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Match the column $(I)$ with column $(II)$ and mark the appropriate choice

	column $(I)$		column $(II)$
$(A)$	Kohlraush law	$(i)$	$\Lambda _{eq}^o = \Lambda _c^o + \Lambda _a^o$
$(B)$	Molar Conductivity	$(ii)$	$\Lambda _m = \frac{{K \times 1000}}{M}$
$(C)$	Degree of Dissociation	$(iii)$	$\alpha  = {\Lambda _m}/\Lambda _m^o$
$(D)$	Dissociation Constant	$(iv)$	${k_a} = C{\alpha ^2}/1 - \alpha $

• A
  $A \to (iii) ; B \to (iv) ; C \to (i) ; D \to (ii)$
• ✓
  $A \to (i) ; B \to (ii) ; C \to (iii) ; D \to (iv)$
• C
  $A \to (iv) ; B \to (i) ; C \to (ii) ; D \to (iii)$
• D
  $A \to (ii) ; B \to (iii) ; C \to (iv) ; D \to (i)$