Calculate the limiting molar conductivities of
a)magnesium sulphate and b) calcium chloride.
Limiting molar conductivity of `Mg^(2+), Ca^(2+), SO_(4)^(2-) and CI^(-)` are respectively `106, 119, 160 and 76.3 "scn mol"^(-1)`.

Calculate the molecular weight of alumunum sulphate Al_(2)(SO_(4))_(3)

Limiting equivalent conductivities of different ions are given below The limiting equivalent conductivity of the salt NaKSO_4 is __________ Scm^(2)eq^(-1)

Limiting molar conductivity of Mg^(2+) and Cl^(-) ions in water is 106.0 and 76.3 S cm^2 "mol"^(-1) . The limiting molar conductivity of magnesium chloride (in Scm^2 " mol"^(-1) ) in water is

According to Kohlrausch law, the limiting value of molar conductivity of an electrolyte A_2B is

The limiting molar conductivities (Lambda^(0)) for NaCl, KBr and KCl are 126, 152 and 150 S. cm^(2) "mol"^(-1) respectively. Then A for NaBr is

The conductivity of 0.01 M aqueous acetic acid measured with a conductivity cell of cell constant of 0.5cm^(-1) at 298 K is 3.12xx10^(-4) S. If the limiting conductivities of H^(+)andCH_(3)COO^(-) at the same temperature are 349, and 41 S cm^(2)mol^(-1) respectively, the dissociation constant of acetic acid is

Calculate the molar mass of suphuric acid (H_2SO4) and glucose (C_8H_12O_6) .

The molar conductivities of H^(+) and HCOO^(-) ions at infinite dilution are 34.7 and 5.4 mSm^(2) " mol"^(-1) respectively. The molar conductivity of 0.25 M HCOOH is 4.0 mSm^(2) mol^(-1) . Then pK_(a) of formic acid is