The equivalent conductance of NaCl at concentration C and at infinite dilution are `Lamba_(c)` and `Lambda_(oo)` respectively . The correct relationship between `Lambda_(c)` and `Lambda_(oo)` is given as (where the constant B is positive)

The molar conductance of CH_(3)COONa , HCl and NaCl at infinite dilution are 91, 426 and 126 S cm^(2)"mol"^(-1) respectively at 25^(@)C . The molar conductance at infinite dilution for CH_(3)COOH would be

The equilibrium constant of a weak electrolyte at concentration 'C' can be expressed as ( Lambda_(m)= molar conductance at infinite dilution) :

The equivalent conductances at infinite dilution of HCl, CH_(3)COONa and NaCl are "426.16, 91.0 and 126.45 ohm"^(-1) cm^(2)" gm.equivalent"^(-1) respectively.. Calculate the lambda_(oo) of acetic acid.

If C is the concentration in gram mol per litre, then specific conductance (k) and molar conductance (Lambda) are related as

The figure given below shows three velocity -substrate concentration curves for an enzyme reaction. What do the curves a,b and c depit respectively ?

Two slabs different materials with identical dimensions have their thermal condcutivities lambda_1 and lambda_2 respectively . When they are placed in contact with each other such that heat flows from one into the other ( placed in series ) , the equivalent thermal conductivity of the composite wall is given by

The molar conductances of sodium chloride, hydrochloric aciid and sodium acetate at infinite dilution are 126.45, 426.16 and 91.0 ohm^(-1)cm^(2)mol^(-1) at 25^(@)C respectively. Calculate the molar conductance of acetic acid at infinite dilution.