Please select a subject first
Advertisements
Advertisements
A solution of citric acid C6H8O7 in 50 g of acetic acid has a boiling point elevation of 1.76 K. If Kb for acetic acid is 3.07 K kg mol-1, what is the molality of solution?
Concept: Relative Molecular Mass >> Boiling Point Elevation
The Henry’s law constant of a gas is 6.7 × 10–4 mol/(L bar). Its solubility when the partial pressure of the gas at 298 K is 0.65 bar is ______.
Concept: Solubility
State Raoult’s law.
Concept: Vapour Pressure of Solutions of Liquids in Liquids
The vapour pressures of pure liquids A and B are 0.600 bar and 0.933 bar respectively, at a certain temperature.
What is the mole fraction of liquid B in the solution when the total vapour pressure of their mixture is 0.8 bar?
Concept: Vapour Pressure of Solutions of Liquids in Liquids
For a very dilute solution, the osmotic pressure is given by π = n2RT/V where V is the volume in L containing n2 moles of nonvolatile solute. Establish the equation for molar mass of solute.
Concept: Vapour Pressure Lowering
Give two points to explain why vapour pressure of solvent is lowered by dissolving nonvolatile solute into it.
Concept: Vapour Pressure Lowering
Derive the expression for molar mass of solute in terms of boiling point elevation of solvent.
Concept: Relative Molecular Mass >> Boiling Point Elevation
With the help of vapour pressure-temperature curves for solution and solvent, explain why boiling point of solvent is elevated when a nonvolatile solute is dissolved into it.
Concept: Vapour Pressure of Solutions of Liquids in Liquids
A solution containing 3 g of solute A (M = 60 g/mol) in 1 L solution is isotonic with a solution containing 8.55 g of solute B in 500 mL solution. What is the molar mass of B?
Concept: Relative Molecular Mass >> Boiling Point Elevation
Explain with vapour pressure-temperature curves that the freezing point of a solvent is lowered by dissolving a nonvolatile solute into it. Give reason for such lowering of freezing of solvent.
Concept: Relative Molecular Mass >> Depression in Freezing Point
Henry's law constant for CH3Br(g) is 0.159 mol dm–3 bar–1 at 25°C. What is the solubility of CH3Br(g) in water at the same temperature and partial pressure of 0.164 bar?
Concept: Solubility
Derive an expression to calculate molar mass of non-volatile solute by osmotic pressure measurement.
Concept: Colligative Properties and Determination of Molar Mass >> Osmosis and Osmotic Pressure
Derive an expression to calculate molar mass of non-volatile solute by osmotic pressure measurement.
Concept: Colligative Properties and Determination of Molar Mass >> Osmosis and Osmotic Pressure
0.01 m aqueous formic acid solution freezes at – 0.021°C. Calculate its degree of dissociation, Kf = 1.86 K kg mol–1.
Concept: Colligative Properties of Electrolytes
Write the SI unit of the cryoscopic constant.
Concept: Relative Molecular Mass >> Depression in Freezing Point
Calculate the mole fraction of solute, if the vapour pressure of pure benzene at a certain temperature is 640 mmHg and the vapour pressure of a solution of a solute in benzene is 600 mmHg.
Concept: Vapour Pressure Lowering
How will you determine the molar mass of non-volatile solute by elevation of boiling point?
Concept: Relative Molecular Mass >> Boiling Point Elevation
Derive the relation between freezing point depression and molar mass of solute.
Concept: Relative Molecular Mass >> Depression in Freezing Point
