`1 g` of monobasic acid in `100 g` of water lowers the freezing point by `0.168^(@)`. If `0.2 g` of same acid requires `15.1 mL mol^(-1)` of `N//10` alkali for complete neutralization, calculate the degree of dissociation of acid. `K'_(f)` for `H_(2)O` is `1.86 K mol^(-1) kg`.

1.0 g of a monobassic acid HA in 100 g water lowers the freezing point by 0.155 K. IF 0.75 g, of same acid requires 25 mL of N/5 NaOH solution for complete neutralisation then %, degree of ionization of acid is ( K_(f) of H_(2)O = 1.86 K kg "mol"^(-1) ):

1.5g of monobasic acid when dissolved in 150g of water lowers the freezing point by 0.165^(@)C.0.5g of the same acid when titrated, after dissolution in water, requires 37.5 mL of N//10 alkali. Calculate the degree of dissociation of the acid (K_(f) for water = 1.86^(@)C mol^(-1)) .

1.0 gram of a monobasic acid HA in 100 gram H_2O lower the freezing point by 0.155 K.0.45 gram of same acid require 15 ml of 1/5 M KOH solution for complete neutralisation.If the degree of dissociation of acid is alpha , then value of '20alpha' is : ( K_f for H_2O =1.86 K.Kg/mole)

0.075 g of a monobasic acid required 10 mL of N//12 NaOH solution for complete neutralisation. Calculate the molecular mass of the acid

0.126 g of acid required 20 mL of 0.1 N NaOH for complete neutralisation. The equivalent mass of an acid is

0.2 g of a monobasic acid gave 0.5 g of CO_2 and 0.089 g of H_2 O . 0.122 g of the same acid requires 10 mL of 0.1 N NaOH for complete neutralisation. Determine the molecular formula of the compound.

1g of a monobasic acid dissolved in 200g of water lowers the freezing point by 0.186^(@)C . On the other hand when 1g of the same acid is dissolved in water so as to make the solution 200mL , this solution requires 125mL of 0.1 N NaOH for complete neutralization. Calculate % dissociation of acid ? (K_(f)=1.86(K-kg)/("mol"))

A 0.075 molal solution of monobasic acid has a freezing point of -0.18^(@)C . Calculate K_(a) for the acid , (k_(f)=1.86)

The freezing point of solution containing 0.2 g of acetic acid in 20.0 g of benzene is lowered by 0.45^(@)C . Calculate the degree of association of acetic acid in benzene. (K_(f)=5.12 K^(@) mol^(-1) kg^(-1))

The freezing point of solution containing 0.2 g of acetic acid in 20.0 g of benzene is lowered by 0.45^(@)C . Calculate the degree of association of acetic acid in benzene. (K_(f)=5.12 K^(@) mol^(-1) kg^(-1))