Calculate molality of `2.5g` of ethanoic acid `(CH_(3)COOH)` in `75 g` of benzene.

Two grams of benzoic acid (C_(6)H_(5)COOH) dissolved in 25.0 g of benzene shows a depression in freezing point equal to 1.62 K . Molal depression constant for benzene is 4.9 K kg^(-1)"mol^-1 . What is the percentage association of acid if it forms dimer in solution?

Calculate the molarity (M) and molality (m) of 16% aqueous methanol (CH_(3) OH) solution by volume. Density of solution = 0.9 g mL^(-1) .

Calculate the molality of a solution by dissolving 0.850g of ammonia ( NH_3 ) in 100g of water.

The freezing point of a solution contaning 0.3 g of acetic acid in 43 g of benzene reduces by 0.3^(@) . Calculate the Van's Hoff factor "( K_(f) for benzene = 5.12 K kg mol^(-1) )"

Calculate the molality of a solution obtained by dissolving 15.87 g ehtyl alcohol (C_(2) H_(5) OH) in 168 g of H_(2) O .

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))

Calculate the molarity (M) and normality (N) of a solution of oxalic acid [(COOH)_(2) . 2H_(2) O] containing 12.6 g of the acid in 500 mL of the solution.

Find the Van't Hoff factor of a. CH_(3)COOH in H_(2)O , b. CH_(3)COOH in benzene

Calculate the molality of an aqueous solution containing 3.0g of urea (mol.mass=60) in 250g of water.

Acetic acid associates in benzene to form a dimer. 1.65 g of acetic acid when dissolved in 100 g of benzene raised the boiling point by 0.36^(@)C . Calculate the Van't Hoff factor and degree of association of acetic acid. ( K_(b) for benzene= 2.57^(@)C )