Questions in electrochemistry

Select	Question
	Variation of resistance (R) with increase in cell constant gives graph of the type
	Resistivity of a material is equal to resistance when
	Cell constant is maximum in case of a
	$\Lambda _{AgCl}^{\infty }$ can be obtained
	ionisation constant of a weak acid ($HA$) in terms of $\Lambda _{m}^{\infty }$ and ${{\Lambda }_{m}}$ is
	Which has maximum conductivity
	The specific conductance of a 0.1 N $KCl$ solution at ${{23}^{o}}C$ is $0.012\,oh{{m}^{-1}}\,c{{m}^{-1}}$. The resistance of cell containing the solution at the same temperature was found to be 55 Ohm. The cell constant will be
	The conductivity of a saturated solution of $BaS{{O}_{4}}$ is $3.06\times {{10}^{-6}}\,oh{{m}^{-1}}\,c{{m}^{-1}}$ and its equivalent conductance is $1.53\,Oh{{m}^{-1}}\,c{{m}^{-1}}\,equivalen{{t}^{-1}}$. The ${{K}_{sp}}$ of the $BaS{{O}_{4}}$ will be
	The molar conductances of $NaCl$, $HCl$ and $C{{H}_{3}}COONa$ at infinite dilution are 126.45, 426.16 and $91\,Oh{{m}^{-1}}\,c{{m}^{2}}\,mo{{l}^{-1}}$ respectively. The molar conductance of $C{{H}_{3}}COOH$ at infinite dilution is
	The resistance of $0.01 N$ $NaCl$ solution at ${{25}^{o}}C$ is $200 \Omega$. Cell constant of conductivity cell is $1\,c{{m}^{-1}}$. The equivalent conductance is