The elevation in boiling point of a solution containing 0.20g of solute in 20g of ether is `0.17^@C`, `K_b` for ether is 2.16 K kg/mol. Calculate the molar mass of solute.

The solution containing 6.8g of non-ionic solute in 100g of water was found to freeze at - 0.93^@C . If K_f for water is 1.86, the molar Mass of solute is

When 0.9 g of a non-volatile solute was dissovled in 45 g of benezene, the elevation of boiling point is 0.88^@C . If K_b for benezene is 2.53 K kg "mol"^(-1) , Calculate the molar mass of solute.

Calculate the molarity of a solution containing 5g of NaOH in 500 mL solution.

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

A solution containing 3.3g of a substance in 125g of benzene (b.pt. = 80^@C ) boils at 80.66^@C . If K_b for benzene is 3.28 K kg mol l^(-1) the molecular mass of the substance will be:

The freezing point of solution containing 10 mL of non-volatile and non-electrolyte liquid "A" in 500 g of water is -0.413^@C . If K_f of water is 1.86 K kg mol^(-1) and the molecular weight of A=60 g mol^(-1) , what is the density of the solution in g mL^(-1) ? (Assume Delta_(mix) V=0)

7g of a solute are dissolved in 200 g of a solvent (mol. Wt. 78) to prepare a solution. At a certain temperature dry air is sent into a solution and solvent continuously. The loss is weights of containers containing solutions and solvent are 0.975 g and 0.025 g. Calculate the molar mass of solute.

2.0 g of a non-electrolyte solute dissovled in 100 g of benezene lowered the freezing point of benzene by 0.4^@C . If the freezing point depression constant of benezene is 5.12 K kg mol^(-1) . Calculate the molar mass of solute.

Define molarity Calculate the molarity of a solution containing 5g of NaOH in 450 ml of solution.