Match the column :- Column I (Reduction proce | vedclass

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(B) $(a) 	o (r), (b) 	o (s), (c) 	o (p), (d) 	o (q)$ $(a)$ $MnO_4^- 	o Mn^{2+}$: The oxidation state of $Mn$ changes from $+7$ to $+2$. The numbe

Vedclass · Accepted Answer

$a 	o r, b 	o s, c 	o q, d 	o p$

Vedclass · Answer

(B) $(a) 	o (r), (b) 	o (s), (c) 	o (p), (d) 	o (q)$ $(a)$ $MnO_4^- 	o Mn^{2+}$: The oxidation state of $Mn$ changes from $+7$ to $+2$. The number of electrons involved is $n = 5$. Charge $= 5 	imes 96500 \ C = 482500 \ C$. $(b)$ $Cr_2O_7^{2-} 	o Cr^{3+}$: The oxidation state of $Cr$ changes from $+6$ to $+3$. For $1$ mole of $Cr_2O_7^{2-}$,$2$ moles of $Cr$ atoms are reduced,so $n = 2 	imes 3 = 6$. Charge $= 6 	imes 96500 \ C = 579000 \ C$. $(c)$ $Sn^{4+} 	o Sn^{2+}$: The change in oxidation state is $4 - 2 = 2$. So,$n = 2$. Charge $= 2 	imes 96500 \ C = 193000 \ C$. $(d)$ $Al^{3+} 	o Al$: The change in oxidation state is $3 - 0 = 3$. So,$n = 3$. Charge $= 3 	imes 96500 \ C = 289500 \ C$.

Column $I$ (Reduction process)	Column $II$ (Charge required)
$(a)$ $1$ mol of $MnO_4^-$ to $Mn^{2+}$	$(p)$ $193000$ $C$
$(b)$ $1$ mol of $Cr_2O_7^{2-}$ to $Cr^{3+}$	$(q)$ $289500$ $C$
$(c)$ $1$ mol of $Sn^{4+}$ to $Sn^{2+}$	$(r)$ $482500$ $C$
$(d)$ $1$ mol of $Al^{3+}$ to $Al$	$(s)$ $579000$ $C$

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