At 25°C the molar conductances at infinite dilution for the strong electrolytes NaOH, NaCl and `BaCl_(2)` are `248 xx 10^(-4) ,126 xx 10^(-4)` and `280xx10^(-4)Sm^(2)mol^(-1)` respectively, `lambda_(m)^(o) Ba(OH)_(2)` in ` Sm^(2)mol^(-1)`is

The molar conductance at infinite dilution of AgNO_(3), NaCl and NaNO_(3) are 116.5, 110.3 and 105.2 ohm^(-1)cm^(2)"mole"^(-1) respectively. The molar conductance of at infinite dilution is

At 298 K molar conductivities at infinite dilution ( wedge_(m)^@) of NH_(4)Cl , KOH and KCl are 152.8, 272.6 and 149.8 S cm^(2)mol^(-1) respectively. The wedge_(m)^@ of NH_(4)OH in Scm^(2) mol^(-1) and % dissociation of 0.01 M NH_(4)OH with wedge_(m) =25.1 Scm^(2) mol^(-1) at the same temperature are,

At infinite dilution molar conductivity of Ba^(2+) and Cl^(-) ions are =127.32S cm^(2)//mol and 76.34S cm^(2)//mol respectively. What is Lambda_(m)^(oo) for BaCl_(2) at same dilution?

Consider 10 ^(4) xx 2 ^(4)

The dissociation coustant of H_(2)O, H _(2)Se and H_(2) Te are 1.8 xx 10 ^(-16) , 1.4 xx 10 ^(-7) , 1.3 xx 10 ^(-4)and 2.2 xx 10 ^(-3), respectively. What do these values denote ?

The values of equivalent conductivity at infinite dilutions for NH_4Cl , NaOH and NaCl are respectively 149.74, 248.1 and 126.4 "ohm"^(-1) cm^(2) "equi"^(-1) . The value of lambda_(eg)^(oo) of NH_4OH is

The rate constants for a reaction at 400 K and 500 K are 2 . 60 xx 10^(-5) s^(-1) and 2.60 xx 10^(-3) s^(-1) respectively. The activation energy of the reaction in kJ mol^(-1) is

^^_(m)^(0) for NaCl, HCl and NaAc are 126.4, 425.0 and 91.0 S cm^(2) mol ^(-1) respectively. Calculate ^^(0) for Hac.