr^(ө)+BrO_(3)^(ө)+3H_(2)O Equivalent weight of Br_(2) (molecular weitht M) is