The resistnce of 0.1 N solution of a salt is found to be `2.5xx10^(3)` ohms. The equivalent conductance of the solution is
( cell constant `=1.15cm^(-1)`)

The resistance of 0.01N solution of an electrolyte AB at 328K is 100 ohm. The specific conductance of solution is ( cell constant =1 cm^(-1) )

The equivalent conductance of 1N solution of an electrolyte is nearly

The resistance of 0.1 N solution of formic acid is 200 ohm and cell constant is 2.0cm^(-2) . The equivalent conductivity (in Scm^(2)eg^(-1) ) of 0.1 N formic acid is 1.0 xx 10^(x) , x is

The resistance of 1N solution of acetic acid is 250 ohm when measured in a cell of cell constant 1.15cm^(-1) . The equivalent conductance ( in ohm^(-1)cm^(2)equi^(-1) ) of 1N acetic acid is

The specific conductance of a saturated solution of a salt MX is 2.8 xx 10^(-7) Omega^(-1) cm^(-1) and the equivalent conductances at infinite dilution of M^(+1) and X^(-1) ions are 68 and 72 Omega^(-1) cm2 / equivalent respectively Hence, the K_(sp) of MX is found to be

The resistance of 0.5 N solution of an electrolyte in a conductivity cell was found to be 45 ohms. If the electrodes in the cell are 2.2 cm apart and have an area of 3.8 cm^2 then the equivalent conductance (in Scm^2 eq^(-1) ) of a solution is

The specific conductance of a salt of 0.01M solution is 1.061xx10^(-4)ohm^(-1)cm^(-1) . Molar conductance of a same solution is ( in ohm^(-1)cm^(2)"mole"^(-1) )

Specific conductance of 0.1 M Nitric acid is 6.3 xx 10^(-2) "ohm"^(-1) cm^(-1) "mol"^(-1) The molar conductance of the solution is